rip3  (ProSci Incorporated)


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    ProSci Incorporated rip3
    (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or <t>RIP3</t> protein expression in L929 cells.
    Rip3, supplied by ProSci Incorporated, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 94 stars, based on 1 article reviews
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    rip3 - by Bioz Stars, 2023-06
    94/100 stars

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    1) Product Images from "RIP1-Dependent and Independent Effects of Necrostatin-1 in Necrosis and T Cell Activation"

    Article Title: RIP1-Dependent and Independent Effects of Necrostatin-1 in Necrosis and T Cell Activation

    Journal: PLoS ONE

    doi: 10.1371/journal.pone.0023209

    (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or RIP3 protein expression in L929 cells.
    Figure Legend Snippet: (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or RIP3 protein expression in L929 cells.

    Techniques Used: MTS Assay, Expressing

    (A–C) RIP1 is required for zVAD-fmk, but not TNF-induced necrosis in L929 cells. (A) L929 cells were transfected with the indicated siRNA oligonucleotides with HiPerfect (Qiagen). TR4 is the control siRNA against TRAIL-R4 . Cells were treated with (A) 50 µM zVAD-fmk or (B) 10 ng/ml mTNF and cell death was measured by MTS assay. (C) Western blot shows RIP1 and RIP3 expression in cells transfected with the indicated siRNAs. (D–E) RIP1 is required for TNF-induced necrosis in 3T3 fibroblasts. NIH 3T3 fibroblasts were transfected with the indicated siRNA. (D) Expression of RIP1, RIP3 and ß-actin in cells transfected with the indicated siRNA was determined by Western blot. (E) Necrosis was induced with 10 µM zVAD-fmk, 0.5 µg/ml cycloheximide and 10 ng/ml mTNF for 20 hours. Cell death was assessed as in (A).
    Figure Legend Snippet: (A–C) RIP1 is required for zVAD-fmk, but not TNF-induced necrosis in L929 cells. (A) L929 cells were transfected with the indicated siRNA oligonucleotides with HiPerfect (Qiagen). TR4 is the control siRNA against TRAIL-R4 . Cells were treated with (A) 50 µM zVAD-fmk or (B) 10 ng/ml mTNF and cell death was measured by MTS assay. (C) Western blot shows RIP1 and RIP3 expression in cells transfected with the indicated siRNAs. (D–E) RIP1 is required for TNF-induced necrosis in 3T3 fibroblasts. NIH 3T3 fibroblasts were transfected with the indicated siRNA. (D) Expression of RIP1, RIP3 and ß-actin in cells transfected with the indicated siRNA was determined by Western blot. (E) Necrosis was induced with 10 µM zVAD-fmk, 0.5 µg/ml cycloheximide and 10 ng/ml mTNF for 20 hours. Cell death was assessed as in (A).

    Techniques Used: Transfection, MTS Assay, Western Blot, Expressing

    rip3  (ProSci Incorporated)


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    ProSci Incorporated rip3
    (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or <t>RIP3</t> protein expression in L929 cells.
    Rip3, supplied by ProSci Incorporated, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 94 stars, based on 1 article reviews
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    rip3 - by Bioz Stars, 2023-06
    94/100 stars

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    1) Product Images from "RIP1-Dependent and Independent Effects of Necrostatin-1 in Necrosis and T Cell Activation"

    Article Title: RIP1-Dependent and Independent Effects of Necrostatin-1 in Necrosis and T Cell Activation

    Journal: PLoS ONE

    doi: 10.1371/journal.pone.0023209

    (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or RIP3 protein expression in L929 cells.
    Figure Legend Snippet: (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or RIP3 protein expression in L929 cells.

    Techniques Used: MTS Assay, Expressing

    (A–C) RIP1 is required for zVAD-fmk, but not TNF-induced necrosis in L929 cells. (A) L929 cells were transfected with the indicated siRNA oligonucleotides with HiPerfect (Qiagen). TR4 is the control siRNA against TRAIL-R4 . Cells were treated with (A) 50 µM zVAD-fmk or (B) 10 ng/ml mTNF and cell death was measured by MTS assay. (C) Western blot shows RIP1 and RIP3 expression in cells transfected with the indicated siRNAs. (D–E) RIP1 is required for TNF-induced necrosis in 3T3 fibroblasts. NIH 3T3 fibroblasts were transfected with the indicated siRNA. (D) Expression of RIP1, RIP3 and ß-actin in cells transfected with the indicated siRNA was determined by Western blot. (E) Necrosis was induced with 10 µM zVAD-fmk, 0.5 µg/ml cycloheximide and 10 ng/ml mTNF for 20 hours. Cell death was assessed as in (A).
    Figure Legend Snippet: (A–C) RIP1 is required for zVAD-fmk, but not TNF-induced necrosis in L929 cells. (A) L929 cells were transfected with the indicated siRNA oligonucleotides with HiPerfect (Qiagen). TR4 is the control siRNA against TRAIL-R4 . Cells were treated with (A) 50 µM zVAD-fmk or (B) 10 ng/ml mTNF and cell death was measured by MTS assay. (C) Western blot shows RIP1 and RIP3 expression in cells transfected with the indicated siRNAs. (D–E) RIP1 is required for TNF-induced necrosis in 3T3 fibroblasts. NIH 3T3 fibroblasts were transfected with the indicated siRNA. (D) Expression of RIP1, RIP3 and ß-actin in cells transfected with the indicated siRNA was determined by Western blot. (E) Necrosis was induced with 10 µM zVAD-fmk, 0.5 µg/ml cycloheximide and 10 ng/ml mTNF for 20 hours. Cell death was assessed as in (A).

    Techniques Used: Transfection, MTS Assay, Western Blot, Expressing

    mouse rip3  (ProSci Incorporated)


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    ProSci Incorporated mouse rip3
    The regulation of <t>RIP3</t> in TNF- α -induced toxicity of hippocampal neurons in vivo . (a) Nissl staining of hippocampal neurons 72 h after treatment. Wild-type (WT) and RIP3 knockout (KO) mice received intracerebroventricular injection of PBS or the indicated dose of TNF- α . The neurons of brain sections from WT and KO mice were analyzed by Nissl staining ( n = 7) and morphology of hippocampal CA3 region was shown. Arrows indicate the loss of hippocampal neurons. (b) and (c) Expressions of RIP1, RIP3, and caspase-3 in the hippocampus after TNF - α treatment. Proteins extracted from hippocampus in the wild-type mice treated with PBS or TNF- α were analyzed by western blot using indicated antibodies. PC: MEF cells were treated with staurosporine at 150 nM for 15 hours. The results shown here are representative of five mice.
    Mouse Rip3, supplied by ProSci Incorporated, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    1) Product Images from "Necroptosis Mediates TNF-Induced Toxicity of Hippocampal Neurons"

    Article Title: Necroptosis Mediates TNF-Induced Toxicity of Hippocampal Neurons

    Journal: BioMed Research International

    doi: 10.1155/2014/290182

    The regulation of RIP3 in TNF- α -induced toxicity of hippocampal neurons in vivo . (a) Nissl staining of hippocampal neurons 72 h after treatment. Wild-type (WT) and RIP3 knockout (KO) mice received intracerebroventricular injection of PBS or the indicated dose of TNF- α . The neurons of brain sections from WT and KO mice were analyzed by Nissl staining ( n = 7) and morphology of hippocampal CA3 region was shown. Arrows indicate the loss of hippocampal neurons. (b) and (c) Expressions of RIP1, RIP3, and caspase-3 in the hippocampus after TNF - α treatment. Proteins extracted from hippocampus in the wild-type mice treated with PBS or TNF- α were analyzed by western blot using indicated antibodies. PC: MEF cells were treated with staurosporine at 150 nM for 15 hours. The results shown here are representative of five mice.
    Figure Legend Snippet: The regulation of RIP3 in TNF- α -induced toxicity of hippocampal neurons in vivo . (a) Nissl staining of hippocampal neurons 72 h after treatment. Wild-type (WT) and RIP3 knockout (KO) mice received intracerebroventricular injection of PBS or the indicated dose of TNF- α . The neurons of brain sections from WT and KO mice were analyzed by Nissl staining ( n = 7) and morphology of hippocampal CA3 region was shown. Arrows indicate the loss of hippocampal neurons. (b) and (c) Expressions of RIP1, RIP3, and caspase-3 in the hippocampus after TNF - α treatment. Proteins extracted from hippocampus in the wild-type mice treated with PBS or TNF- α were analyzed by western blot using indicated antibodies. PC: MEF cells were treated with staurosporine at 150 nM for 15 hours. The results shown here are representative of five mice.

    Techniques Used: In Vivo, Staining, Knock-Out, Injection, Western Blot

    TNF- α -induced necrosis of HT-22 cells depends on RIP3 and its kinase activity. (a) HT-22 cells were transfected with the negative control (NC) or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for another 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. (b) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. (c) HT-22 cells stably expressing a siRNA-resistant WT-RIP3 or RIP3-K51A or RIP3-RHIM-Mut were transfected with the control or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. WT-RIP3: HT-22 cells stably expressing a siRNA-resistant wild-type form of RIP3; RIP3-K51A: HT-22 cells stably expressing a siRNA-resistant RIP3 kinase dead mutant. RIP3-RHIM Mut: HT-22 cells stably expressing a siRNA-resistant RHIM domain mutant form of RIP3. (d) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. All experiments were repeated three times with similar results.
    Figure Legend Snippet: TNF- α -induced necrosis of HT-22 cells depends on RIP3 and its kinase activity. (a) HT-22 cells were transfected with the negative control (NC) or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for another 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. (b) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. (c) HT-22 cells stably expressing a siRNA-resistant WT-RIP3 or RIP3-K51A or RIP3-RHIM-Mut were transfected with the control or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. WT-RIP3: HT-22 cells stably expressing a siRNA-resistant wild-type form of RIP3; RIP3-K51A: HT-22 cells stably expressing a siRNA-resistant RIP3 kinase dead mutant. RIP3-RHIM Mut: HT-22 cells stably expressing a siRNA-resistant RHIM domain mutant form of RIP3. (d) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. All experiments were repeated three times with similar results.

    Techniques Used: Activity Assay, Transfection, Negative Control, Standard Deviation, Western Blot, Stable Transfection, Expressing, Mutagenesis

    rip3  (ProSci Incorporated)


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    ProSci Incorporated rip3
    Ethanol induces steatosis and increases necroptosis proteins in mouse livers. Wildtype mice were pair-fed with CD or ethanol for 10 days followed by binge for another 8 hours. Liver steatosis was assessed by hematoxylin and eosin (H & E) staining (A) and Oil Red O staining (B). (C) Serum alanine aminotransferase (ALT) activities were measured in mice fed with ethanol. (D) Total proteins were extracted from mouse liver homogenates. Western blotting for RIP1, <t>RIP3</t> and MLKL was analyzed. (E) Densitometry analysis was performed. Values were expressed as mean ± SEM (n=3 per group). *p < 0.05 vs CD group. CD, control diet.
    Rip3, supplied by ProSci Incorporated, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 94 stars, based on 1 article reviews
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    1) Product Images from "The role of MLKL in Hepatic Ischemia-Reperfusion Injury of Alcoholic Steatotic Livers"

    Article Title: The role of MLKL in Hepatic Ischemia-Reperfusion Injury of Alcoholic Steatotic Livers

    Journal: International Journal of Biological Sciences

    doi: 10.7150/ijbs.67533

    Ethanol induces steatosis and increases necroptosis proteins in mouse livers. Wildtype mice were pair-fed with CD or ethanol for 10 days followed by binge for another 8 hours. Liver steatosis was assessed by hematoxylin and eosin (H & E) staining (A) and Oil Red O staining (B). (C) Serum alanine aminotransferase (ALT) activities were measured in mice fed with ethanol. (D) Total proteins were extracted from mouse liver homogenates. Western blotting for RIP1, RIP3 and MLKL was analyzed. (E) Densitometry analysis was performed. Values were expressed as mean ± SEM (n=3 per group). *p < 0.05 vs CD group. CD, control diet.
    Figure Legend Snippet: Ethanol induces steatosis and increases necroptosis proteins in mouse livers. Wildtype mice were pair-fed with CD or ethanol for 10 days followed by binge for another 8 hours. Liver steatosis was assessed by hematoxylin and eosin (H & E) staining (A) and Oil Red O staining (B). (C) Serum alanine aminotransferase (ALT) activities were measured in mice fed with ethanol. (D) Total proteins were extracted from mouse liver homogenates. Western blotting for RIP1, RIP3 and MLKL was analyzed. (E) Densitometry analysis was performed. Values were expressed as mean ± SEM (n=3 per group). *p < 0.05 vs CD group. CD, control diet.

    Techniques Used: Staining, Western Blot

    anti ripk3  (ProSci Incorporated)


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    ProSci Incorporated anti ripk3
    ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated <t>RIPK3</t> (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from mock- or IFN-β–treated wild type (WT) mice with or without mouse hepatitis virus (MHV) infection 3 days post-infection. ( D – I ) Immunoblot analysis of ( D , G ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E , H ) pro- (P55) and cleaved CASP8 (P18), pro- (P35) and cleaved CASP3 (P19 and P17) and pro- (P35) and cleaved CASP7 (P20); ( F) pMLKL, tMLKL, pRIPK3 and tRIPK3; and ( I ) pRIPK3 and tRIPK3 in mock- or IFN-β–treated bone marrow-derived macrophages (BMDMs) or THP-1 cells during MHV or SARS-CoV-2 infection, respectively. Actin was used as the internal control. Molecular weight marker sizes in kDa are indicated in small font on the left of each blot. Asterisk denotes non-specific bands ( A, G ). Data are representative of at least three independent experiments.
    Anti Ripk3, supplied by ProSci Incorporated, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/anti ripk3/product/ProSci Incorporated
    Average 94 stars, based on 1 article reviews
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    anti ripk3 - by Bioz Stars, 2023-06
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    1) Product Images from "ZBP1-dependent inflammatory cell death, PANoptosis, and cytokine storm disrupt IFN therapeutic efficacy during coronavirus infection"

    Article Title: ZBP1-dependent inflammatory cell death, PANoptosis, and cytokine storm disrupt IFN therapeutic efficacy during coronavirus infection

    Journal: Science Immunology

    doi: 10.1126/sciimmunol.abo6294

    ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from mock- or IFN-β–treated wild type (WT) mice with or without mouse hepatitis virus (MHV) infection 3 days post-infection. ( D – I ) Immunoblot analysis of ( D , G ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E , H ) pro- (P55) and cleaved CASP8 (P18), pro- (P35) and cleaved CASP3 (P19 and P17) and pro- (P35) and cleaved CASP7 (P20); ( F) pMLKL, tMLKL, pRIPK3 and tRIPK3; and ( I ) pRIPK3 and tRIPK3 in mock- or IFN-β–treated bone marrow-derived macrophages (BMDMs) or THP-1 cells during MHV or SARS-CoV-2 infection, respectively. Actin was used as the internal control. Molecular weight marker sizes in kDa are indicated in small font on the left of each blot. Asterisk denotes non-specific bands ( A, G ). Data are representative of at least three independent experiments.
    Figure Legend Snippet: ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from mock- or IFN-β–treated wild type (WT) mice with or without mouse hepatitis virus (MHV) infection 3 days post-infection. ( D – I ) Immunoblot analysis of ( D , G ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E , H ) pro- (P55) and cleaved CASP8 (P18), pro- (P35) and cleaved CASP3 (P19 and P17) and pro- (P35) and cleaved CASP7 (P20); ( F) pMLKL, tMLKL, pRIPK3 and tRIPK3; and ( I ) pRIPK3 and tRIPK3 in mock- or IFN-β–treated bone marrow-derived macrophages (BMDMs) or THP-1 cells during MHV or SARS-CoV-2 infection, respectively. Actin was used as the internal control. Molecular weight marker sizes in kDa are indicated in small font on the left of each blot. Asterisk denotes non-specific bands ( A, G ). Data are representative of at least three independent experiments.

    Techniques Used: Western Blot, Infection, Derivative Assay, Molecular Weight, Marker

    ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from PBS-treated mice or mouse hepatitis virus (MHV)-infected wild type (WT) and Zbp1 –/– mice treated with IFN-β harvested 3 days after infection. ( D – F ) Immunoblot analysis of ( D ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E ) pro- (P55) and cleaved (P18) CASP8, pro- (P35) and cleaved (P19 and P17) CASP3 and pro- (P35) and cleaved (P20) CASP7; and ( F ) pMLKL, tMLKL and ZBP1 in PBS- or IFN-β–treated WT, Zbp1 –/– and Zbp1 ∆Za2 bone marrow-derived macrophages (BMDMs) during MHV infection. Actin was used as the internal control. Data are representative of at least three independent experiments.
    Figure Legend Snippet: ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from PBS-treated mice or mouse hepatitis virus (MHV)-infected wild type (WT) and Zbp1 –/– mice treated with IFN-β harvested 3 days after infection. ( D – F ) Immunoblot analysis of ( D ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E ) pro- (P55) and cleaved (P18) CASP8, pro- (P35) and cleaved (P19 and P17) CASP3 and pro- (P35) and cleaved (P20) CASP7; and ( F ) pMLKL, tMLKL and ZBP1 in PBS- or IFN-β–treated WT, Zbp1 –/– and Zbp1 ∆Za2 bone marrow-derived macrophages (BMDMs) during MHV infection. Actin was used as the internal control. Data are representative of at least three independent experiments.

    Techniques Used: Western Blot, Infection, Derivative Assay

    anti mouse ripk3  (ProSci Incorporated)


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    ProSci Incorporated anti mouse ripk3
    Anti Mouse Ripk3, supplied by ProSci Incorporated, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/anti mouse ripk3/product/ProSci Incorporated
    Average 94 stars, based on 1 article reviews
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    94/100 stars

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    rabbit anti ripk3  (ProSci Incorporated)


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    ProSci Incorporated rabbit anti ripk3
    A , B U937 cell lines of various genotypes expressing an inducible MLKL(1-180)-gyrase fusion were treated with doxycycline (to induce expression) and/or coumermycin (to induce dimerisation), or left untreated. After 24 h ( A ) or 48 h ( B ), cells were harvested and assessed for cell death (PI uptake measured using flow cytometry), counting a minimum of 5000 cells. Data represent three independent experiments, with the exception of the BAX −/− BAK −/− cell lines, where n = 2. Statistics were calculated in GraphPad Prism 8, and p values are shown where <0.05. C The same U937 cells used in panel A and B were treated with doxycycline alone and left overnight. After approximately 16 h, cells were harvested and lysed for analysis of fusion protein expression via western blot. The upper MLKL band (*) represents endogenous MLKL, and the lower band (arrow) represents the MLKL (1-180) -gyrase fusion protein. D Wild-type U937 were treated with TNF (100 ng/ml), Smac-mimetic (0.5 µM), and caspase inhibitor IDN-6556 (emricasan; 5 µM) (TSI) to induce necroptosis or TNF and Smac-mimetic (TS) alone to induce apoptosis. In parallel, MLKL −/− U937 expressing an inducible MLKL (1-180) -gyrase fusion were treated with doxycycline and coumermycin in the presence or absence of necrosulfonamide (NSA). Images were taken at the specified timepoints using an IncuCyte S3 System to track morphological changes and PI uptake (shown by red). Cells with a necroptotic phenotype (cellular swelling) are indicate with yellow arrows. Three fields were examined per well with representative data shown. E Wild-type U937 cells were treated with doxycycline (20 nM) to induce expression of human wild-type <t>RIPK3</t> in the presence of various cell death inhibitors, as indicated, for 24 h. At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent four or more independent experiments. F Wild-type, MLKL −/− and RIPK1 −/− U937 expressing inducible human wild-type RIPK3 were treated with doxycycline (20 nM) and IDN-6556 (5 µM), doxycycline alone, or left untreated. After 24 h, cell death was measured as PI uptake using flow cytometry. Data are a summary of six independent experiments.
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    1) Product Images from "The Lck inhibitor, AMG-47a, blocks necroptosis and implicates RIPK1 in signalling downstream of MLKL"

    Article Title: The Lck inhibitor, AMG-47a, blocks necroptosis and implicates RIPK1 in signalling downstream of MLKL

    Journal: Cell Death & Disease

    doi: 10.1038/s41419-022-04740-w

    A , B U937 cell lines of various genotypes expressing an inducible MLKL(1-180)-gyrase fusion were treated with doxycycline (to induce expression) and/or coumermycin (to induce dimerisation), or left untreated. After 24 h ( A ) or 48 h ( B ), cells were harvested and assessed for cell death (PI uptake measured using flow cytometry), counting a minimum of 5000 cells. Data represent three independent experiments, with the exception of the BAX −/− BAK −/− cell lines, where n = 2. Statistics were calculated in GraphPad Prism 8, and p values are shown where <0.05. C The same U937 cells used in panel A and B were treated with doxycycline alone and left overnight. After approximately 16 h, cells were harvested and lysed for analysis of fusion protein expression via western blot. The upper MLKL band (*) represents endogenous MLKL, and the lower band (arrow) represents the MLKL (1-180) -gyrase fusion protein. D Wild-type U937 were treated with TNF (100 ng/ml), Smac-mimetic (0.5 µM), and caspase inhibitor IDN-6556 (emricasan; 5 µM) (TSI) to induce necroptosis or TNF and Smac-mimetic (TS) alone to induce apoptosis. In parallel, MLKL −/− U937 expressing an inducible MLKL (1-180) -gyrase fusion were treated with doxycycline and coumermycin in the presence or absence of necrosulfonamide (NSA). Images were taken at the specified timepoints using an IncuCyte S3 System to track morphological changes and PI uptake (shown by red). Cells with a necroptotic phenotype (cellular swelling) are indicate with yellow arrows. Three fields were examined per well with representative data shown. E Wild-type U937 cells were treated with doxycycline (20 nM) to induce expression of human wild-type RIPK3 in the presence of various cell death inhibitors, as indicated, for 24 h. At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent four or more independent experiments. F Wild-type, MLKL −/− and RIPK1 −/− U937 expressing inducible human wild-type RIPK3 were treated with doxycycline (20 nM) and IDN-6556 (5 µM), doxycycline alone, or left untreated. After 24 h, cell death was measured as PI uptake using flow cytometry. Data are a summary of six independent experiments.
    Figure Legend Snippet: A , B U937 cell lines of various genotypes expressing an inducible MLKL(1-180)-gyrase fusion were treated with doxycycline (to induce expression) and/or coumermycin (to induce dimerisation), or left untreated. After 24 h ( A ) or 48 h ( B ), cells were harvested and assessed for cell death (PI uptake measured using flow cytometry), counting a minimum of 5000 cells. Data represent three independent experiments, with the exception of the BAX −/− BAK −/− cell lines, where n = 2. Statistics were calculated in GraphPad Prism 8, and p values are shown where <0.05. C The same U937 cells used in panel A and B were treated with doxycycline alone and left overnight. After approximately 16 h, cells were harvested and lysed for analysis of fusion protein expression via western blot. The upper MLKL band (*) represents endogenous MLKL, and the lower band (arrow) represents the MLKL (1-180) -gyrase fusion protein. D Wild-type U937 were treated with TNF (100 ng/ml), Smac-mimetic (0.5 µM), and caspase inhibitor IDN-6556 (emricasan; 5 µM) (TSI) to induce necroptosis or TNF and Smac-mimetic (TS) alone to induce apoptosis. In parallel, MLKL −/− U937 expressing an inducible MLKL (1-180) -gyrase fusion were treated with doxycycline and coumermycin in the presence or absence of necrosulfonamide (NSA). Images were taken at the specified timepoints using an IncuCyte S3 System to track morphological changes and PI uptake (shown by red). Cells with a necroptotic phenotype (cellular swelling) are indicate with yellow arrows. Three fields were examined per well with representative data shown. E Wild-type U937 cells were treated with doxycycline (20 nM) to induce expression of human wild-type RIPK3 in the presence of various cell death inhibitors, as indicated, for 24 h. At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent four or more independent experiments. F Wild-type, MLKL −/− and RIPK1 −/− U937 expressing inducible human wild-type RIPK3 were treated with doxycycline (20 nM) and IDN-6556 (5 µM), doxycycline alone, or left untreated. After 24 h, cell death was measured as PI uptake using flow cytometry. Data are a summary of six independent experiments.

    Techniques Used: Expressing, Flow Cytometry, Western Blot

    A Three different experimental protocols were used to assess the ability of AMG-47a to inhibit cell death caused by the expression and dimerisation of the MLKL (1-180) -gyrase fusion protein. In protocol 1, inhibitors (or DMSO) were added first, followed by doxycycline and coumermycin together, so that the fusion protein could dimerise on expression. In protocol 2, addition of coumermycin was delayed to allow levels of the fusion protein to accumulate before dimerisation was induced. In protocol 3, the addition of inhibitors (or DMSO) was also delayed, so that it was added after the fusion protein had been expressed for 16 h, but before the addition of coumermycin. In all experimental methods, cells were harvested 24 h after the experiment was initiated. B Wild-type U937 cells expressing the MLKL (1-180) -gyrase fusion protein were treated using either protocol 1, 2, or 3, as described above ( A ). At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent three independent experiments; bars indicate the mean and error bars indicate standard error of the mean. Statistics were calculated in GraphPad Prism8, and p values are shown where <0.05. C Wild-type U937 cells with inducible human RIPK3 were treated with increasing doses of AMG-47a in the presence of 40 nM doxycycline, to induce expression, and 5 µM IDN-6556, to block caspase-dependent cell death. After 48 h, cells were harvested and viability assessed using the Cell-Titer Glo 2 (Promega) system. Data represent two independent experiments (four replicates per experiment) and have been normalised against doxycycline plus IDN-6556 (0% viability) and doxycycline plus IDN-6556 plus NSA (100% viability).
    Figure Legend Snippet: A Three different experimental protocols were used to assess the ability of AMG-47a to inhibit cell death caused by the expression and dimerisation of the MLKL (1-180) -gyrase fusion protein. In protocol 1, inhibitors (or DMSO) were added first, followed by doxycycline and coumermycin together, so that the fusion protein could dimerise on expression. In protocol 2, addition of coumermycin was delayed to allow levels of the fusion protein to accumulate before dimerisation was induced. In protocol 3, the addition of inhibitors (or DMSO) was also delayed, so that it was added after the fusion protein had been expressed for 16 h, but before the addition of coumermycin. In all experimental methods, cells were harvested 24 h after the experiment was initiated. B Wild-type U937 cells expressing the MLKL (1-180) -gyrase fusion protein were treated using either protocol 1, 2, or 3, as described above ( A ). At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent three independent experiments; bars indicate the mean and error bars indicate standard error of the mean. Statistics were calculated in GraphPad Prism8, and p values are shown where <0.05. C Wild-type U937 cells with inducible human RIPK3 were treated with increasing doses of AMG-47a in the presence of 40 nM doxycycline, to induce expression, and 5 µM IDN-6556, to block caspase-dependent cell death. After 48 h, cells were harvested and viability assessed using the Cell-Titer Glo 2 (Promega) system. Data represent two independent experiments (four replicates per experiment) and have been normalised against doxycycline plus IDN-6556 (0% viability) and doxycycline plus IDN-6556 plus NSA (100% viability).

    Techniques Used: Expressing, Flow Cytometry, Blocking Assay

    A, B, C U937, HT29 and MDF cell lines were treated with DMSO, AMG-47a (1 µM for U937 and MDF; 2 µM for HT29), TSI, or a combination of AMG-47a and TSI over a time course as indicated in the individual figure panels. At the conclusion of the experiment, cells were harvested and lysed for western blot analysis. All cell lines were assessed for phosphorylation and total protein of the three key necroptosis effector proteins, RIPK1, RIPK3, and MLKL, and total β-actin was used as a loading control. Where multiple bands are present, the specific band of interest is indicated with a red arrow. Data are representative of at least three independent experiments. U937 ( D ) or MDF ( E ) cell lines were treated with AMG-47a at 10 µM, the RIPK1 inhibitors (GSK-481, Nec-1s) or a RIPK3 inhibitor (GSK-872) at 20 µM, or an equivalent amount of DMSO, for 1 h at 37 °C. Cell suspensions were then heated over an increasing temperature gradient (as indicated in the methods) for 3 min. Cells were then lysed, and the amount of remaining soluble protein at each temperature point was analysed using Western blot. Results are representative of two (RIPK1 and RIPK3 in U937) or three (all other analyses) independent experiments. AMG-47a binding to RIPK1 ( F ) and RIPK3 ( G ) was measured in competitive binding assays using the KINOMEscan ® Assay Platform (DiscoverX). Graphs were plotted using the raw data supplied from DiscoverX, and a curve was fitted using non-linear regression (GraphPad Prism) to determine the K d and associated error (95% confidence interval). Data represent one (RIPK3) or two (RIPK1) independent experiments, with two runs performed in all experiments and each colour on the graph representing a separate run. All data points were used for the non-linear regression. K d determinations for individual replicates can be found in supplementary data (Supplementary Fig. ). H , I AMG-47a was serially diluted from a maximum concentration of 50 µM (RIPK1) or 100 µM (RIPK3), and its ability to inhibit human RIPK1 or RIPK3 kinase activity was assessed using the ADP-Glo Kinase Assay (Promega). The reaction was allowed to proceed for 4 h before readouts were performed, and data were normalised to DMSO (0% inhibition) and either 1 µM GSK-481 (100% inhibition of RIPK1) or 1 µM GSK-872 (100% inhibition of RIPK3). Data are a summary of two independent experiments performed in duplicate, and the IC 50 and associated error (95% confidence interval) were determined using non-linear regression, as above. Each colour on the graph represents one independent experiment.
    Figure Legend Snippet: A, B, C U937, HT29 and MDF cell lines were treated with DMSO, AMG-47a (1 µM for U937 and MDF; 2 µM for HT29), TSI, or a combination of AMG-47a and TSI over a time course as indicated in the individual figure panels. At the conclusion of the experiment, cells were harvested and lysed for western blot analysis. All cell lines were assessed for phosphorylation and total protein of the three key necroptosis effector proteins, RIPK1, RIPK3, and MLKL, and total β-actin was used as a loading control. Where multiple bands are present, the specific band of interest is indicated with a red arrow. Data are representative of at least three independent experiments. U937 ( D ) or MDF ( E ) cell lines were treated with AMG-47a at 10 µM, the RIPK1 inhibitors (GSK-481, Nec-1s) or a RIPK3 inhibitor (GSK-872) at 20 µM, or an equivalent amount of DMSO, for 1 h at 37 °C. Cell suspensions were then heated over an increasing temperature gradient (as indicated in the methods) for 3 min. Cells were then lysed, and the amount of remaining soluble protein at each temperature point was analysed using Western blot. Results are representative of two (RIPK1 and RIPK3 in U937) or three (all other analyses) independent experiments. AMG-47a binding to RIPK1 ( F ) and RIPK3 ( G ) was measured in competitive binding assays using the KINOMEscan ® Assay Platform (DiscoverX). Graphs were plotted using the raw data supplied from DiscoverX, and a curve was fitted using non-linear regression (GraphPad Prism) to determine the K d and associated error (95% confidence interval). Data represent one (RIPK3) or two (RIPK1) independent experiments, with two runs performed in all experiments and each colour on the graph representing a separate run. All data points were used for the non-linear regression. K d determinations for individual replicates can be found in supplementary data (Supplementary Fig. ). H , I AMG-47a was serially diluted from a maximum concentration of 50 µM (RIPK1) or 100 µM (RIPK3), and its ability to inhibit human RIPK1 or RIPK3 kinase activity was assessed using the ADP-Glo Kinase Assay (Promega). The reaction was allowed to proceed for 4 h before readouts were performed, and data were normalised to DMSO (0% inhibition) and either 1 µM GSK-481 (100% inhibition of RIPK1) or 1 µM GSK-872 (100% inhibition of RIPK3). Data are a summary of two independent experiments performed in duplicate, and the IC 50 and associated error (95% confidence interval) were determined using non-linear regression, as above. Each colour on the graph represents one independent experiment.

    Techniques Used: Western Blot, Binding Assay, Concentration Assay, Activity Assay, Kinase Assay, Inhibition

    A The cell death induced by forced dimerisation of the human MLKL NTD involves two distinct processes. In the first, MLKL can self-associate into discrete oligomers on addition of doxycycline. In the second, addition of coumermycin promotes the assembly of large multimeric complexes. AMG-47a is unable to inhibit the second process, thus we propose it prevents membrane attachment, translocation, or oligomerisation of the human MLKL NTD through its activity as a kinase inhibitor. As AMG-47a binds RIPK1, and as RIPK1 is required for this form of cell death, we propose the primary target of AMG-47a is RIPK1 in this context. B When a cell receives a necroptotic stimulus, a number of key events occur, beginning with assembly of a necrosome containing RIPK1, RIPK3, and MLKL. This triggers a number of events, beginning with the phosphorylation of MLKL by RIPK3, which enables a conformational change in MLKL that allows oligomerisation, translocation to cellular membranes, and ultimately cell death. Our data suggest an additional role for RIPK1 in human necroptosis by supporting the conformational change, oligomerisation, or membrane translocation of MLKL following phosphorylation by RIPK3.
    Figure Legend Snippet: A The cell death induced by forced dimerisation of the human MLKL NTD involves two distinct processes. In the first, MLKL can self-associate into discrete oligomers on addition of doxycycline. In the second, addition of coumermycin promotes the assembly of large multimeric complexes. AMG-47a is unable to inhibit the second process, thus we propose it prevents membrane attachment, translocation, or oligomerisation of the human MLKL NTD through its activity as a kinase inhibitor. As AMG-47a binds RIPK1, and as RIPK1 is required for this form of cell death, we propose the primary target of AMG-47a is RIPK1 in this context. B When a cell receives a necroptotic stimulus, a number of key events occur, beginning with assembly of a necrosome containing RIPK1, RIPK3, and MLKL. This triggers a number of events, beginning with the phosphorylation of MLKL by RIPK3, which enables a conformational change in MLKL that allows oligomerisation, translocation to cellular membranes, and ultimately cell death. Our data suggest an additional role for RIPK1 in human necroptosis by supporting the conformational change, oligomerisation, or membrane translocation of MLKL following phosphorylation by RIPK3.

    Techniques Used: Translocation Assay, Activity Assay

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    ProSci Incorporated anti ripk3
    A Western blot of primary wild-type (WT) MDFs which were treated with TNF-α (40 ng/ml) +Cycloheximide (CHX) (40 μg/ml) (TC) for the indicated time. B Western blot of primary WT MDFs which were treated with TNF-α (20 ng/ml) +Smac mimetic (Smac) (1 μM) +zVAD (20 μM) (TSZ). C Western blot of RIPK1, <t>RIPK3,</t> MLKL, FADD, caspase-8, and GAPDH in the indicated organs of WT (1) and Casp8 ΔE385/ΔE385 (2) mice. D Lymph nodes and spleens removed from 16-week old mice of indicated genotypes (scale bar, 1 cm). E Dot plot of weight of lymph nodes (parts showed in Fig. 1D) and spleens of 12- to 16-week old WT, Casp8 ΔE385/ΔE385 mice. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) **** p < 0.0001, compared to the WT mice. F Different cell subsets from spleen, lymph nodes (parts showed in Fig. 1D) and bone marrow of 12- to 16-week old WT and Casp8 ΔE385/ΔE385 mice were analyzed by flow cytometry using the following markers: B cells (B220 + or CD19 + ), T cells (CD3 + ), CD4 + T cells (CD3 + CD4 + CD8 − ), CD8 + T cells (CD3 + CD8 + CD4 − ), Granulocytes and Macrophages (CD11b + ), mature B cells in spleen (B220 + IgM + or B220 + CD19 + ), immature and mature B cells in bone marrow (B220 + IgM + or B220 hi CD19 hi ), progenitor B cells (pro-B) and precursor B cells (pre-B) in bone marrow (B220 + IgM − or B220 low CD19 low ). Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) * p < 0.05, ** p < 0.05, **** p < 0.0001.
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    1) Product Images from "Caspase-8 auto-cleavage regulates programmed cell death and collaborates with RIPK3/MLKL to prevent lymphopenia"

    Article Title: Caspase-8 auto-cleavage regulates programmed cell death and collaborates with RIPK3/MLKL to prevent lymphopenia

    Journal: Cell Death and Differentiation

    doi: 10.1038/s41418-022-00938-9

    A Western blot of primary wild-type (WT) MDFs which were treated with TNF-α (40 ng/ml) +Cycloheximide (CHX) (40 μg/ml) (TC) for the indicated time. B Western blot of primary WT MDFs which were treated with TNF-α (20 ng/ml) +Smac mimetic (Smac) (1 μM) +zVAD (20 μM) (TSZ). C Western blot of RIPK1, RIPK3, MLKL, FADD, caspase-8, and GAPDH in the indicated organs of WT (1) and Casp8 ΔE385/ΔE385 (2) mice. D Lymph nodes and spleens removed from 16-week old mice of indicated genotypes (scale bar, 1 cm). E Dot plot of weight of lymph nodes (parts showed in Fig. 1D) and spleens of 12- to 16-week old WT, Casp8 ΔE385/ΔE385 mice. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) **** p < 0.0001, compared to the WT mice. F Different cell subsets from spleen, lymph nodes (parts showed in Fig. 1D) and bone marrow of 12- to 16-week old WT and Casp8 ΔE385/ΔE385 mice were analyzed by flow cytometry using the following markers: B cells (B220 + or CD19 + ), T cells (CD3 + ), CD4 + T cells (CD3 + CD4 + CD8 − ), CD8 + T cells (CD3 + CD8 + CD4 − ), Granulocytes and Macrophages (CD11b + ), mature B cells in spleen (B220 + IgM + or B220 + CD19 + ), immature and mature B cells in bone marrow (B220 + IgM + or B220 hi CD19 hi ), progenitor B cells (pro-B) and precursor B cells (pre-B) in bone marrow (B220 + IgM − or B220 low CD19 low ). Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) * p < 0.05, ** p < 0.05, **** p < 0.0001.
    Figure Legend Snippet: A Western blot of primary wild-type (WT) MDFs which were treated with TNF-α (40 ng/ml) +Cycloheximide (CHX) (40 μg/ml) (TC) for the indicated time. B Western blot of primary WT MDFs which were treated with TNF-α (20 ng/ml) +Smac mimetic (Smac) (1 μM) +zVAD (20 μM) (TSZ). C Western blot of RIPK1, RIPK3, MLKL, FADD, caspase-8, and GAPDH in the indicated organs of WT (1) and Casp8 ΔE385/ΔE385 (2) mice. D Lymph nodes and spleens removed from 16-week old mice of indicated genotypes (scale bar, 1 cm). E Dot plot of weight of lymph nodes (parts showed in Fig. 1D) and spleens of 12- to 16-week old WT, Casp8 ΔE385/ΔE385 mice. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) **** p < 0.0001, compared to the WT mice. F Different cell subsets from spleen, lymph nodes (parts showed in Fig. 1D) and bone marrow of 12- to 16-week old WT and Casp8 ΔE385/ΔE385 mice were analyzed by flow cytometry using the following markers: B cells (B220 + or CD19 + ), T cells (CD3 + ), CD4 + T cells (CD3 + CD4 + CD8 − ), CD8 + T cells (CD3 + CD8 + CD4 − ), Granulocytes and Macrophages (CD11b + ), mature B cells in spleen (B220 + IgM + or B220 + CD19 + ), immature and mature B cells in bone marrow (B220 + IgM + or B220 hi CD19 hi ), progenitor B cells (pro-B) and precursor B cells (pre-B) in bone marrow (B220 + IgM − or B220 low CD19 low ). Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) * p < 0.05, ** p < 0.05, **** p < 0.0001.

    Techniques Used: Western Blot, Two Tailed Test, Flow Cytometry

    A Primary WT and Casp8 ΔE385/ΔE385 MDFs were treated with TNF-α (20 ng/ml)+Smac (1 μM)+zVAD (20 μM) (TSZ) and TNF-α + Smac + zVAD + Nec-1 (30 μM) (TSZN) for 6.45 h, TNF-α + CHX (20 μg/ml)+zVAD (20 μM) (TCZ) and TNF-α + CHX + zVAD + Nec-1 (30 μM) (TCZN) for 4.45 h. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) **** p < 0.0001. B Primary WT and Casp8 ΔE385/ΔE385 bone marrow derived macrophages (BMDMs) were treated with LPS (100 ng/ml), LPS + zVAD (20 μM) (LZ), LPS + zVAD + Nec-1 (30 μM) (LZN), poly(I:C) (100 μg/ml), poly(I:C) + zVAD (20 μM) (PZ), poly(I:C) + zVAD + Nec-1 (30 μM) (PZN), TNF-α + Smac + zVAD (TSZ), TNF-α + Smac + zVAD + Nec-1 (TSZN) for 3 h. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) *** p < 0.001, **** p < 0.0001. C Immunoblotting of the indicated protein expression in primary WT and Casp8 ΔE385/ΔE385 MDFs which were treated with TNF-α (20 ng/ml) +Smac (1 μM) +zVAD (20 μM) (TSZ) for the indicated time. D Immunoblotting of primary WT and Casp8 ΔE385/ΔE385 MDFs which were treated with TNF-α (20 ng/ml) +Smac (1 μM) +zVAD (20 μM) (TSZ) for the indicated time. E WT and Casp8 ΔE385/ΔE385 MDFs were treated with TNF-α (40 ng/ml)+CHX (40 μg/ml)+zVAD (50 μM) for the indicated time, complex II was immunoprecipitated using anti-RIPK1, the recruitment of RIPK3, FADD and caspase-8 were detected by western blotting. F Primary WT and Casp8 ΔE385/ΔE385 BMDMs were treated with LPS (200 ng/ml)+zVAD (40 μM) followed by western blot and immunoprecipitation. G Primary WT and Casp8 ΔE385/ΔE385 MDFs were treated with TNF-α (40 ng/ml)+CHX (40 μg/ml) followed by western blot and immunoprecipitation.
    Figure Legend Snippet: A Primary WT and Casp8 ΔE385/ΔE385 MDFs were treated with TNF-α (20 ng/ml)+Smac (1 μM)+zVAD (20 μM) (TSZ) and TNF-α + Smac + zVAD + Nec-1 (30 μM) (TSZN) for 6.45 h, TNF-α + CHX (20 μg/ml)+zVAD (20 μM) (TCZ) and TNF-α + CHX + zVAD + Nec-1 (30 μM) (TCZN) for 4.45 h. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) **** p < 0.0001. B Primary WT and Casp8 ΔE385/ΔE385 bone marrow derived macrophages (BMDMs) were treated with LPS (100 ng/ml), LPS + zVAD (20 μM) (LZ), LPS + zVAD + Nec-1 (30 μM) (LZN), poly(I:C) (100 μg/ml), poly(I:C) + zVAD (20 μM) (PZ), poly(I:C) + zVAD + Nec-1 (30 μM) (PZN), TNF-α + Smac + zVAD (TSZ), TNF-α + Smac + zVAD + Nec-1 (TSZN) for 3 h. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) *** p < 0.001, **** p < 0.0001. C Immunoblotting of the indicated protein expression in primary WT and Casp8 ΔE385/ΔE385 MDFs which were treated with TNF-α (20 ng/ml) +Smac (1 μM) +zVAD (20 μM) (TSZ) for the indicated time. D Immunoblotting of primary WT and Casp8 ΔE385/ΔE385 MDFs which were treated with TNF-α (20 ng/ml) +Smac (1 μM) +zVAD (20 μM) (TSZ) for the indicated time. E WT and Casp8 ΔE385/ΔE385 MDFs were treated with TNF-α (40 ng/ml)+CHX (40 μg/ml)+zVAD (50 μM) for the indicated time, complex II was immunoprecipitated using anti-RIPK1, the recruitment of RIPK3, FADD and caspase-8 were detected by western blotting. F Primary WT and Casp8 ΔE385/ΔE385 BMDMs were treated with LPS (200 ng/ml)+zVAD (40 μM) followed by western blot and immunoprecipitation. G Primary WT and Casp8 ΔE385/ΔE385 MDFs were treated with TNF-α (40 ng/ml)+CHX (40 μg/ml) followed by western blot and immunoprecipitation.

    Techniques Used: Two Tailed Test, Derivative Assay, Western Blot, Expressing, Immunoprecipitation

    A Mouse survival curve of 8- to 16-week old mice after injection by TNF-α (7 μg each mouse, i.v.). M, male, F, female. P values alongside the asterisk, by two-sided Log-rank (Mantel-Cox) test. **** p < 0.0001. B Body temperature of 8- to 16-week old mice after injection by TNF-α (7 μg each mouse, i.v.). M, male, F, female. Bars, mean ± SD. The significance of body temperature between WT and Casp8 ΔE385/ΔE385 mice in the indicated time was described by P values below the asterisk (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, **** p < 0.0001. C Representative peritoneal macrophages flow cytometric dot plots along CD11b versus F4/80 parameters. Untreated (UT), LPS + zVAD (LZ). D Dot plots of CD11b + F4/80 + peritoneal macrophages of 8- to 12-week old WT, Casp8 ΔE385/ΔE385 and Ripk1 +/− Ripk3 −/− Casp8 ΔE385/ΔE385 mice. Bars, mean + SD. P values (unpaired, two-tailed t test) **** p < 0.0001.
    Figure Legend Snippet: A Mouse survival curve of 8- to 16-week old mice after injection by TNF-α (7 μg each mouse, i.v.). M, male, F, female. P values alongside the asterisk, by two-sided Log-rank (Mantel-Cox) test. **** p < 0.0001. B Body temperature of 8- to 16-week old mice after injection by TNF-α (7 μg each mouse, i.v.). M, male, F, female. Bars, mean ± SD. The significance of body temperature between WT and Casp8 ΔE385/ΔE385 mice in the indicated time was described by P values below the asterisk (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, **** p < 0.0001. C Representative peritoneal macrophages flow cytometric dot plots along CD11b versus F4/80 parameters. Untreated (UT), LPS + zVAD (LZ). D Dot plots of CD11b + F4/80 + peritoneal macrophages of 8- to 12-week old WT, Casp8 ΔE385/ΔE385 and Ripk1 +/− Ripk3 −/− Casp8 ΔE385/ΔE385 mice. Bars, mean + SD. P values (unpaired, two-tailed t test) **** p < 0.0001.

    Techniques Used: Injection, Two Tailed Test

    A Spleen images (12 week) (left) and total spleen weight (14–17 week) (right) showed normal sized spleen in the Ripk1 +/− Ripk3 −/− Casp8 ΔE385/ΔE385 mice. Scale bar, 1 cm. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) **** p < 0.0001; ns, no significance. B The absolute cell number of indicated immunocytes in spleen and bone marrow (per tibia and femur) of 14- to 17-week old age matched mice. Bars, mean ± SD. P values (unpaired, two-tailed t test) ** p < 0.01, *** p < 0.001, **** p < 0.0001; ns, no significance. C The cell number of white blood cells and their subsets in the peripheral blood of 14- to 17-week old mice. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, *** p < 0.001, **** p < 0.0001; ns, no significance. D The absolute cell number and percentage of white blood cells and their subsets in the peripheral blood of 6-month old recipients. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001. E The absolute cell number of the immunocytes and their subsets in the spleen of 6-month old recipients. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001. F The absolute cellularity of the immunocytes and their subsets in the bone marrow per tibia and femur of 6-month old recipients. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, *** p < 0.001.
    Figure Legend Snippet: A Spleen images (12 week) (left) and total spleen weight (14–17 week) (right) showed normal sized spleen in the Ripk1 +/− Ripk3 −/− Casp8 ΔE385/ΔE385 mice. Scale bar, 1 cm. Bars, mean ± SD. P values above the asterisk (unpaired, two-tailed t test) **** p < 0.0001; ns, no significance. B The absolute cell number of indicated immunocytes in spleen and bone marrow (per tibia and femur) of 14- to 17-week old age matched mice. Bars, mean ± SD. P values (unpaired, two-tailed t test) ** p < 0.01, *** p < 0.001, **** p < 0.0001; ns, no significance. C The cell number of white blood cells and their subsets in the peripheral blood of 14- to 17-week old mice. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, *** p < 0.001, **** p < 0.0001; ns, no significance. D The absolute cell number and percentage of white blood cells and their subsets in the peripheral blood of 6-month old recipients. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001. E The absolute cell number of the immunocytes and their subsets in the spleen of 6-month old recipients. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, *** p < 0.001, **** p < 0.0001. F The absolute cellularity of the immunocytes and their subsets in the bone marrow per tibia and femur of 6-month old recipients. Bars, mean ± SD. P values (unpaired, two-tailed t test) * p < 0.05, ** p < 0.01, *** p < 0.001.

    Techniques Used: Two Tailed Test

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    ProSci Incorporated rip3
    <t>Rip3</t> K51A/K51A mice display worse survival and increased ileal PEox levels after ionizing whole body irradiation. Rip3 K51A/K51A kinase inactivated mice died at a significantly higher rate ( A ) compared to Rip3 +/+ control animals following γ-IR. Log-rank (Mantel-Cox) test, p < 0.05, n = 11–12 animals/group. Ileal mucosal injury was greater in ( B ) Rip3 K51A/K51A vs. ( C ) Rip3 +/+ on post-γ-IR (day 3), demonstrated by ( D ) an increased proportion of TUNEL + nuclei. TUNEL ( red ), hoechst ( blue ). Mean ± SEM, *p < 0.05, n = 6–8 animals/per group, scale : 100 μm. ( E ) Caspase-3/7 activity in ileum was similar in Rip3 K51A/K51A vs. Rip3 +/+ on day 3 post-γ-IR. Relative luminescence normalized to total protein concentration, Mean ± SEM. ( F ) Representative full mass spectrum demonstrating the ion identities and relative abundances of phosphatidylethanolamine (PE) and plasmalogen-PE (PEp) species obtained from naïve Rip3 K51A/K51A ileum. Peaks are labeled as PE(X:Y) and PEp(X:Y) where “X” indicates the number of acyl carbons (sn-1 & sn-2 positions), and “Y” represents the total number of unsaturated acyl chain bonds. Precursors of oxygenated PE species (ferroptotic cell death signals) are shown in red. ( G ) Extracted base-peak chromatograms of pro-ferroptotic hydroperoxy-eicosatetraenoyl-PE ( m/z 798.5293, 15-HpETE-PE) obtained from ileum of Rip3+/+ (upper panel) and Rip3 K51A/K51A at various times post-γ-IR. Extracted base-peak chromatogram of the internal standard ( m/z 747.7143) for each sample is shown by dashed lines. ( H – K ) Levels of pro-ferroptotic PEox were greater in Rip3 K51A/K51A vs. Rip3 +/+ ileum on day 1, 3, and day 5 after γ-IR. Volcano plots : log 2 (fold-change: Rip3 K51A/K51A versus Rip3 +/+ ) vs. -log 10 (statistical p -value); red = increased levels, blue = decreased levels. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
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    1) Product Images from "Inactivation of RIP3 kinase sensitizes to 15LOX/PEBP1-mediated ferroptotic death"

    Article Title: Inactivation of RIP3 kinase sensitizes to 15LOX/PEBP1-mediated ferroptotic death

    Journal: Redox Biology

    doi: 10.1016/j.redox.2022.102232

    Rip3 K51A/K51A mice display worse survival and increased ileal PEox levels after ionizing whole body irradiation. Rip3 K51A/K51A kinase inactivated mice died at a significantly higher rate ( A ) compared to Rip3 +/+ control animals following γ-IR. Log-rank (Mantel-Cox) test, p < 0.05, n = 11–12 animals/group. Ileal mucosal injury was greater in ( B ) Rip3 K51A/K51A vs. ( C ) Rip3 +/+ on post-γ-IR (day 3), demonstrated by ( D ) an increased proportion of TUNEL + nuclei. TUNEL ( red ), hoechst ( blue ). Mean ± SEM, *p < 0.05, n = 6–8 animals/per group, scale : 100 μm. ( E ) Caspase-3/7 activity in ileum was similar in Rip3 K51A/K51A vs. Rip3 +/+ on day 3 post-γ-IR. Relative luminescence normalized to total protein concentration, Mean ± SEM. ( F ) Representative full mass spectrum demonstrating the ion identities and relative abundances of phosphatidylethanolamine (PE) and plasmalogen-PE (PEp) species obtained from naïve Rip3 K51A/K51A ileum. Peaks are labeled as PE(X:Y) and PEp(X:Y) where “X” indicates the number of acyl carbons (sn-1 & sn-2 positions), and “Y” represents the total number of unsaturated acyl chain bonds. Precursors of oxygenated PE species (ferroptotic cell death signals) are shown in red. ( G ) Extracted base-peak chromatograms of pro-ferroptotic hydroperoxy-eicosatetraenoyl-PE ( m/z 798.5293, 15-HpETE-PE) obtained from ileum of Rip3+/+ (upper panel) and Rip3 K51A/K51A at various times post-γ-IR. Extracted base-peak chromatogram of the internal standard ( m/z 747.7143) for each sample is shown by dashed lines. ( H – K ) Levels of pro-ferroptotic PEox were greater in Rip3 K51A/K51A vs. Rip3 +/+ ileum on day 1, 3, and day 5 after γ-IR. Volcano plots : log 2 (fold-change: Rip3 K51A/K51A versus Rip3 +/+ ) vs. -log 10 (statistical p -value); red = increased levels, blue = decreased levels. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
    Figure Legend Snippet: Rip3 K51A/K51A mice display worse survival and increased ileal PEox levels after ionizing whole body irradiation. Rip3 K51A/K51A kinase inactivated mice died at a significantly higher rate ( A ) compared to Rip3 +/+ control animals following γ-IR. Log-rank (Mantel-Cox) test, p < 0.05, n = 11–12 animals/group. Ileal mucosal injury was greater in ( B ) Rip3 K51A/K51A vs. ( C ) Rip3 +/+ on post-γ-IR (day 3), demonstrated by ( D ) an increased proportion of TUNEL + nuclei. TUNEL ( red ), hoechst ( blue ). Mean ± SEM, *p < 0.05, n = 6–8 animals/per group, scale : 100 μm. ( E ) Caspase-3/7 activity in ileum was similar in Rip3 K51A/K51A vs. Rip3 +/+ on day 3 post-γ-IR. Relative luminescence normalized to total protein concentration, Mean ± SEM. ( F ) Representative full mass spectrum demonstrating the ion identities and relative abundances of phosphatidylethanolamine (PE) and plasmalogen-PE (PEp) species obtained from naïve Rip3 K51A/K51A ileum. Peaks are labeled as PE(X:Y) and PEp(X:Y) where “X” indicates the number of acyl carbons (sn-1 & sn-2 positions), and “Y” represents the total number of unsaturated acyl chain bonds. Precursors of oxygenated PE species (ferroptotic cell death signals) are shown in red. ( G ) Extracted base-peak chromatograms of pro-ferroptotic hydroperoxy-eicosatetraenoyl-PE ( m/z 798.5293, 15-HpETE-PE) obtained from ileum of Rip3+/+ (upper panel) and Rip3 K51A/K51A at various times post-γ-IR. Extracted base-peak chromatogram of the internal standard ( m/z 747.7143) for each sample is shown by dashed lines. ( H – K ) Levels of pro-ferroptotic PEox were greater in Rip3 K51A/K51A vs. Rip3 +/+ ileum on day 1, 3, and day 5 after γ-IR. Volcano plots : log 2 (fold-change: Rip3 K51A/K51A versus Rip3 +/+ ) vs. -log 10 (statistical p -value); red = increased levels, blue = decreased levels. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Techniques Used: Irradiation, TUNEL Assay, Activity Assay, Protein Concentration, Labeling

    Liproxstatin-1 rescues Rip3 K51A/K51A bone marrow cells, enteroids and mice from ionizing radiation and attenuates pro-ferroptotic PEox generation. ( A ) Liproxstatin-1 (Lip-1) was radioprotective and reduced γ-IR mortality of Rip3 K51A/K51A . Log-rank (Mantel-Cox) test, p < 0.05, n = 10–12 animals/group/experiment, data from 2 to 3 independent experiments/group. Lip-1 attenuated γ-IR induced increases in pro-ferroptotic cell death signals PE(38:4)-OOH ( B ), and PE(40:4)-OOH ( C ), n = 5 animals/group, Mean ± SEM, *p < 0.05 vs. 0 Gy, # p < 0.05 vs. γ-IR + vehicle. Shown are MS 2 spectra of PE(38:4)-OOH ( B, middle panel ), and PE(40:4)-OOH ( C, right panel ). Fragments formed during MS 2 fragmentation that are attributed -by the polar head of PE with m/z 140.066 and 196.066 along with others are shown and associated with the identification of hydroperoxy-PE species. MS 3 spectra of molecular ion with m/z 317.21 corresponding to hydroperoxy-arachidonic acid with loss of water is shown in figure B , right panel . ( D ) Rip3 K51A/K51A primary BM cells are more sensitive to γ-IR injury compared to Rip3 +/+ wild-type cells. Rip3 K51A/K51A BM cells benefited from anti-ferroptotic agents, Fer-1 or Lip-1. Nec-1s was only protective in wild type cells but not Rip3 K51A/K51A , confirming the functional necroptosis knockout. Cell death measured by Annexin V-FITC + Propidium iodide (PI) flow cytometry, Mean ± SD, *p < 0.05 vs. same genotype γ-IR + DMSO group, † p < 0.05 vs. respective DMSO-only (no γ-IR), # p < 0.05 vs. wild-type γ-IR + DMSO group, n = 4–6 independent experiments. ( E ) Primary differentiated enteroid monolayers derived from Rip3 K51A/K51A mice are significantly more sensitive to γ-IR-induced (5 Gy) death compared to Rip3 +/+ wild-type cells. Rip3 K51A/K51A enteroid mortality was reduced with anti-ferroptotic Lip-1. Cell death measured by LDH release at 22–24 h, Mean ± SEM, *p < 0.05 vs. 0 Gy group, # p < 0.05 vs. matched γ-IR + vehicle group, n = 3–5 independent experiments.
    Figure Legend Snippet: Liproxstatin-1 rescues Rip3 K51A/K51A bone marrow cells, enteroids and mice from ionizing radiation and attenuates pro-ferroptotic PEox generation. ( A ) Liproxstatin-1 (Lip-1) was radioprotective and reduced γ-IR mortality of Rip3 K51A/K51A . Log-rank (Mantel-Cox) test, p < 0.05, n = 10–12 animals/group/experiment, data from 2 to 3 independent experiments/group. Lip-1 attenuated γ-IR induced increases in pro-ferroptotic cell death signals PE(38:4)-OOH ( B ), and PE(40:4)-OOH ( C ), n = 5 animals/group, Mean ± SEM, *p < 0.05 vs. 0 Gy, # p < 0.05 vs. γ-IR + vehicle. Shown are MS 2 spectra of PE(38:4)-OOH ( B, middle panel ), and PE(40:4)-OOH ( C, right panel ). Fragments formed during MS 2 fragmentation that are attributed -by the polar head of PE with m/z 140.066 and 196.066 along with others are shown and associated with the identification of hydroperoxy-PE species. MS 3 spectra of molecular ion with m/z 317.21 corresponding to hydroperoxy-arachidonic acid with loss of water is shown in figure B , right panel . ( D ) Rip3 K51A/K51A primary BM cells are more sensitive to γ-IR injury compared to Rip3 +/+ wild-type cells. Rip3 K51A/K51A BM cells benefited from anti-ferroptotic agents, Fer-1 or Lip-1. Nec-1s was only protective in wild type cells but not Rip3 K51A/K51A , confirming the functional necroptosis knockout. Cell death measured by Annexin V-FITC + Propidium iodide (PI) flow cytometry, Mean ± SD, *p < 0.05 vs. same genotype γ-IR + DMSO group, † p < 0.05 vs. respective DMSO-only (no γ-IR), # p < 0.05 vs. wild-type γ-IR + DMSO group, n = 4–6 independent experiments. ( E ) Primary differentiated enteroid monolayers derived from Rip3 K51A/K51A mice are significantly more sensitive to γ-IR-induced (5 Gy) death compared to Rip3 +/+ wild-type cells. Rip3 K51A/K51A enteroid mortality was reduced with anti-ferroptotic Lip-1. Cell death measured by LDH release at 22–24 h, Mean ± SEM, *p < 0.05 vs. 0 Gy group, # p < 0.05 vs. matched γ-IR + vehicle group, n = 3–5 independent experiments.

    Techniques Used: Functional Assay, Knock-Out, Flow Cytometry, Derivative Assay

    Rip3 K51A/K51A mice exhibit more tissue injury, worse functional deficits and increased PEox following CCI. ( A ) More ipsilateral cortical tissue loss occurs in Rip3 K51A/K51A animals vs. Rip3 +/+ following CCI. Data are Mean ± SEM, n = 8–10/group, *p < 0.05. ( B ) Neurological function was assessed after CCI in Rip3 +/+ and Rip3 K51A/K51A mice. Line graph showing the MWM swim latency to reach the hidden (H) platform on days 1–7 and visible (V) platform on day 8 and 9 following CCI. Data are Mean ± SEM, n = 10/group, *p < 0.05. LC/MS-based quantitative assessment of ferroptotic cell death signals PE(38:4)-OOH ( C ), PE(38:5)-OOH ( D ) and PE(40:4)-OOH ( E ) in cerebral cortical tissue of naïve and CCI exposed Rip3 +/+ and Rip3 K51A/K51A mice. Contra and ipsi denote the opposite side and the same side of the injured cerebral hemisphere, respectively, in the CCI mice. Shown are the MS 2 spectra of PE(38:4)-OOH ( F ), and PE(38:5)-OOH ( G ). Fragments formed during MS 2 fragmentation that are attributed to polar head of PE with m/z 140.0 and 196.0 along with others are shown and associated with identification of hydroperoxy-PE species. Data are Mean ± SEM, n = 5/group, *p < 0.05, **p < 0.01, ***p < 0.001, ****p < 0.0001.
    Figure Legend Snippet: Rip3 K51A/K51A mice exhibit more tissue injury, worse functional deficits and increased PEox following CCI. ( A ) More ipsilateral cortical tissue loss occurs in Rip3 K51A/K51A animals vs. Rip3 +/+ following CCI. Data are Mean ± SEM, n = 8–10/group, *p < 0.05. ( B ) Neurological function was assessed after CCI in Rip3 +/+ and Rip3 K51A/K51A mice. Line graph showing the MWM swim latency to reach the hidden (H) platform on days 1–7 and visible (V) platform on day 8 and 9 following CCI. Data are Mean ± SEM, n = 10/group, *p < 0.05. LC/MS-based quantitative assessment of ferroptotic cell death signals PE(38:4)-OOH ( C ), PE(38:5)-OOH ( D ) and PE(40:4)-OOH ( E ) in cerebral cortical tissue of naïve and CCI exposed Rip3 +/+ and Rip3 K51A/K51A mice. Contra and ipsi denote the opposite side and the same side of the injured cerebral hemisphere, respectively, in the CCI mice. Shown are the MS 2 spectra of PE(38:4)-OOH ( F ), and PE(38:5)-OOH ( G ). Fragments formed during MS 2 fragmentation that are attributed to polar head of PE with m/z 140.0 and 196.0 along with others are shown and associated with identification of hydroperoxy-PE species. Data are Mean ± SEM, n = 5/group, *p < 0.05, **p < 0.01, ***p < 0.001, ****p < 0.0001.

    Techniques Used: Functional Assay, Liquid Chromatography with Mass Spectroscopy

    PEBP1 associates with RIP3. ( A ) Structures of RAF (pdbid: 3c4c ) and RIP3 (pdbid: 4m66 ) are highly conserved in sequence and tertiary structure. Catalytic regions shown enclosed in dashed region. ( B ) Lowest energy binding pose of PEBP1 ( cyan ) on RIP3 ( grey ) from docking simulations. Key interfacial interactions between PEBP1’s heterodimerization loop region (residues 127–150, including D144-H145) and RIP3’s α-helix C (αC), specifically R69 (spacefilling model) are highlighted. ( C–F ) Full Atomistic Molecular Dynamics simulations between PEBP1 with RAF, RIP3, RIP1, or RIP3 K51A . Grey dotted line indicates the threshold maximum distance positive protein-protein interaction (≤0.5 nm). Favorable interaction is predicted between ( C ) PEBP1 and RAF or ( D ) RIP3 WT , but not ( E ) RIP1 or ( F ) RIP3 K51A mutant. N = 3–4 independent simulations. ( G – H ) Colocalization between RIP3 and PEBP1 is reduced in Rip3 K51A/K51A vs. Rip3 +/+ primary bone marrow cells. ( G ) PEBP1_RIP3 colocalization normalized to cell number, Mean ± SD, *p < 0.05. ( H ): “Merge” [ left panels ]: PEBP1 ( red ), RIP3 ( green ), and hoechst ( blue ). “Colocalized objects” [ right panels ]: PEBP1_RIP3 colocalized objects ( yellow ), n = 3 independent experiments, scale: 20 μm. ( I-J ) FRET analysis showing close physical proximity (≤10 nm) of RIP3 with PEBP1 in HT22 cells. ( I ) FRET effect was confirmed through acceptor (cy5) photobleaching ( white arrows ) and reciprocal Cy3 donor fluorophore unquenching. FRET ratio (donor/acceptor relative fluorescent intensity (RFU)) is pseudo-colored (range 0–10, violet-red); ( J ) Representative RFU vs. single excitation (Ex) wavelength. Cy3 vs. Cy5 emission (Em) wavelengths are indicated. N = 3 independent experiments. ( K ) Far western blotting demonstrating specific interaction of recombinant human PEBP1 with RIP3. Representative non-denaturing immunoblots showing PEBP1 (0.5 μg protein per incubation) binds to membrane-immobilized RIP3 ( left ) but not GST or BSA control proteins. No PEBP1 signal is detected if the blot is not incubated with recombinant PEBP1 ( middle ). Protein loading was verified by Ponceau S prior to incubation with PEBP1 ( right ). N = 3 independent experiments. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
    Figure Legend Snippet: PEBP1 associates with RIP3. ( A ) Structures of RAF (pdbid: 3c4c ) and RIP3 (pdbid: 4m66 ) are highly conserved in sequence and tertiary structure. Catalytic regions shown enclosed in dashed region. ( B ) Lowest energy binding pose of PEBP1 ( cyan ) on RIP3 ( grey ) from docking simulations. Key interfacial interactions between PEBP1’s heterodimerization loop region (residues 127–150, including D144-H145) and RIP3’s α-helix C (αC), specifically R69 (spacefilling model) are highlighted. ( C–F ) Full Atomistic Molecular Dynamics simulations between PEBP1 with RAF, RIP3, RIP1, or RIP3 K51A . Grey dotted line indicates the threshold maximum distance positive protein-protein interaction (≤0.5 nm). Favorable interaction is predicted between ( C ) PEBP1 and RAF or ( D ) RIP3 WT , but not ( E ) RIP1 or ( F ) RIP3 K51A mutant. N = 3–4 independent simulations. ( G – H ) Colocalization between RIP3 and PEBP1 is reduced in Rip3 K51A/K51A vs. Rip3 +/+ primary bone marrow cells. ( G ) PEBP1_RIP3 colocalization normalized to cell number, Mean ± SD, *p < 0.05. ( H ): “Merge” [ left panels ]: PEBP1 ( red ), RIP3 ( green ), and hoechst ( blue ). “Colocalized objects” [ right panels ]: PEBP1_RIP3 colocalized objects ( yellow ), n = 3 independent experiments, scale: 20 μm. ( I-J ) FRET analysis showing close physical proximity (≤10 nm) of RIP3 with PEBP1 in HT22 cells. ( I ) FRET effect was confirmed through acceptor (cy5) photobleaching ( white arrows ) and reciprocal Cy3 donor fluorophore unquenching. FRET ratio (donor/acceptor relative fluorescent intensity (RFU)) is pseudo-colored (range 0–10, violet-red); ( J ) Representative RFU vs. single excitation (Ex) wavelength. Cy3 vs. Cy5 emission (Em) wavelengths are indicated. N = 3 independent experiments. ( K ) Far western blotting demonstrating specific interaction of recombinant human PEBP1 with RIP3. Representative non-denaturing immunoblots showing PEBP1 (0.5 μg protein per incubation) binds to membrane-immobilized RIP3 ( left ) but not GST or BSA control proteins. No PEBP1 signal is detected if the blot is not incubated with recombinant PEBP1 ( middle ). Protein loading was verified by Ponceau S prior to incubation with PEBP1 ( right ). N = 3 independent experiments. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Techniques Used: Sequencing, Binding Assay, Mutagenesis, Far Western Blot, Recombinant, Western Blot, Incubation

    PEBP1 regulates necroptotic death. ( A ) Human recombinant RIP3 kinase activity is specifically and potently inhibited by equimolar PEBP1 or the small molecule inhibitor, GSK’872. Human recombinant RIP1 kinase and another canonical serine/threonine kinase, MAPK14 (p38α), are not inhibited by equimolar PEBP1. PEBP1 alone has no effect on ATP concentration. Mean ± SD, *p < 0.05 vs. uninhibited enzyme, n = 3 independent experiments. ( B ) Representative immunoblots showing reduced PEBP1 expression is associated with greater pRIP3 (pS231/pT232) and pMLKL (pS345) levels 12 h following TNFα, z-VAD-fmk, and SM-164 (T/Z/S) necroptosis induction. L929 cells were transfected with PEBP1 or non-targeted (NT) siRNA for 48 h prior to T/Z/S treatment. Representative of 3 independent experiments. ( C ) PEBP1 siRNA knockdown L929 cells experienced a greater increase in necroptosis at higher TNFα (1, 5, 10 ng/mL) doses compared to NT siRNA cells. Cell death was specifically rescued by Nec-1s (see ). Z/S: z-VAD-fmk + SM164; cell death measured by LDH release at 16–20 h, Mean ± SD, *p < 0.05 vs. NT siRNA, n = 3 independent experiments. ( D ) PEBP1 knockdown CRISPR sensitizes L929 cells to necroptotic death. T/Z: TNFα (10 ng/mL) + z-VAD-fmk. Cell death measured by LDH release at 18 h, Mean ± SD, *p < 0.05 vs. non-targeted (NT) CRISPR, n = 3 independent experiments.
    Figure Legend Snippet: PEBP1 regulates necroptotic death. ( A ) Human recombinant RIP3 kinase activity is specifically and potently inhibited by equimolar PEBP1 or the small molecule inhibitor, GSK’872. Human recombinant RIP1 kinase and another canonical serine/threonine kinase, MAPK14 (p38α), are not inhibited by equimolar PEBP1. PEBP1 alone has no effect on ATP concentration. Mean ± SD, *p < 0.05 vs. uninhibited enzyme, n = 3 independent experiments. ( B ) Representative immunoblots showing reduced PEBP1 expression is associated with greater pRIP3 (pS231/pT232) and pMLKL (pS345) levels 12 h following TNFα, z-VAD-fmk, and SM-164 (T/Z/S) necroptosis induction. L929 cells were transfected with PEBP1 or non-targeted (NT) siRNA for 48 h prior to T/Z/S treatment. Representative of 3 independent experiments. ( C ) PEBP1 siRNA knockdown L929 cells experienced a greater increase in necroptosis at higher TNFα (1, 5, 10 ng/mL) doses compared to NT siRNA cells. Cell death was specifically rescued by Nec-1s (see ). Z/S: z-VAD-fmk + SM164; cell death measured by LDH release at 16–20 h, Mean ± SD, *p < 0.05 vs. NT siRNA, n = 3 independent experiments. ( D ) PEBP1 knockdown CRISPR sensitizes L929 cells to necroptotic death. T/Z: TNFα (10 ng/mL) + z-VAD-fmk. Cell death measured by LDH release at 18 h, Mean ± SD, *p < 0.05 vs. non-targeted (NT) CRISPR, n = 3 independent experiments.

    Techniques Used: Recombinant, Activity Assay, Concentration Assay, Western Blot, Expressing, Transfection, CRISPR

    RIP3 K51A mutant and inhibitor GSK’872 promote IR and RSL3 induced ferroptosis. ( A ) Rip3 K51A/K51A ( red bars ) primary BM cells were dose-dependently sensitive to the GPX4 inhibitor and ferroptosis-inducer, RSL3 (dose range: 0–500 nM). Mean ± SD, *p < 0.05 vs. respective genotype DMSO control (0 nM RSL3) group, n = 4 independent experiments. ( B ) Ferrostatin-1 (Fer-1, 1 μM), but not z-VAD-fmk, Nec-1s, or BafA1 reverse Rip3 K51A/K51A BM cell death upon exposure to RSL3. Cell death measured by Annexin V-FITC + Propidium iodide (PI) flow cytometry, Mean ± SD, *p < 0.05 vs. respective genotype RSL3 group, n = 4 independent experiments. ( C ) GSK’872 synergistically enhances RSL3-induced ferroptosis in HT22 cells. Toxicity was only observed with the GSK’872 + RSL3 cotreatment, not individually. Synergistic injury was rescued completely by Fer-1. Cell death measured by LDH release, Mean ± SD, *p < 0.05 vs. vehicle, n = 3 independent experiments. ( D ) RIP3 inhibitor, GSK’872, synergistically enhances RSL3-induced ferroptotic cell death in wild type primary mouse small intestinal enteroid monolayers. Compared to RSL3 or GSK’872 monotreatment, cotreatment significantly increased enteroid death. The synergistic injury was rescued by anti-ferroptotic Lip-1. Cell death measured by LDH release at 22–24 h, Mean ± SD, *p < 0.05 vs. RSL3 only group, n = 3 independent experiments. ( E ) GSK’872 sensitized immortalized wild-type rat intestinal epithelial cells (IEC18) to ferroptosis. Lip-1 reversed the GSK’872 + RSL3 cotreatment effect. Cell death measured by LDH release at 18–20 h, Mean ± SD, *p < 0.05 vs. RSL3 only group, n = 3 independent experiments. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)
    Figure Legend Snippet: RIP3 K51A mutant and inhibitor GSK’872 promote IR and RSL3 induced ferroptosis. ( A ) Rip3 K51A/K51A ( red bars ) primary BM cells were dose-dependently sensitive to the GPX4 inhibitor and ferroptosis-inducer, RSL3 (dose range: 0–500 nM). Mean ± SD, *p < 0.05 vs. respective genotype DMSO control (0 nM RSL3) group, n = 4 independent experiments. ( B ) Ferrostatin-1 (Fer-1, 1 μM), but not z-VAD-fmk, Nec-1s, or BafA1 reverse Rip3 K51A/K51A BM cell death upon exposure to RSL3. Cell death measured by Annexin V-FITC + Propidium iodide (PI) flow cytometry, Mean ± SD, *p < 0.05 vs. respective genotype RSL3 group, n = 4 independent experiments. ( C ) GSK’872 synergistically enhances RSL3-induced ferroptosis in HT22 cells. Toxicity was only observed with the GSK’872 + RSL3 cotreatment, not individually. Synergistic injury was rescued completely by Fer-1. Cell death measured by LDH release, Mean ± SD, *p < 0.05 vs. vehicle, n = 3 independent experiments. ( D ) RIP3 inhibitor, GSK’872, synergistically enhances RSL3-induced ferroptotic cell death in wild type primary mouse small intestinal enteroid monolayers. Compared to RSL3 or GSK’872 monotreatment, cotreatment significantly increased enteroid death. The synergistic injury was rescued by anti-ferroptotic Lip-1. Cell death measured by LDH release at 22–24 h, Mean ± SD, *p < 0.05 vs. RSL3 only group, n = 3 independent experiments. ( E ) GSK’872 sensitized immortalized wild-type rat intestinal epithelial cells (IEC18) to ferroptosis. Lip-1 reversed the GSK’872 + RSL3 cotreatment effect. Cell death measured by LDH release at 18–20 h, Mean ± SD, *p < 0.05 vs. RSL3 only group, n = 3 independent experiments. (For interpretation of the references to color in this figure legend, the reader is referred to the Web version of this article.)

    Techniques Used: Mutagenesis, Flow Cytometry

    rip3  (ProSci Incorporated)


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    Rip3, supplied by ProSci Incorporated, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or <t>RIP3</t> protein expression in L929 cells.
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    The regulation of <t>RIP3</t> in TNF- α -induced toxicity of hippocampal neurons in vivo . (a) Nissl staining of hippocampal neurons 72 h after treatment. Wild-type (WT) and RIP3 knockout (KO) mice received intracerebroventricular injection of PBS or the indicated dose of TNF- α . The neurons of brain sections from WT and KO mice were analyzed by Nissl staining ( n = 7) and morphology of hippocampal CA3 region was shown. Arrows indicate the loss of hippocampal neurons. (b) and (c) Expressions of RIP1, RIP3, and caspase-3 in the hippocampus after TNF - α treatment. Proteins extracted from hippocampus in the wild-type mice treated with PBS or TNF- α were analyzed by western blot using indicated antibodies. PC: MEF cells were treated with staurosporine at 150 nM for 15 hours. The results shown here are representative of five mice.
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    ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated <t>RIPK3</t> (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from mock- or IFN-β–treated wild type (WT) mice with or without mouse hepatitis virus (MHV) infection 3 days post-infection. ( D – I ) Immunoblot analysis of ( D , G ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E , H ) pro- (P55) and cleaved CASP8 (P18), pro- (P35) and cleaved CASP3 (P19 and P17) and pro- (P35) and cleaved CASP7 (P20); ( F) pMLKL, tMLKL, pRIPK3 and tRIPK3; and ( I ) pRIPK3 and tRIPK3 in mock- or IFN-β–treated bone marrow-derived macrophages (BMDMs) or THP-1 cells during MHV or SARS-CoV-2 infection, respectively. Actin was used as the internal control. Molecular weight marker sizes in kDa are indicated in small font on the left of each blot. Asterisk denotes non-specific bands ( A, G ). Data are representative of at least three independent experiments.
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    ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated <t>RIPK3</t> (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from mock- or IFN-β–treated wild type (WT) mice with or without mouse hepatitis virus (MHV) infection 3 days post-infection. ( D – I ) Immunoblot analysis of ( D , G ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E , H ) pro- (P55) and cleaved CASP8 (P18), pro- (P35) and cleaved CASP3 (P19 and P17) and pro- (P35) and cleaved CASP7 (P20); ( F) pMLKL, tMLKL, pRIPK3 and tRIPK3; and ( I ) pRIPK3 and tRIPK3 in mock- or IFN-β–treated bone marrow-derived macrophages (BMDMs) or THP-1 cells during MHV or SARS-CoV-2 infection, respectively. Actin was used as the internal control. Molecular weight marker sizes in kDa are indicated in small font on the left of each blot. Asterisk denotes non-specific bands ( A, G ). Data are representative of at least three independent experiments.
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    A , B U937 cell lines of various genotypes expressing an inducible MLKL(1-180)-gyrase fusion were treated with doxycycline (to induce expression) and/or coumermycin (to induce dimerisation), or left untreated. After 24 h ( A ) or 48 h ( B ), cells were harvested and assessed for cell death (PI uptake measured using flow cytometry), counting a minimum of 5000 cells. Data represent three independent experiments, with the exception of the BAX −/− BAK −/− cell lines, where n = 2. Statistics were calculated in GraphPad Prism 8, and p values are shown where <0.05. C The same U937 cells used in panel A and B were treated with doxycycline alone and left overnight. After approximately 16 h, cells were harvested and lysed for analysis of fusion protein expression via western blot. The upper MLKL band (*) represents endogenous MLKL, and the lower band (arrow) represents the MLKL (1-180) -gyrase fusion protein. D Wild-type U937 were treated with TNF (100 ng/ml), Smac-mimetic (0.5 µM), and caspase inhibitor IDN-6556 (emricasan; 5 µM) (TSI) to induce necroptosis or TNF and Smac-mimetic (TS) alone to induce apoptosis. In parallel, MLKL −/− U937 expressing an inducible MLKL (1-180) -gyrase fusion were treated with doxycycline and coumermycin in the presence or absence of necrosulfonamide (NSA). Images were taken at the specified timepoints using an IncuCyte S3 System to track morphological changes and PI uptake (shown by red). Cells with a necroptotic phenotype (cellular swelling) are indicate with yellow arrows. Three fields were examined per well with representative data shown. E Wild-type U937 cells were treated with doxycycline (20 nM) to induce expression of human wild-type <t>RIPK3</t> in the presence of various cell death inhibitors, as indicated, for 24 h. At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent four or more independent experiments. F Wild-type, MLKL −/− and RIPK1 −/− U937 expressing inducible human wild-type RIPK3 were treated with doxycycline (20 nM) and IDN-6556 (5 µM), doxycycline alone, or left untreated. After 24 h, cell death was measured as PI uptake using flow cytometry. Data are a summary of six independent experiments.
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    A , B U937 cell lines of various genotypes expressing an inducible MLKL(1-180)-gyrase fusion were treated with doxycycline (to induce expression) and/or coumermycin (to induce dimerisation), or left untreated. After 24 h ( A ) or 48 h ( B ), cells were harvested and assessed for cell death (PI uptake measured using flow cytometry), counting a minimum of 5000 cells. Data represent three independent experiments, with the exception of the BAX −/− BAK −/− cell lines, where n = 2. Statistics were calculated in GraphPad Prism 8, and p values are shown where <0.05. C The same U937 cells used in panel A and B were treated with doxycycline alone and left overnight. After approximately 16 h, cells were harvested and lysed for analysis of fusion protein expression via western blot. The upper MLKL band (*) represents endogenous MLKL, and the lower band (arrow) represents the MLKL (1-180) -gyrase fusion protein. D Wild-type U937 were treated with TNF (100 ng/ml), Smac-mimetic (0.5 µM), and caspase inhibitor IDN-6556 (emricasan; 5 µM) (TSI) to induce necroptosis or TNF and Smac-mimetic (TS) alone to induce apoptosis. In parallel, MLKL −/− U937 expressing an inducible MLKL (1-180) -gyrase fusion were treated with doxycycline and coumermycin in the presence or absence of necrosulfonamide (NSA). Images were taken at the specified timepoints using an IncuCyte S3 System to track morphological changes and PI uptake (shown by red). Cells with a necroptotic phenotype (cellular swelling) are indicate with yellow arrows. Three fields were examined per well with representative data shown. E Wild-type U937 cells were treated with doxycycline (20 nM) to induce expression of human wild-type <t>RIPK3</t> in the presence of various cell death inhibitors, as indicated, for 24 h. At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent four or more independent experiments. F Wild-type, MLKL −/− and RIPK1 −/− U937 expressing inducible human wild-type RIPK3 were treated with doxycycline (20 nM) and IDN-6556 (5 µM), doxycycline alone, or left untreated. After 24 h, cell death was measured as PI uptake using flow cytometry. Data are a summary of six independent experiments.
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    (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or RIP3 protein expression in L929 cells.

    Journal: PLoS ONE

    Article Title: RIP1-Dependent and Independent Effects of Necrostatin-1 in Necrosis and T Cell Activation

    doi: 10.1371/journal.pone.0023209

    Figure Lengend Snippet: (A) Nec-1 inhibits TNF-induced necrosis in L929 cells. L929 cells were treated with 10 µM zVAD-fmk, 20 µM Nec-1 and 10 ng/ml mouse TNF (mTNF) as indicated. Cell death was determined by MTS assay as described in materials and methods. (B) L929 cells were treated with the indicated doses of Nec-1, followed by stimulation with 10 ng/ml mTNF. Cell Death was analyzed as in (A). (C) Nec-1 did not alter RIP1 or RIP3 protein expression in L929 cells.

    Article Snippet: After transfer to nitrocellulose membranes, Western blots were performed with antibodies to RIP1, §-actin, PARP-1 (BD Pharmingen, San Diego, CA, USA), RIP3 (ProSci, Poway, CA, USA), Erk, Jnk, PKA substrate (Cell Signaling, Danvers, MA, USA), PKA, LAT (Santa Cruz, Santa Cruz, CA, USA), and phospho-tyrosine (Millipore, Bellerica, MA, USA).

    Techniques: MTS Assay, Expressing

    (A–C) RIP1 is required for zVAD-fmk, but not TNF-induced necrosis in L929 cells. (A) L929 cells were transfected with the indicated siRNA oligonucleotides with HiPerfect (Qiagen). TR4 is the control siRNA against TRAIL-R4 . Cells were treated with (A) 50 µM zVAD-fmk or (B) 10 ng/ml mTNF and cell death was measured by MTS assay. (C) Western blot shows RIP1 and RIP3 expression in cells transfected with the indicated siRNAs. (D–E) RIP1 is required for TNF-induced necrosis in 3T3 fibroblasts. NIH 3T3 fibroblasts were transfected with the indicated siRNA. (D) Expression of RIP1, RIP3 and ß-actin in cells transfected with the indicated siRNA was determined by Western blot. (E) Necrosis was induced with 10 µM zVAD-fmk, 0.5 µg/ml cycloheximide and 10 ng/ml mTNF for 20 hours. Cell death was assessed as in (A).

    Journal: PLoS ONE

    Article Title: RIP1-Dependent and Independent Effects of Necrostatin-1 in Necrosis and T Cell Activation

    doi: 10.1371/journal.pone.0023209

    Figure Lengend Snippet: (A–C) RIP1 is required for zVAD-fmk, but not TNF-induced necrosis in L929 cells. (A) L929 cells were transfected with the indicated siRNA oligonucleotides with HiPerfect (Qiagen). TR4 is the control siRNA against TRAIL-R4 . Cells were treated with (A) 50 µM zVAD-fmk or (B) 10 ng/ml mTNF and cell death was measured by MTS assay. (C) Western blot shows RIP1 and RIP3 expression in cells transfected with the indicated siRNAs. (D–E) RIP1 is required for TNF-induced necrosis in 3T3 fibroblasts. NIH 3T3 fibroblasts were transfected with the indicated siRNA. (D) Expression of RIP1, RIP3 and ß-actin in cells transfected with the indicated siRNA was determined by Western blot. (E) Necrosis was induced with 10 µM zVAD-fmk, 0.5 µg/ml cycloheximide and 10 ng/ml mTNF for 20 hours. Cell death was assessed as in (A).

    Article Snippet: After transfer to nitrocellulose membranes, Western blots were performed with antibodies to RIP1, §-actin, PARP-1 (BD Pharmingen, San Diego, CA, USA), RIP3 (ProSci, Poway, CA, USA), Erk, Jnk, PKA substrate (Cell Signaling, Danvers, MA, USA), PKA, LAT (Santa Cruz, Santa Cruz, CA, USA), and phospho-tyrosine (Millipore, Bellerica, MA, USA).

    Techniques: Transfection, MTS Assay, Western Blot, Expressing

    The regulation of RIP3 in TNF- α -induced toxicity of hippocampal neurons in vivo . (a) Nissl staining of hippocampal neurons 72 h after treatment. Wild-type (WT) and RIP3 knockout (KO) mice received intracerebroventricular injection of PBS or the indicated dose of TNF- α . The neurons of brain sections from WT and KO mice were analyzed by Nissl staining ( n = 7) and morphology of hippocampal CA3 region was shown. Arrows indicate the loss of hippocampal neurons. (b) and (c) Expressions of RIP1, RIP3, and caspase-3 in the hippocampus after TNF - α treatment. Proteins extracted from hippocampus in the wild-type mice treated with PBS or TNF- α were analyzed by western blot using indicated antibodies. PC: MEF cells were treated with staurosporine at 150 nM for 15 hours. The results shown here are representative of five mice.

    Journal: BioMed Research International

    Article Title: Necroptosis Mediates TNF-Induced Toxicity of Hippocampal Neurons

    doi: 10.1155/2014/290182

    Figure Lengend Snippet: The regulation of RIP3 in TNF- α -induced toxicity of hippocampal neurons in vivo . (a) Nissl staining of hippocampal neurons 72 h after treatment. Wild-type (WT) and RIP3 knockout (KO) mice received intracerebroventricular injection of PBS or the indicated dose of TNF- α . The neurons of brain sections from WT and KO mice were analyzed by Nissl staining ( n = 7) and morphology of hippocampal CA3 region was shown. Arrows indicate the loss of hippocampal neurons. (b) and (c) Expressions of RIP1, RIP3, and caspase-3 in the hippocampus after TNF - α treatment. Proteins extracted from hippocampus in the wild-type mice treated with PBS or TNF- α were analyzed by western blot using indicated antibodies. PC: MEF cells were treated with staurosporine at 150 nM for 15 hours. The results shown here are representative of five mice.

    Article Snippet: The following antibodies were used for western blotting: mouse RIP3 (Prosci, 2283), RIP1 (BD Biosciences, 610459), mouse CYLD (Cell Signaling, 437700), caspase-3 (Cell Signaling, 9662), and β -actin (Sigma).

    Techniques: In Vivo, Staining, Knock-Out, Injection, Western Blot

    TNF- α -induced necrosis of HT-22 cells depends on RIP3 and its kinase activity. (a) HT-22 cells were transfected with the negative control (NC) or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for another 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. (b) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. (c) HT-22 cells stably expressing a siRNA-resistant WT-RIP3 or RIP3-K51A or RIP3-RHIM-Mut were transfected with the control or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. WT-RIP3: HT-22 cells stably expressing a siRNA-resistant wild-type form of RIP3; RIP3-K51A: HT-22 cells stably expressing a siRNA-resistant RIP3 kinase dead mutant. RIP3-RHIM Mut: HT-22 cells stably expressing a siRNA-resistant RHIM domain mutant form of RIP3. (d) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. All experiments were repeated three times with similar results.

    Journal: BioMed Research International

    Article Title: Necroptosis Mediates TNF-Induced Toxicity of Hippocampal Neurons

    doi: 10.1155/2014/290182

    Figure Lengend Snippet: TNF- α -induced necrosis of HT-22 cells depends on RIP3 and its kinase activity. (a) HT-22 cells were transfected with the negative control (NC) or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for another 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. (b) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. (c) HT-22 cells stably expressing a siRNA-resistant WT-RIP3 or RIP3-K51A or RIP3-RHIM-Mut were transfected with the control or RIP3 siRNAs. After 60 h, cells were treated with control or TNF- α /z-VAD for 20 h and then cell viability was determined by measuring ATP levels. Data were represented as mean ± standard deviation of duplicates. * P < 0.01, ** P < 0.001 versus NC-T + Z. WT-RIP3: HT-22 cells stably expressing a siRNA-resistant wild-type form of RIP3; RIP3-K51A: HT-22 cells stably expressing a siRNA-resistant RIP3 kinase dead mutant. RIP3-RHIM Mut: HT-22 cells stably expressing a siRNA-resistant RHIM domain mutant form of RIP3. (d) The knockdown efficiency of RIP3 RNAi. Cell lysates were collected 60 h after transfection and subjected to western blot analysis of RIP3 and β -actin levels. All experiments were repeated three times with similar results.

    Article Snippet: The following antibodies were used for western blotting: mouse RIP3 (Prosci, 2283), RIP1 (BD Biosciences, 610459), mouse CYLD (Cell Signaling, 437700), caspase-3 (Cell Signaling, 9662), and β -actin (Sigma).

    Techniques: Activity Assay, Transfection, Negative Control, Standard Deviation, Western Blot, Stable Transfection, Expressing, Mutagenesis

    ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from mock- or IFN-β–treated wild type (WT) mice with or without mouse hepatitis virus (MHV) infection 3 days post-infection. ( D – I ) Immunoblot analysis of ( D , G ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E , H ) pro- (P55) and cleaved CASP8 (P18), pro- (P35) and cleaved CASP3 (P19 and P17) and pro- (P35) and cleaved CASP7 (P20); ( F) pMLKL, tMLKL, pRIPK3 and tRIPK3; and ( I ) pRIPK3 and tRIPK3 in mock- or IFN-β–treated bone marrow-derived macrophages (BMDMs) or THP-1 cells during MHV or SARS-CoV-2 infection, respectively. Actin was used as the internal control. Molecular weight marker sizes in kDa are indicated in small font on the left of each blot. Asterisk denotes non-specific bands ( A, G ). Data are representative of at least three independent experiments.

    Journal: Science Immunology

    Article Title: ZBP1-dependent inflammatory cell death, PANoptosis, and cytokine storm disrupt IFN therapeutic efficacy during coronavirus infection

    doi: 10.1126/sciimmunol.abo6294

    Figure Lengend Snippet: ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from mock- or IFN-β–treated wild type (WT) mice with or without mouse hepatitis virus (MHV) infection 3 days post-infection. ( D – I ) Immunoblot analysis of ( D , G ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E , H ) pro- (P55) and cleaved CASP8 (P18), pro- (P35) and cleaved CASP3 (P19 and P17) and pro- (P35) and cleaved CASP7 (P20); ( F) pMLKL, tMLKL, pRIPK3 and tRIPK3; and ( I ) pRIPK3 and tRIPK3 in mock- or IFN-β–treated bone marrow-derived macrophages (BMDMs) or THP-1 cells during MHV or SARS-CoV-2 infection, respectively. Actin was used as the internal control. Molecular weight marker sizes in kDa are indicated in small font on the left of each blot. Asterisk denotes non-specific bands ( A, G ). Data are representative of at least three independent experiments.

    Article Snippet: Following electrophoretic transfer of proteins onto PVDF membranes (Millipore, IPVH00010), non-specific binding was blocked by incubation with 5% skim milk; then membranes were incubated with the following primary antibodies: anti-caspase-1 (AdipoGen, AG-20B-0042, 1:1000), anti-caspase-3 (CST, #9662, 1:1000), anti-cleaved caspase-3 (CST, #9661, 1:1000), anti-caspase-7 (CST, #9492, 1:1000), anti-cleaved caspase-7 (CST, #9491, 1:1000), anti-caspase-8 (CST, #4927, 1:1000), anti-cleaved caspase-8 (CST, #8592, 1:1000), anti-pRIPK3 (CST, #91702S, 1:1000), anti-RIPK3 (ProSci, #2283, 1:1000), anti-pMLKL (CST, #37333, 1:1000), anti-MLKL (Abgent, AP14272b, 1:1000), anti-GSDMD (Abcam, ab209845, 1:1000), anti-GSDME (Abcam, ab215191, 1:1000), anti-pSTAT1 (CST, #7649, 1:1000), anti-STAT1 (CST, #14994, 1:1000), anti-ZBP1 (AdipoGen, AG-20B-0010, 1:1000), anti-β-actin (Proteintech, 66009-1-IG, 1:5000), human anti-caspase-1 (R&D systems; Cat# MAB6215, 1:1000), human anti-caspase-8 (Enzo, ALX-804-242, 1:1000), human anti-GSDMD (Abcam, ab210070, 1:1000), human anti-tMLKL (Abcam, ab184718, 1:1000), human anti-β-actin (CST, 4970, 1:1000), human anti-ZBP1 (R&D systems; Cat# AF6309, 1:1000) and anti-ISG15 (Santa Cruz, sc-166755).

    Techniques: Western Blot, Infection, Derivative Assay, Molecular Weight, Marker

    ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from PBS-treated mice or mouse hepatitis virus (MHV)-infected wild type (WT) and Zbp1 –/– mice treated with IFN-β harvested 3 days after infection. ( D – F ) Immunoblot analysis of ( D ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E ) pro- (P55) and cleaved (P18) CASP8, pro- (P35) and cleaved (P19 and P17) CASP3 and pro- (P35) and cleaved (P20) CASP7; and ( F ) pMLKL, tMLKL and ZBP1 in PBS- or IFN-β–treated WT, Zbp1 –/– and Zbp1 ∆Za2 bone marrow-derived macrophages (BMDMs) during MHV infection. Actin was used as the internal control. Data are representative of at least three independent experiments.

    Journal: Science Immunology

    Article Title: ZBP1-dependent inflammatory cell death, PANoptosis, and cytokine storm disrupt IFN therapeutic efficacy during coronavirus infection

    doi: 10.1126/sciimmunol.abo6294

    Figure Lengend Snippet: ( A – C ) Immunoblot analysis of ( A ) pro- (P53) and activated (P30) gasdermin D (GSDMD), pro- (P53) and activated (P34) gasdermin E (GSDME); ( B ) pro- (P55) and cleaved caspase-8 (CASP8; P18), pro- (P35) and cleaved caspase-3 (CASP3; P19 and P17) and pro- (P35) and cleaved caspase-7 (CASP7; P20); and ( C ) phosphorylated MLKL (pMLKL), total MLKL (tMLKL), phosphorylated RIPK3 (pRIPK3) and total RIPK3 (tRIPK3) in the lung samples from PBS-treated mice or mouse hepatitis virus (MHV)-infected wild type (WT) and Zbp1 –/– mice treated with IFN-β harvested 3 days after infection. ( D – F ) Immunoblot analysis of ( D ) pro- (P45) and activated (P20) caspase-1 (CASP1), pro- (P53) and activated (P30) GSDMD, pro- (P53) and activated (P34) GSDME; ( E ) pro- (P55) and cleaved (P18) CASP8, pro- (P35) and cleaved (P19 and P17) CASP3 and pro- (P35) and cleaved (P20) CASP7; and ( F ) pMLKL, tMLKL and ZBP1 in PBS- or IFN-β–treated WT, Zbp1 –/– and Zbp1 ∆Za2 bone marrow-derived macrophages (BMDMs) during MHV infection. Actin was used as the internal control. Data are representative of at least three independent experiments.

    Article Snippet: Following electrophoretic transfer of proteins onto PVDF membranes (Millipore, IPVH00010), non-specific binding was blocked by incubation with 5% skim milk; then membranes were incubated with the following primary antibodies: anti-caspase-1 (AdipoGen, AG-20B-0042, 1:1000), anti-caspase-3 (CST, #9662, 1:1000), anti-cleaved caspase-3 (CST, #9661, 1:1000), anti-caspase-7 (CST, #9492, 1:1000), anti-cleaved caspase-7 (CST, #9491, 1:1000), anti-caspase-8 (CST, #4927, 1:1000), anti-cleaved caspase-8 (CST, #8592, 1:1000), anti-pRIPK3 (CST, #91702S, 1:1000), anti-RIPK3 (ProSci, #2283, 1:1000), anti-pMLKL (CST, #37333, 1:1000), anti-MLKL (Abgent, AP14272b, 1:1000), anti-GSDMD (Abcam, ab209845, 1:1000), anti-GSDME (Abcam, ab215191, 1:1000), anti-pSTAT1 (CST, #7649, 1:1000), anti-STAT1 (CST, #14994, 1:1000), anti-ZBP1 (AdipoGen, AG-20B-0010, 1:1000), anti-β-actin (Proteintech, 66009-1-IG, 1:5000), human anti-caspase-1 (R&D systems; Cat# MAB6215, 1:1000), human anti-caspase-8 (Enzo, ALX-804-242, 1:1000), human anti-GSDMD (Abcam, ab210070, 1:1000), human anti-tMLKL (Abcam, ab184718, 1:1000), human anti-β-actin (CST, 4970, 1:1000), human anti-ZBP1 (R&D systems; Cat# AF6309, 1:1000) and anti-ISG15 (Santa Cruz, sc-166755).

    Techniques: Western Blot, Infection, Derivative Assay

    A , B U937 cell lines of various genotypes expressing an inducible MLKL(1-180)-gyrase fusion were treated with doxycycline (to induce expression) and/or coumermycin (to induce dimerisation), or left untreated. After 24 h ( A ) or 48 h ( B ), cells were harvested and assessed for cell death (PI uptake measured using flow cytometry), counting a minimum of 5000 cells. Data represent three independent experiments, with the exception of the BAX −/− BAK −/− cell lines, where n = 2. Statistics were calculated in GraphPad Prism 8, and p values are shown where <0.05. C The same U937 cells used in panel A and B were treated with doxycycline alone and left overnight. After approximately 16 h, cells were harvested and lysed for analysis of fusion protein expression via western blot. The upper MLKL band (*) represents endogenous MLKL, and the lower band (arrow) represents the MLKL (1-180) -gyrase fusion protein. D Wild-type U937 were treated with TNF (100 ng/ml), Smac-mimetic (0.5 µM), and caspase inhibitor IDN-6556 (emricasan; 5 µM) (TSI) to induce necroptosis or TNF and Smac-mimetic (TS) alone to induce apoptosis. In parallel, MLKL −/− U937 expressing an inducible MLKL (1-180) -gyrase fusion were treated with doxycycline and coumermycin in the presence or absence of necrosulfonamide (NSA). Images were taken at the specified timepoints using an IncuCyte S3 System to track morphological changes and PI uptake (shown by red). Cells with a necroptotic phenotype (cellular swelling) are indicate with yellow arrows. Three fields were examined per well with representative data shown. E Wild-type U937 cells were treated with doxycycline (20 nM) to induce expression of human wild-type RIPK3 in the presence of various cell death inhibitors, as indicated, for 24 h. At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent four or more independent experiments. F Wild-type, MLKL −/− and RIPK1 −/− U937 expressing inducible human wild-type RIPK3 were treated with doxycycline (20 nM) and IDN-6556 (5 µM), doxycycline alone, or left untreated. After 24 h, cell death was measured as PI uptake using flow cytometry. Data are a summary of six independent experiments.

    Journal: Cell Death & Disease

    Article Title: The Lck inhibitor, AMG-47a, blocks necroptosis and implicates RIPK1 in signalling downstream of MLKL

    doi: 10.1038/s41419-022-04740-w

    Figure Lengend Snippet: A , B U937 cell lines of various genotypes expressing an inducible MLKL(1-180)-gyrase fusion were treated with doxycycline (to induce expression) and/or coumermycin (to induce dimerisation), or left untreated. After 24 h ( A ) or 48 h ( B ), cells were harvested and assessed for cell death (PI uptake measured using flow cytometry), counting a minimum of 5000 cells. Data represent three independent experiments, with the exception of the BAX −/− BAK −/− cell lines, where n = 2. Statistics were calculated in GraphPad Prism 8, and p values are shown where <0.05. C The same U937 cells used in panel A and B were treated with doxycycline alone and left overnight. After approximately 16 h, cells were harvested and lysed for analysis of fusion protein expression via western blot. The upper MLKL band (*) represents endogenous MLKL, and the lower band (arrow) represents the MLKL (1-180) -gyrase fusion protein. D Wild-type U937 were treated with TNF (100 ng/ml), Smac-mimetic (0.5 µM), and caspase inhibitor IDN-6556 (emricasan; 5 µM) (TSI) to induce necroptosis or TNF and Smac-mimetic (TS) alone to induce apoptosis. In parallel, MLKL −/− U937 expressing an inducible MLKL (1-180) -gyrase fusion were treated with doxycycline and coumermycin in the presence or absence of necrosulfonamide (NSA). Images were taken at the specified timepoints using an IncuCyte S3 System to track morphological changes and PI uptake (shown by red). Cells with a necroptotic phenotype (cellular swelling) are indicate with yellow arrows. Three fields were examined per well with representative data shown. E Wild-type U937 cells were treated with doxycycline (20 nM) to induce expression of human wild-type RIPK3 in the presence of various cell death inhibitors, as indicated, for 24 h. At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent four or more independent experiments. F Wild-type, MLKL −/− and RIPK1 −/− U937 expressing inducible human wild-type RIPK3 were treated with doxycycline (20 nM) and IDN-6556 (5 µM), doxycycline alone, or left untreated. After 24 h, cell death was measured as PI uptake using flow cytometry. Data are a summary of six independent experiments.

    Article Snippet: The following primary antibodies were used in this study: rat anti-MLKL clone 3H1 (available as MABC604 from Merck Millipore; 1:1000) was produced in-house as previously described [ ]; rabbit anti-human MLKL pS358 (ab187091, Abcam, Cambridge, United Kingdom; 1:4000); rabbit anti-mouse MLKL pS345 (ab196436, Abcam; 1:1000); rat anti-human RIPK3 (clone 1H2; available as MABC1640 from Merck Millipore; 1:1000) and rat anti-mouse RIPK3 (clone 8G7; available as MABC1595 from Merck Millipore; 1:1000) produced in-house as previously described [ , ]; rabbit anti-RIPK3 (2283, ProSci; 1:1000); rabbit anti-human RIPK3 pS227 (ab209384, Abcam; 1:2000); rabbit anti-mouse RIPK3 pT231/pS232 (GEN135-35-9, kindly supplied by Genentech, South San Francisco, CA, USA [ ]; 1:2000); mouse anti-RIPK1 (610458, BD Transduction Laboratories, San Jose, CA, USA; 1:1000); rabbit anti-RIPK1 (3493, Cell Signalling Technology, Danvers, MA, USA; 1:1000); rabbit anti-human RIPK1 pS166 (65746, Cell Signalling Technology; 1:1000); rabbit anti-mouse RIPK1 pS166 (31122, Cell Signalling Technology; 1:1000); rabbit anti-mouse CASP8 (4927, Cell Signalling Technology; 1:1000); rabbit anti-BAX (2772, Cell Signalling Technology; 1:1000); rabbit anti-BAX (06-536, Upstate Biotechnology, Lake Placid, NY, USA; 1:1000); rabbit anti-GAPDH (2118, Cell Signalling Technology; 1:1000); and mouse anti-β-Actin (A1978, Sigma-Aldrich; 1:3000).

    Techniques: Expressing, Flow Cytometry, Western Blot

    A Three different experimental protocols were used to assess the ability of AMG-47a to inhibit cell death caused by the expression and dimerisation of the MLKL (1-180) -gyrase fusion protein. In protocol 1, inhibitors (or DMSO) were added first, followed by doxycycline and coumermycin together, so that the fusion protein could dimerise on expression. In protocol 2, addition of coumermycin was delayed to allow levels of the fusion protein to accumulate before dimerisation was induced. In protocol 3, the addition of inhibitors (or DMSO) was also delayed, so that it was added after the fusion protein had been expressed for 16 h, but before the addition of coumermycin. In all experimental methods, cells were harvested 24 h after the experiment was initiated. B Wild-type U937 cells expressing the MLKL (1-180) -gyrase fusion protein were treated using either protocol 1, 2, or 3, as described above ( A ). At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent three independent experiments; bars indicate the mean and error bars indicate standard error of the mean. Statistics were calculated in GraphPad Prism8, and p values are shown where <0.05. C Wild-type U937 cells with inducible human RIPK3 were treated with increasing doses of AMG-47a in the presence of 40 nM doxycycline, to induce expression, and 5 µM IDN-6556, to block caspase-dependent cell death. After 48 h, cells were harvested and viability assessed using the Cell-Titer Glo 2 (Promega) system. Data represent two independent experiments (four replicates per experiment) and have been normalised against doxycycline plus IDN-6556 (0% viability) and doxycycline plus IDN-6556 plus NSA (100% viability).

    Journal: Cell Death & Disease

    Article Title: The Lck inhibitor, AMG-47a, blocks necroptosis and implicates RIPK1 in signalling downstream of MLKL

    doi: 10.1038/s41419-022-04740-w

    Figure Lengend Snippet: A Three different experimental protocols were used to assess the ability of AMG-47a to inhibit cell death caused by the expression and dimerisation of the MLKL (1-180) -gyrase fusion protein. In protocol 1, inhibitors (or DMSO) were added first, followed by doxycycline and coumermycin together, so that the fusion protein could dimerise on expression. In protocol 2, addition of coumermycin was delayed to allow levels of the fusion protein to accumulate before dimerisation was induced. In protocol 3, the addition of inhibitors (or DMSO) was also delayed, so that it was added after the fusion protein had been expressed for 16 h, but before the addition of coumermycin. In all experimental methods, cells were harvested 24 h after the experiment was initiated. B Wild-type U937 cells expressing the MLKL (1-180) -gyrase fusion protein were treated using either protocol 1, 2, or 3, as described above ( A ). At the conclusion of the experiment, cells were analysed for PI uptake using flow cytometry, with a minimum of 5000 cells counted. Data represent three independent experiments; bars indicate the mean and error bars indicate standard error of the mean. Statistics were calculated in GraphPad Prism8, and p values are shown where <0.05. C Wild-type U937 cells with inducible human RIPK3 were treated with increasing doses of AMG-47a in the presence of 40 nM doxycycline, to induce expression, and 5 µM IDN-6556, to block caspase-dependent cell death. After 48 h, cells were harvested and viability assessed using the Cell-Titer Glo 2 (Promega) system. Data represent two independent experiments (four replicates per experiment) and have been normalised against doxycycline plus IDN-6556 (0% viability) and doxycycline plus IDN-6556 plus NSA (100% viability).

    Article Snippet: The following primary antibodies were used in this study: rat anti-MLKL clone 3H1 (available as MABC604 from Merck Millipore; 1:1000) was produced in-house as previously described [ ]; rabbit anti-human MLKL pS358 (ab187091, Abcam, Cambridge, United Kingdom; 1:4000); rabbit anti-mouse MLKL pS345 (ab196436, Abcam; 1:1000); rat anti-human RIPK3 (clone 1H2; available as MABC1640 from Merck Millipore; 1:1000) and rat anti-mouse RIPK3 (clone 8G7; available as MABC1595 from Merck Millipore; 1:1000) produced in-house as previously described [ , ]; rabbit anti-RIPK3 (2283, ProSci; 1:1000); rabbit anti-human RIPK3 pS227 (ab209384, Abcam; 1:2000); rabbit anti-mouse RIPK3 pT231/pS232 (GEN135-35-9, kindly supplied by Genentech, South San Francisco, CA, USA [ ]; 1:2000); mouse anti-RIPK1 (610458, BD Transduction Laboratories, San Jose, CA, USA; 1:1000); rabbit anti-RIPK1 (3493, Cell Signalling Technology, Danvers, MA, USA; 1:1000); rabbit anti-human RIPK1 pS166 (65746, Cell Signalling Technology; 1:1000); rabbit anti-mouse RIPK1 pS166 (31122, Cell Signalling Technology; 1:1000); rabbit anti-mouse CASP8 (4927, Cell Signalling Technology; 1:1000); rabbit anti-BAX (2772, Cell Signalling Technology; 1:1000); rabbit anti-BAX (06-536, Upstate Biotechnology, Lake Placid, NY, USA; 1:1000); rabbit anti-GAPDH (2118, Cell Signalling Technology; 1:1000); and mouse anti-β-Actin (A1978, Sigma-Aldrich; 1:3000).

    Techniques: Expressing, Flow Cytometry, Blocking Assay

    A, B, C U937, HT29 and MDF cell lines were treated with DMSO, AMG-47a (1 µM for U937 and MDF; 2 µM for HT29), TSI, or a combination of AMG-47a and TSI over a time course as indicated in the individual figure panels. At the conclusion of the experiment, cells were harvested and lysed for western blot analysis. All cell lines were assessed for phosphorylation and total protein of the three key necroptosis effector proteins, RIPK1, RIPK3, and MLKL, and total β-actin was used as a loading control. Where multiple bands are present, the specific band of interest is indicated with a red arrow. Data are representative of at least three independent experiments. U937 ( D ) or MDF ( E ) cell lines were treated with AMG-47a at 10 µM, the RIPK1 inhibitors (GSK-481, Nec-1s) or a RIPK3 inhibitor (GSK-872) at 20 µM, or an equivalent amount of DMSO, for 1 h at 37 °C. Cell suspensions were then heated over an increasing temperature gradient (as indicated in the methods) for 3 min. Cells were then lysed, and the amount of remaining soluble protein at each temperature point was analysed using Western blot. Results are representative of two (RIPK1 and RIPK3 in U937) or three (all other analyses) independent experiments. AMG-47a binding to RIPK1 ( F ) and RIPK3 ( G ) was measured in competitive binding assays using the KINOMEscan ® Assay Platform (DiscoverX). Graphs were plotted using the raw data supplied from DiscoverX, and a curve was fitted using non-linear regression (GraphPad Prism) to determine the K d and associated error (95% confidence interval). Data represent one (RIPK3) or two (RIPK1) independent experiments, with two runs performed in all experiments and each colour on the graph representing a separate run. All data points were used for the non-linear regression. K d determinations for individual replicates can be found in supplementary data (Supplementary Fig. ). H , I AMG-47a was serially diluted from a maximum concentration of 50 µM (RIPK1) or 100 µM (RIPK3), and its ability to inhibit human RIPK1 or RIPK3 kinase activity was assessed using the ADP-Glo Kinase Assay (Promega). The reaction was allowed to proceed for 4 h before readouts were performed, and data were normalised to DMSO (0% inhibition) and either 1 µM GSK-481 (100% inhibition of RIPK1) or 1 µM GSK-872 (100% inhibition of RIPK3). Data are a summary of two independent experiments performed in duplicate, and the IC 50 and associated error (95% confidence interval) were determined using non-linear regression, as above. Each colour on the graph represents one independent experiment.

    Journal: Cell Death & Disease

    Article Title: The Lck inhibitor, AMG-47a, blocks necroptosis and implicates RIPK1 in signalling downstream of MLKL

    doi: 10.1038/s41419-022-04740-w

    Figure Lengend Snippet: A, B, C U937, HT29 and MDF cell lines were treated with DMSO, AMG-47a (1 µM for U937 and MDF; 2 µM for HT29), TSI, or a combination of AMG-47a and TSI over a time course as indicated in the individual figure panels. At the conclusion of the experiment, cells were harvested and lysed for western blot analysis. All cell lines were assessed for phosphorylation and total protein of the three key necroptosis effector proteins, RIPK1, RIPK3, and MLKL, and total β-actin was used as a loading control. Where multiple bands are present, the specific band of interest is indicated with a red arrow. Data are representative of at least three independent experiments. U937 ( D ) or MDF ( E ) cell lines were treated with AMG-47a at 10 µM, the RIPK1 inhibitors (GSK-481, Nec-1s) or a RIPK3 inhibitor (GSK-872) at 20 µM, or an equivalent amount of DMSO, for 1 h at 37 °C. Cell suspensions were then heated over an increasing temperature gradient (as indicated in the methods) for 3 min. Cells were then lysed, and the amount of remaining soluble protein at each temperature point was analysed using Western blot. Results are representative of two (RIPK1 and RIPK3 in U937) or three (all other analyses) independent experiments. AMG-47a binding to RIPK1 ( F ) and RIPK3 ( G ) was measured in competitive binding assays using the KINOMEscan ® Assay Platform (DiscoverX). Graphs were plotted using the raw data supplied from DiscoverX, and a curve was fitted using non-linear regression (GraphPad Prism) to determine the K d and associated error (95% confidence interval). Data represent one (RIPK3) or two (RIPK1) independent experiments, with two runs performed in all experiments and each colour on the graph representing a separate run. All data points were used for the non-linear regression. K d determinations for individual replicates can be found in supplementary data (Supplementary Fig. ). H , I AMG-47a was serially diluted from a maximum concentration of 50 µM (RIPK1) or 100 µM (RIPK3), and its ability to inhibit human RIPK1 or RIPK3 kinase activity was assessed using the ADP-Glo Kinase Assay (Promega). The reaction was allowed to proceed for 4 h before readouts were performed, and data were normalised to DMSO (0% inhibition) and either 1 µM GSK-481 (100% inhibition of RIPK1) or 1 µM GSK-872 (100% inhibition of RIPK3). Data are a summary of two independent experiments performed in duplicate, and the IC 50 and associated error (95% confidence interval) were determined using non-linear regression, as above. Each colour on the graph represents one independent experiment.

    Article Snippet: The following primary antibodies were used in this study: rat anti-MLKL clone 3H1 (available as MABC604 from Merck Millipore; 1:1000) was produced in-house as previously described [ ]; rabbit anti-human MLKL pS358 (ab187091, Abcam, Cambridge, United Kingdom; 1:4000); rabbit anti-mouse MLKL pS345 (ab196436, Abcam; 1:1000); rat anti-human RIPK3 (clone 1H2; available as MABC1640 from Merck Millipore; 1:1000) and rat anti-mouse RIPK3 (clone 8G7; available as MABC1595 from Merck Millipore; 1:1000) produced in-house as previously described [ , ]; rabbit anti-RIPK3 (2283, ProSci; 1:1000); rabbit anti-human RIPK3 pS227 (ab209384, Abcam; 1:2000); rabbit anti-mouse RIPK3 pT231/pS232 (GEN135-35-9, kindly supplied by Genentech, South San Francisco, CA, USA [ ]; 1:2000); mouse anti-RIPK1 (610458, BD Transduction Laboratories, San Jose, CA, USA; 1:1000); rabbit anti-RIPK1 (3493, Cell Signalling Technology, Danvers, MA, USA; 1:1000); rabbit anti-human RIPK1 pS166 (65746, Cell Signalling Technology; 1:1000); rabbit anti-mouse RIPK1 pS166 (31122, Cell Signalling Technology; 1:1000); rabbit anti-mouse CASP8 (4927, Cell Signalling Technology; 1:1000); rabbit anti-BAX (2772, Cell Signalling Technology; 1:1000); rabbit anti-BAX (06-536, Upstate Biotechnology, Lake Placid, NY, USA; 1:1000); rabbit anti-GAPDH (2118, Cell Signalling Technology; 1:1000); and mouse anti-β-Actin (A1978, Sigma-Aldrich; 1:3000).

    Techniques: Western Blot, Binding Assay, Concentration Assay, Activity Assay, Kinase Assay, Inhibition

    A The cell death induced by forced dimerisation of the human MLKL NTD involves two distinct processes. In the first, MLKL can self-associate into discrete oligomers on addition of doxycycline. In the second, addition of coumermycin promotes the assembly of large multimeric complexes. AMG-47a is unable to inhibit the second process, thus we propose it prevents membrane attachment, translocation, or oligomerisation of the human MLKL NTD through its activity as a kinase inhibitor. As AMG-47a binds RIPK1, and as RIPK1 is required for this form of cell death, we propose the primary target of AMG-47a is RIPK1 in this context. B When a cell receives a necroptotic stimulus, a number of key events occur, beginning with assembly of a necrosome containing RIPK1, RIPK3, and MLKL. This triggers a number of events, beginning with the phosphorylation of MLKL by RIPK3, which enables a conformational change in MLKL that allows oligomerisation, translocation to cellular membranes, and ultimately cell death. Our data suggest an additional role for RIPK1 in human necroptosis by supporting the conformational change, oligomerisation, or membrane translocation of MLKL following phosphorylation by RIPK3.

    Journal: Cell Death & Disease

    Article Title: The Lck inhibitor, AMG-47a, blocks necroptosis and implicates RIPK1 in signalling downstream of MLKL

    doi: 10.1038/s41419-022-04740-w

    Figure Lengend Snippet: A The cell death induced by forced dimerisation of the human MLKL NTD involves two distinct processes. In the first, MLKL can self-associate into discrete oligomers on addition of doxycycline. In the second, addition of coumermycin promotes the assembly of large multimeric complexes. AMG-47a is unable to inhibit the second process, thus we propose it prevents membrane attachment, translocation, or oligomerisation of the human MLKL NTD through its activity as a kinase inhibitor. As AMG-47a binds RIPK1, and as RIPK1 is required for this form of cell death, we propose the primary target of AMG-47a is RIPK1 in this context. B When a cell receives a necroptotic stimulus, a number of key events occur, beginning with assembly of a necrosome containing RIPK1, RIPK3, and MLKL. This triggers a number of events, beginning with the phosphorylation of MLKL by RIPK3, which enables a conformational change in MLKL that allows oligomerisation, translocation to cellular membranes, and ultimately cell death. Our data suggest an additional role for RIPK1 in human necroptosis by supporting the conformational change, oligomerisation, or membrane translocation of MLKL following phosphorylation by RIPK3.

    Article Snippet: The following primary antibodies were used in this study: rat anti-MLKL clone 3H1 (available as MABC604 from Merck Millipore; 1:1000) was produced in-house as previously described [ ]; rabbit anti-human MLKL pS358 (ab187091, Abcam, Cambridge, United Kingdom; 1:4000); rabbit anti-mouse MLKL pS345 (ab196436, Abcam; 1:1000); rat anti-human RIPK3 (clone 1H2; available as MABC1640 from Merck Millipore; 1:1000) and rat anti-mouse RIPK3 (clone 8G7; available as MABC1595 from Merck Millipore; 1:1000) produced in-house as previously described [ , ]; rabbit anti-RIPK3 (2283, ProSci; 1:1000); rabbit anti-human RIPK3 pS227 (ab209384, Abcam; 1:2000); rabbit anti-mouse RIPK3 pT231/pS232 (GEN135-35-9, kindly supplied by Genentech, South San Francisco, CA, USA [ ]; 1:2000); mouse anti-RIPK1 (610458, BD Transduction Laboratories, San Jose, CA, USA; 1:1000); rabbit anti-RIPK1 (3493, Cell Signalling Technology, Danvers, MA, USA; 1:1000); rabbit anti-human RIPK1 pS166 (65746, Cell Signalling Technology; 1:1000); rabbit anti-mouse RIPK1 pS166 (31122, Cell Signalling Technology; 1:1000); rabbit anti-mouse CASP8 (4927, Cell Signalling Technology; 1:1000); rabbit anti-BAX (2772, Cell Signalling Technology; 1:1000); rabbit anti-BAX (06-536, Upstate Biotechnology, Lake Placid, NY, USA; 1:1000); rabbit anti-GAPDH (2118, Cell Signalling Technology; 1:1000); and mouse anti-β-Actin (A1978, Sigma-Aldrich; 1:3000).

    Techniques: Translocation Assay, Activity Assay