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mouse trance (rankl) (soluble) recombinant protein  (PeproTech)


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    PeproTech mouse trance (rankl) (soluble) recombinant protein
    Mouse Trance (Rankl) (Soluble) Recombinant Protein, supplied by PeproTech, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/mouse trance (rankl) (soluble) recombinant protein/product/PeproTech
    Average 90 stars, based on 1 article reviews
    mouse trance (rankl) (soluble) recombinant protein - by Bioz Stars, 2026-05
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    Visomitin diminishes the intracellular ROS levels and attenuates osteoclastogenesis. (A) The relative antioxidant capacity of indicated antioxidants at 300 nm was evaluated in the ABTS system ( n = 3). (B and C) Evaluation and quantification of the intracellular ROS levels of BMMs exposed to H 2 O 2 after pretreatment of a range of antioxidants (300 nm) using flow cytometry ( n = 3). (D and E) Detection and quantification of the mean fluorescence intensity (MFI) of DCFH-DA probe in BMMs following treatment with either <t>RANKL</t> or Visomitin; scale bars, 100 μm ( n = 5). (F and G) Detection and quantification of the MFI of MitoSOX probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 50 μm ( n = 5). (H) BMMs were treated with different dosages of Visomitin and subjected to in vitro osteoclast differentiation. Representative images of TRAP staining were shown. Scale bars, 50 μm. (I) Quantification of TRAP + multinuclear cells per well in panel (A) ( n = 3). (J) BMMs were subjected to in vitro osteoclast differentiation and treated with 300 nm Visomitin at specified stages. Representative images of TRAP staining were shown. Scale bars, 50 μm. (K) Quantification of TRAP + multinuclear cells per well in panel (C) ( n = 3). (L) Representative images of wheat germ agglutinin (WGA) staining in osteoclasts treated with or without Visomitin. Scale bars, 10 μm. (M) Quantification of bone pit depth in panel (I) ( n = 12). (N) Representative SEM images of bone slice resorption pits. Scale bars, 10 μm. (O) Quantification of bone resorption pit area ( n = 6). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.
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    Visomitin diminishes the intracellular ROS levels and attenuates osteoclastogenesis. (A) The relative antioxidant capacity of indicated antioxidants at 300 nm was evaluated in the ABTS system ( n = 3). (B and C) Evaluation and quantification of the intracellular ROS levels of BMMs exposed to H 2 O 2 after pretreatment of a range of antioxidants (300 nm) using flow cytometry ( n = 3). (D and E) Detection and quantification of the mean fluorescence intensity (MFI) of DCFH-DA probe in BMMs following treatment with either <t>RANKL</t> or Visomitin; scale bars, 100 μm ( n = 5). (F and G) Detection and quantification of the MFI of MitoSOX probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 50 μm ( n = 5). (H) BMMs were treated with different dosages of Visomitin and subjected to in vitro osteoclast differentiation. Representative images of TRAP staining were shown. Scale bars, 50 μm. (I) Quantification of TRAP + multinuclear cells per well in panel (A) ( n = 3). (J) BMMs were subjected to in vitro osteoclast differentiation and treated with 300 nm Visomitin at specified stages. Representative images of TRAP staining were shown. Scale bars, 50 μm. (K) Quantification of TRAP + multinuclear cells per well in panel (C) ( n = 3). (L) Representative images of wheat germ agglutinin (WGA) staining in osteoclasts treated with or without Visomitin. Scale bars, 10 μm. (M) Quantification of bone pit depth in panel (I) ( n = 12). (N) Representative SEM images of bone slice resorption pits. Scale bars, 10 μm. (O) Quantification of bone resorption pit area ( n = 6). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.
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    Visomitin diminishes the intracellular ROS levels and attenuates osteoclastogenesis. (A) The relative antioxidant capacity of indicated antioxidants at 300 nm was evaluated in the ABTS system ( n = 3). (B and C) Evaluation and quantification of the intracellular ROS levels of BMMs exposed to H 2 O 2 after pretreatment of a range of antioxidants (300 nm) using flow cytometry ( n = 3). (D and E) Detection and quantification of the mean fluorescence intensity (MFI) of DCFH-DA probe in BMMs following treatment with either <t>RANKL</t> or Visomitin; scale bars, 100 μm ( n = 5). (F and G) Detection and quantification of the MFI of MitoSOX probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 50 μm ( n = 5). (H) BMMs were treated with different dosages of Visomitin and subjected to in vitro osteoclast differentiation. Representative images of TRAP staining were shown. Scale bars, 50 μm. (I) Quantification of TRAP + multinuclear cells per well in panel (A) ( n = 3). (J) BMMs were subjected to in vitro osteoclast differentiation and treated with 300 nm Visomitin at specified stages. Representative images of TRAP staining were shown. Scale bars, 50 μm. (K) Quantification of TRAP + multinuclear cells per well in panel (C) ( n = 3). (L) Representative images of wheat germ agglutinin (WGA) staining in osteoclasts treated with or without Visomitin. Scale bars, 10 μm. (M) Quantification of bone pit depth in panel (I) ( n = 12). (N) Representative SEM images of bone slice resorption pits. Scale bars, 10 μm. (O) Quantification of bone resorption pit area ( n = 6). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.
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    Visomitin diminishes the intracellular ROS levels and attenuates osteoclastogenesis. (A) The relative antioxidant capacity of indicated antioxidants at 300 nm was evaluated in the ABTS system ( n = 3). (B and C) Evaluation and quantification of the intracellular ROS levels of BMMs exposed to H 2 O 2 after pretreatment of a range of antioxidants (300 nm) using flow cytometry ( n = 3). (D and E) Detection and quantification of the mean fluorescence intensity (MFI) of DCFH-DA probe in BMMs following treatment with either <t>RANKL</t> or Visomitin; scale bars, 100 μm ( n = 5). (F and G) Detection and quantification of the MFI of MitoSOX probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 50 μm ( n = 5). (H) BMMs were treated with different dosages of Visomitin and subjected to in vitro osteoclast differentiation. Representative images of TRAP staining were shown. Scale bars, 50 μm. (I) Quantification of TRAP + multinuclear cells per well in panel (A) ( n = 3). (J) BMMs were subjected to in vitro osteoclast differentiation and treated with 300 nm Visomitin at specified stages. Representative images of TRAP staining were shown. Scale bars, 50 μm. (K) Quantification of TRAP + multinuclear cells per well in panel (C) ( n = 3). (L) Representative images of wheat germ agglutinin (WGA) staining in osteoclasts treated with or without Visomitin. Scale bars, 10 μm. (M) Quantification of bone pit depth in panel (I) ( n = 12). (N) Representative SEM images of bone slice resorption pits. Scale bars, 10 μm. (O) Quantification of bone resorption pit area ( n = 6). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.
    Mouse Rankl, supplied by Miltenyi Biotec, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/mouse rankl/product/Miltenyi Biotec
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    mouse soluble rankl  (R&D Systems)
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    ( A ) Pre-osteoclast cells were cultured with either the vehicle (DMSO) or AAJE at concentrations of 1, 3, 10, 30, and 100 μg/ml, concurrently <t>with</t> <t>M-CSF</t> (50 ng/ml) and <t>RANKL</t> (30 ng/ml) for a duration of four days. Following this incubation period, multinucleated osteoclasts were visualized using tartrate-resistant acid phosphatase (TRAP) staining. ( B ) The number of TRAP-positive multinucleated osteoclasts was quantified (left panel), and TRAP activity was assessed (right panel). Statistical significance was determined with * p < 0.05; ** p < 0.01; *** p < 0.001, compared to the vehicle control. ( C ) The effect of AAJE on the viability of pre-osteoclast cells was evaluated using the CCK-8 assay, conducted in triplicate.
    Mouse Soluble Rankl, supplied by R&D Systems, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Image Search Results


    Visomitin diminishes the intracellular ROS levels and attenuates osteoclastogenesis. (A) The relative antioxidant capacity of indicated antioxidants at 300 nm was evaluated in the ABTS system ( n = 3). (B and C) Evaluation and quantification of the intracellular ROS levels of BMMs exposed to H 2 O 2 after pretreatment of a range of antioxidants (300 nm) using flow cytometry ( n = 3). (D and E) Detection and quantification of the mean fluorescence intensity (MFI) of DCFH-DA probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 100 μm ( n = 5). (F and G) Detection and quantification of the MFI of MitoSOX probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 50 μm ( n = 5). (H) BMMs were treated with different dosages of Visomitin and subjected to in vitro osteoclast differentiation. Representative images of TRAP staining were shown. Scale bars, 50 μm. (I) Quantification of TRAP + multinuclear cells per well in panel (A) ( n = 3). (J) BMMs were subjected to in vitro osteoclast differentiation and treated with 300 nm Visomitin at specified stages. Representative images of TRAP staining were shown. Scale bars, 50 μm. (K) Quantification of TRAP + multinuclear cells per well in panel (C) ( n = 3). (L) Representative images of wheat germ agglutinin (WGA) staining in osteoclasts treated with or without Visomitin. Scale bars, 10 μm. (M) Quantification of bone pit depth in panel (I) ( n = 12). (N) Representative SEM images of bone slice resorption pits. Scale bars, 10 μm. (O) Quantification of bone resorption pit area ( n = 6). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Journal: Research

    Article Title: Visomitin Attenuates Pathological Bone Loss by Reprogramming Osteoclast Metabolism via the STAT3/LDHB Axis

    doi: 10.34133/research.0784

    Figure Lengend Snippet: Visomitin diminishes the intracellular ROS levels and attenuates osteoclastogenesis. (A) The relative antioxidant capacity of indicated antioxidants at 300 nm was evaluated in the ABTS system ( n = 3). (B and C) Evaluation and quantification of the intracellular ROS levels of BMMs exposed to H 2 O 2 after pretreatment of a range of antioxidants (300 nm) using flow cytometry ( n = 3). (D and E) Detection and quantification of the mean fluorescence intensity (MFI) of DCFH-DA probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 100 μm ( n = 5). (F and G) Detection and quantification of the MFI of MitoSOX probe in BMMs following treatment with either RANKL or Visomitin; scale bars, 50 μm ( n = 5). (H) BMMs were treated with different dosages of Visomitin and subjected to in vitro osteoclast differentiation. Representative images of TRAP staining were shown. Scale bars, 50 μm. (I) Quantification of TRAP + multinuclear cells per well in panel (A) ( n = 3). (J) BMMs were subjected to in vitro osteoclast differentiation and treated with 300 nm Visomitin at specified stages. Representative images of TRAP staining were shown. Scale bars, 50 μm. (K) Quantification of TRAP + multinuclear cells per well in panel (C) ( n = 3). (L) Representative images of wheat germ agglutinin (WGA) staining in osteoclasts treated with or without Visomitin. Scale bars, 10 μm. (M) Quantification of bone pit depth in panel (I) ( n = 12). (N) Representative SEM images of bone slice resorption pits. Scale bars, 10 μm. (O) Quantification of bone resorption pit area ( n = 6). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Article Snippet: Recombinant soluble mouse macrophage colony-stimulating factor (M-CSF) (Cat. No. CB34) was supplied by Novoprotein; Recombinant soluble mouse RANKL (Cat. No. 462-TEC-010) were purchased from R&D Systems; Total Antioxidant Capacity (T-AOC) Assay Kit (Cat. No. S0121), ROS Assay Kit (Cat. No. S0033S), Mitochondrial membrane potential assay kit with JC-1 (Cat. No. C2006), MitoSOX Assay Kit (Cat. No. S0061S), DHE (Cat. No. S0063), and Antifade Mounting Medium (Cat. No. P0126) were supplied by Beyotime. iF488-wheat germ agglutinin (Cat. No. G1730) was purchased from Servicebio.

    Techniques: Flow Cytometry, Fluorescence, In Vitro, Staining

    Visomitin attenuates the activation of RANKL-RANK signaling pathways. BMMs treated with Visomitin or PBS were subjected to osteoclast differentiation, followed by Transcriptome RNA-seq. Genes with |log 2 FC| > 1, P < 0.05, and TPM > 0.5 are designated as differentially expressed genes (DEGs) ( n = 3). (A) The heatmap illustrating the gene expression profiles derived from RNA-seq data. (B) Analysis of RNA-seq data for cell and tissue specificity utilizing the PaGenBase database. (C) The volcano plot illustrating the gene expression profiles derived from RNA-seq data. (D) KEGG enrichment analysis of DEGs obtained from RNA-seq data. (E) GO enrichment analysis of down-regulated genes (Log 2 FC < −1 and P < 0.05) obtained from RNA-seq data. (F) GSEA of Gene Ontology Biological Processes in RNA-seq data. (G) Network of enrich terms derived from RNA-seq data utilizing the Metascape database. (H) Representative immunoblots illustrating the effects of Visomitin on the activation of RANKL-RANK signaling pathways, including NF-κB, MAPK, and AKT pathways ( n = 3). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Journal: Research

    Article Title: Visomitin Attenuates Pathological Bone Loss by Reprogramming Osteoclast Metabolism via the STAT3/LDHB Axis

    doi: 10.34133/research.0784

    Figure Lengend Snippet: Visomitin attenuates the activation of RANKL-RANK signaling pathways. BMMs treated with Visomitin or PBS were subjected to osteoclast differentiation, followed by Transcriptome RNA-seq. Genes with |log 2 FC| > 1, P < 0.05, and TPM > 0.5 are designated as differentially expressed genes (DEGs) ( n = 3). (A) The heatmap illustrating the gene expression profiles derived from RNA-seq data. (B) Analysis of RNA-seq data for cell and tissue specificity utilizing the PaGenBase database. (C) The volcano plot illustrating the gene expression profiles derived from RNA-seq data. (D) KEGG enrichment analysis of DEGs obtained from RNA-seq data. (E) GO enrichment analysis of down-regulated genes (Log 2 FC < −1 and P < 0.05) obtained from RNA-seq data. (F) GSEA of Gene Ontology Biological Processes in RNA-seq data. (G) Network of enrich terms derived from RNA-seq data utilizing the Metascape database. (H) Representative immunoblots illustrating the effects of Visomitin on the activation of RANKL-RANK signaling pathways, including NF-κB, MAPK, and AKT pathways ( n = 3). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Article Snippet: Recombinant soluble mouse macrophage colony-stimulating factor (M-CSF) (Cat. No. CB34) was supplied by Novoprotein; Recombinant soluble mouse RANKL (Cat. No. 462-TEC-010) were purchased from R&D Systems; Total Antioxidant Capacity (T-AOC) Assay Kit (Cat. No. S0121), ROS Assay Kit (Cat. No. S0033S), Mitochondrial membrane potential assay kit with JC-1 (Cat. No. C2006), MitoSOX Assay Kit (Cat. No. S0061S), DHE (Cat. No. S0063), and Antifade Mounting Medium (Cat. No. P0126) were supplied by Beyotime. iF488-wheat germ agglutinin (Cat. No. G1730) was purchased from Servicebio.

    Techniques: Activation Assay, Protein-Protein interactions, RNA Sequencing, Gene Expression, Derivative Assay, Western Blot

    Visomitin reprograms energy metabolism during osteoclastogenesis. (A) GSEA analysis of Reactome and KEGG pathways in RNA-seq data. (B) The heatmap depicting the gene expression profiles of the 2 pathways presented in panel (A). (C) Representative JC-1 staining of BMMs treated with MCSF, RANKL, or Visomitin as indicated. (D) Quantification of JC-1 staining as presented in panel (C) ( n = 5). (E) Intracellular ATP levels following treatment with MCSF, RANKL, or Visomitin as indicated ( n = 5). (F) Representative immunoblots illustrating the expression levels of proteins within the aforementioned 2 pathways following Visomitin treatment ( n = 3). (G and H) Representative Seahorse graphs for oxygen consumption rate (OCR) or extracellular acidification rate (ECAR) ( n = 3). (I) Quantification of the basal respiration, maximal respiration, and ATP production from OCR data. (J) Quantification of the non-glycolytic acidification, glycolysis, and glycolytic capacity from ECAR data. Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Journal: Research

    Article Title: Visomitin Attenuates Pathological Bone Loss by Reprogramming Osteoclast Metabolism via the STAT3/LDHB Axis

    doi: 10.34133/research.0784

    Figure Lengend Snippet: Visomitin reprograms energy metabolism during osteoclastogenesis. (A) GSEA analysis of Reactome and KEGG pathways in RNA-seq data. (B) The heatmap depicting the gene expression profiles of the 2 pathways presented in panel (A). (C) Representative JC-1 staining of BMMs treated with MCSF, RANKL, or Visomitin as indicated. (D) Quantification of JC-1 staining as presented in panel (C) ( n = 5). (E) Intracellular ATP levels following treatment with MCSF, RANKL, or Visomitin as indicated ( n = 5). (F) Representative immunoblots illustrating the expression levels of proteins within the aforementioned 2 pathways following Visomitin treatment ( n = 3). (G and H) Representative Seahorse graphs for oxygen consumption rate (OCR) or extracellular acidification rate (ECAR) ( n = 3). (I) Quantification of the basal respiration, maximal respiration, and ATP production from OCR data. (J) Quantification of the non-glycolytic acidification, glycolysis, and glycolytic capacity from ECAR data. Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Article Snippet: Recombinant soluble mouse macrophage colony-stimulating factor (M-CSF) (Cat. No. CB34) was supplied by Novoprotein; Recombinant soluble mouse RANKL (Cat. No. 462-TEC-010) were purchased from R&D Systems; Total Antioxidant Capacity (T-AOC) Assay Kit (Cat. No. S0121), ROS Assay Kit (Cat. No. S0033S), Mitochondrial membrane potential assay kit with JC-1 (Cat. No. C2006), MitoSOX Assay Kit (Cat. No. S0061S), DHE (Cat. No. S0063), and Antifade Mounting Medium (Cat. No. P0126) were supplied by Beyotime. iF488-wheat germ agglutinin (Cat. No. G1730) was purchased from Servicebio.

    Techniques: RNA Sequencing, Gene Expression, Staining, Western Blot, Expressing

    STAT3 functions as a direct target of Visomitin to modulate LDHB transcription. (A) The potential transcription factors (TFs) for LDHB were predicted using the KnockTF, ENCODE, and ChIP_Atlas databases. (B) The potential targets of Visomitin were predicted using the SuperPRED database. (C and D) The mRNA and protein expression levels of LDHB under Stattic treatment ( n = 3). (E) The thermal stability of FLAG-STAT3 under Visomitin treatment was detected using WB ( n = 3). (F) The stability of FLAG-STAT3 in the presence of protease following treatment with Visomitin (0, 75, 150, and 300 nmol/l) was detected using WB ( n = 3). (G) Three-dimensional image of molecular docking between Visomitin and STAT3. (H) Representative immunoblots for the indicated nuclear, phosphorylated, or total proteins following treatment with Visomitin (0, 75, 150, and 300 nm) ( n = 3). (I) Representative Immunofluorescence images of STAT3 in BMMs after treatment with RANKL or Visomitin (0, 75, 150, and 300 nm) as indicated. Scale bars, 20 μm. (J) Quantification of Pearson’s correlation coefficient between STAT3 and DAPI in panel (I) ( n = 3). (K) STAT3 ChIP assay of LDHB promoter region. (L) Quantification of the binding affinity between STAT3 and the LDHB promoter ( n = 3). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Journal: Research

    Article Title: Visomitin Attenuates Pathological Bone Loss by Reprogramming Osteoclast Metabolism via the STAT3/LDHB Axis

    doi: 10.34133/research.0784

    Figure Lengend Snippet: STAT3 functions as a direct target of Visomitin to modulate LDHB transcription. (A) The potential transcription factors (TFs) for LDHB were predicted using the KnockTF, ENCODE, and ChIP_Atlas databases. (B) The potential targets of Visomitin were predicted using the SuperPRED database. (C and D) The mRNA and protein expression levels of LDHB under Stattic treatment ( n = 3). (E) The thermal stability of FLAG-STAT3 under Visomitin treatment was detected using WB ( n = 3). (F) The stability of FLAG-STAT3 in the presence of protease following treatment with Visomitin (0, 75, 150, and 300 nmol/l) was detected using WB ( n = 3). (G) Three-dimensional image of molecular docking between Visomitin and STAT3. (H) Representative immunoblots for the indicated nuclear, phosphorylated, or total proteins following treatment with Visomitin (0, 75, 150, and 300 nm) ( n = 3). (I) Representative Immunofluorescence images of STAT3 in BMMs after treatment with RANKL or Visomitin (0, 75, 150, and 300 nm) as indicated. Scale bars, 20 μm. (J) Quantification of Pearson’s correlation coefficient between STAT3 and DAPI in panel (I) ( n = 3). (K) STAT3 ChIP assay of LDHB promoter region. (L) Quantification of the binding affinity between STAT3 and the LDHB promoter ( n = 3). Data are mean ± SD; * P < 0.05, ** P < 0.01, and *** P < 0.001; ns, not significant.

    Article Snippet: Recombinant soluble mouse macrophage colony-stimulating factor (M-CSF) (Cat. No. CB34) was supplied by Novoprotein; Recombinant soluble mouse RANKL (Cat. No. 462-TEC-010) were purchased from R&D Systems; Total Antioxidant Capacity (T-AOC) Assay Kit (Cat. No. S0121), ROS Assay Kit (Cat. No. S0033S), Mitochondrial membrane potential assay kit with JC-1 (Cat. No. C2006), MitoSOX Assay Kit (Cat. No. S0061S), DHE (Cat. No. S0063), and Antifade Mounting Medium (Cat. No. P0126) were supplied by Beyotime. iF488-wheat germ agglutinin (Cat. No. G1730) was purchased from Servicebio.

    Techniques: Expressing, Western Blot, Immunofluorescence, Binding Assay

    ( A ) Pre-osteoclast cells were cultured with either the vehicle (DMSO) or AAJE at concentrations of 1, 3, 10, 30, and 100 μg/ml, concurrently with M-CSF (50 ng/ml) and RANKL (30 ng/ml) for a duration of four days. Following this incubation period, multinucleated osteoclasts were visualized using tartrate-resistant acid phosphatase (TRAP) staining. ( B ) The number of TRAP-positive multinucleated osteoclasts was quantified (left panel), and TRAP activity was assessed (right panel). Statistical significance was determined with * p < 0.05; ** p < 0.01; *** p < 0.001, compared to the vehicle control. ( C ) The effect of AAJE on the viability of pre-osteoclast cells was evaluated using the CCK-8 assay, conducted in triplicate.

    Journal: Journal of Microbiology and Biotechnology

    Article Title: The Biphasic Activity of Auricularia Auricula-Judae Extract on Bone Homeostasis through Inhibition of Osteoclastogenesis and Modulation of Osteogenic Activity

    doi: 10.4014/jmb.2408.08055

    Figure Lengend Snippet: ( A ) Pre-osteoclast cells were cultured with either the vehicle (DMSO) or AAJE at concentrations of 1, 3, 10, 30, and 100 μg/ml, concurrently with M-CSF (50 ng/ml) and RANKL (30 ng/ml) for a duration of four days. Following this incubation period, multinucleated osteoclasts were visualized using tartrate-resistant acid phosphatase (TRAP) staining. ( B ) The number of TRAP-positive multinucleated osteoclasts was quantified (left panel), and TRAP activity was assessed (right panel). Statistical significance was determined with * p < 0.05; ** p < 0.01; *** p < 0.001, compared to the vehicle control. ( C ) The effect of AAJE on the viability of pre-osteoclast cells was evaluated using the CCK-8 assay, conducted in triplicate.

    Article Snippet: Recombinant human BMP-2 (rhBMP-2), mouse soluble RANKL, and M-CSF were purchased from R&D Systems (USA) and reconstituted in 0.1% bovine serum albumin in Dulbecco’s phosphate-buffered saline (DPBS) according to the manufacturer’s specifications.

    Techniques: Cell Culture, Incubation, Staining, Activity Assay, Control, CCK-8 Assay

    ( A ) Bone marrow-derived macrophage (BMM) cells were stimulated with M-CSF (50 ng/ml) and RANKL (30 ng/ml) in the presence of either a vehicle control (DMSO) or AAJWE (10 μg/ml) for the specified duration. Total RNA was subsequently extracted using TRIzol reagent, and mRNA expression levels were assessed via real-time PCR, with GAPDH serving as the internal control. Statistical significance was determined with * p < 0.05; ** p < 0.01; *** p < 0.001, compared to the vehicle control. ( B ) The impact of AAJWE on the protein expression levels of RANKL-induced transcription factors was analyzed through Western blotting. BMM cells were pre-treated with either the vehicle or AAJWE (10 μg/ml) prior to stimulation with RANKL (30 ng/ml) and M-CSF (50 ng/ml) for the indicated duration. Cell lysates were subjected to SDSPAGE and transferred to a PVDF membrane. Western blotting was conducted using specific antibodies for each molecule as indicated, with β-Actin utilized as the internal control. A representative result from three independent experiments, which yielded consistent findings, is presented.

    Journal: Journal of Microbiology and Biotechnology

    Article Title: The Biphasic Activity of Auricularia Auricula-Judae Extract on Bone Homeostasis through Inhibition of Osteoclastogenesis and Modulation of Osteogenic Activity

    doi: 10.4014/jmb.2408.08055

    Figure Lengend Snippet: ( A ) Bone marrow-derived macrophage (BMM) cells were stimulated with M-CSF (50 ng/ml) and RANKL (30 ng/ml) in the presence of either a vehicle control (DMSO) or AAJWE (10 μg/ml) for the specified duration. Total RNA was subsequently extracted using TRIzol reagent, and mRNA expression levels were assessed via real-time PCR, with GAPDH serving as the internal control. Statistical significance was determined with * p < 0.05; ** p < 0.01; *** p < 0.001, compared to the vehicle control. ( B ) The impact of AAJWE on the protein expression levels of RANKL-induced transcription factors was analyzed through Western blotting. BMM cells were pre-treated with either the vehicle or AAJWE (10 μg/ml) prior to stimulation with RANKL (30 ng/ml) and M-CSF (50 ng/ml) for the indicated duration. Cell lysates were subjected to SDSPAGE and transferred to a PVDF membrane. Western blotting was conducted using specific antibodies for each molecule as indicated, with β-Actin utilized as the internal control. A representative result from three independent experiments, which yielded consistent findings, is presented.

    Article Snippet: Recombinant human BMP-2 (rhBMP-2), mouse soluble RANKL, and M-CSF were purchased from R&D Systems (USA) and reconstituted in 0.1% bovine serum albumin in Dulbecco’s phosphate-buffered saline (DPBS) according to the manufacturer’s specifications.

    Techniques: Derivative Assay, Control, Expressing, Real-time Polymerase Chain Reaction, Western Blot, Membrane