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mouse anti β integrin  (Developmental Studies Hybridoma Bank)


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    Developmental Studies Hybridoma Bank mouse anti β integrin
    Mouse Anti β Integrin, supplied by Developmental Studies Hybridoma Bank, used in various techniques. Bioz Stars score: 96/100, based on 220 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 96 stars, based on 220 article reviews
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    Desialylation results in the activation of the Hippo pathway. A, MDA-MB-231 cells were pretreated with different doses of sialidase for 3 h; then, the cell membrane fractions were immunoblotted with SNA (recognizing α2,6-sialylated proteins) and ConA (an α-mannose/α-glucose-binding lectin) lectins or blotted with anti-integrin β1 antibody. B, to further determine the change of sialylation on the cell surface after sialidase treatment, the indicated cells were incubated with biotin-conjugated MAA (recognizing 2,3-sialylated proteins, dotted line ), biotin-conjugated SNA ( bold line ), or without ( gray shadow ) lectin, followed by incubation with appropriate Alexa Flour 647 conjugate and subjected to flow cytometry. C, MDA-MB-231 cells were treated as described in ( A ), and then the cell lysates were immunoblotted with anti-p-YAP S127, anti-YAP, anti-p-LATS1 T1079, anti-LATS1, and anti-GAPDH antibodies. The relative ratios (phospho-YAP and phospho-LATS1 versus YAP and LATS1, respectively) are presented as the mean ± SD ( n = 3 biological replicates, ∗∗, p < 0.01, ∗∗∗, p < 0.001 is determined by two-tail unpaired t test). SNA, Sambucus nigra; MAA, Maackia amurensis agglutinin; ConA, Concanavalin A; LATS, large tumor suppressor kinase; YAP, yes-associated protein.

    Journal: The Journal of Biological Chemistry

    Article Title: Inhibitory effects of β-galactoside α2,6-sialyltransferase 1 on the Hippo pathway in breast cancer cells

    doi: 10.1016/j.jbc.2025.110266

    Figure Lengend Snippet: Desialylation results in the activation of the Hippo pathway. A, MDA-MB-231 cells were pretreated with different doses of sialidase for 3 h; then, the cell membrane fractions were immunoblotted with SNA (recognizing α2,6-sialylated proteins) and ConA (an α-mannose/α-glucose-binding lectin) lectins or blotted with anti-integrin β1 antibody. B, to further determine the change of sialylation on the cell surface after sialidase treatment, the indicated cells were incubated with biotin-conjugated MAA (recognizing 2,3-sialylated proteins, dotted line ), biotin-conjugated SNA ( bold line ), or without ( gray shadow ) lectin, followed by incubation with appropriate Alexa Flour 647 conjugate and subjected to flow cytometry. C, MDA-MB-231 cells were treated as described in ( A ), and then the cell lysates were immunoblotted with anti-p-YAP S127, anti-YAP, anti-p-LATS1 T1079, anti-LATS1, and anti-GAPDH antibodies. The relative ratios (phospho-YAP and phospho-LATS1 versus YAP and LATS1, respectively) are presented as the mean ± SD ( n = 3 biological replicates, ∗∗, p < 0.01, ∗∗∗, p < 0.001 is determined by two-tail unpaired t test). SNA, Sambucus nigra; MAA, Maackia amurensis agglutinin; ConA, Concanavalin A; LATS, large tumor suppressor kinase; YAP, yes-associated protein.

    Article Snippet: The experiments were performed using the following antibodies: Rabbit antibodies against p-YAP(S127) (#13008S), p-LATS1(T1079) (#8654S), LATS1 (#3477S), p-Src(Y416) (#2101S), p-FAK(Y397) (#8556S), FAK (#3285S), EGFR (#4267S), p-EGFR(Y1068) (#3777S), and integrin β1 (#9699S) were from Cell Signaling Technology; mouse mAb against GAPDH (#sc-365062), and β-actin (#sc-47778) were from Santa Cruz Biotechnology; mouse mAb against integrin α5 (610633) was from BD Biosciences; rabbit pAbs against LPAR4 (22165-1-AP) and mouse mAb against YAP (66900-1-Ig) were obtained from Proteintech; rabbit pAb against ST3GAL4 (NBP1-69565) was obtained from Novus Biologicals; mouse mAbs against FLAG (clone M2, #F3165) and Src (clone GD11, #05-184) were from Sigma; goat pAb against ST6GAL1 (AF5924) was from R&D Systems; mouse mAb against integrin β1 (P5D2) was from Developmental Studies Hybridoma Bank.

    Techniques: Activation Assay, Membrane, Binding Assay, Incubation, Flow Cytometry

    ST6GAL1 catalyzes the α2,6-sialylation of LPAR4, EGFR, integrin α5, and integrin β1 in MDA-MB-231 cells. A, the cell lysates from Con-, ST6GAL1-KO-, ST6GAL1-Res- MDA-MB-231 cells were immunoprecipitated by SSA-agaroses and then blotted with antibodies against LPAR4, EGFR, integrin β1, and integrin α5. The whole-cell lysates were also subjected to WB with indicated antibodies. B, the cell lysates from Con- and ST3GAL4-OE- MDA-MB-231 cells were immunoprecipitated by SSA- and MAM-agaroses and then blotted with antibodies against integrin β1, EGFR, and integrin α5 separately. The whole-cell lysates were also subjected to WB with indicated antibodies. The relative ratios (the α2,6-sialylated LPAR4, EGFR, integrin α5, or integrin β1 versus total LPAR4, EGFR, integrin α5, or integrin β1, respectively) in ( A ) and (the α2,3-sialylated or α2,6-sialylated integrin β1, EGFR, or integrin α5 versus total integrin β1, EGFR, or integrin α5, respectively) in ( B ) are shown as the mean ± SD ( n = 3 biological replicates, ∗∗, p < 0.01; ∗∗∗, p < 0.001; and ∗∗∗∗, p < 0.0001 are determined by one-way ANOVA with Tukey's post hoc test and two-tail unpaired t test, respectively). WB, Western blot; ST6GAL1, β-galactoside α2,6-sialyltransferase 1; SSA, Sambucus sieboldiana agglutinin; Con, control; Res, rescue; EGFR, epidermal growth factor receptor; Maackia amurensis.

    Journal: The Journal of Biological Chemistry

    Article Title: Inhibitory effects of β-galactoside α2,6-sialyltransferase 1 on the Hippo pathway in breast cancer cells

    doi: 10.1016/j.jbc.2025.110266

    Figure Lengend Snippet: ST6GAL1 catalyzes the α2,6-sialylation of LPAR4, EGFR, integrin α5, and integrin β1 in MDA-MB-231 cells. A, the cell lysates from Con-, ST6GAL1-KO-, ST6GAL1-Res- MDA-MB-231 cells were immunoprecipitated by SSA-agaroses and then blotted with antibodies against LPAR4, EGFR, integrin β1, and integrin α5. The whole-cell lysates were also subjected to WB with indicated antibodies. B, the cell lysates from Con- and ST3GAL4-OE- MDA-MB-231 cells were immunoprecipitated by SSA- and MAM-agaroses and then blotted with antibodies against integrin β1, EGFR, and integrin α5 separately. The whole-cell lysates were also subjected to WB with indicated antibodies. The relative ratios (the α2,6-sialylated LPAR4, EGFR, integrin α5, or integrin β1 versus total LPAR4, EGFR, integrin α5, or integrin β1, respectively) in ( A ) and (the α2,3-sialylated or α2,6-sialylated integrin β1, EGFR, or integrin α5 versus total integrin β1, EGFR, or integrin α5, respectively) in ( B ) are shown as the mean ± SD ( n = 3 biological replicates, ∗∗, p < 0.01; ∗∗∗, p < 0.001; and ∗∗∗∗, p < 0.0001 are determined by one-way ANOVA with Tukey's post hoc test and two-tail unpaired t test, respectively). WB, Western blot; ST6GAL1, β-galactoside α2,6-sialyltransferase 1; SSA, Sambucus sieboldiana agglutinin; Con, control; Res, rescue; EGFR, epidermal growth factor receptor; Maackia amurensis.

    Article Snippet: The experiments were performed using the following antibodies: Rabbit antibodies against p-YAP(S127) (#13008S), p-LATS1(T1079) (#8654S), LATS1 (#3477S), p-Src(Y416) (#2101S), p-FAK(Y397) (#8556S), FAK (#3285S), EGFR (#4267S), p-EGFR(Y1068) (#3777S), and integrin β1 (#9699S) were from Cell Signaling Technology; mouse mAb against GAPDH (#sc-365062), and β-actin (#sc-47778) were from Santa Cruz Biotechnology; mouse mAb against integrin α5 (610633) was from BD Biosciences; rabbit pAbs against LPAR4 (22165-1-AP) and mouse mAb against YAP (66900-1-Ig) were obtained from Proteintech; rabbit pAb against ST3GAL4 (NBP1-69565) was obtained from Novus Biologicals; mouse mAbs against FLAG (clone M2, #F3165) and Src (clone GD11, #05-184) were from Sigma; goat pAb against ST6GAL1 (AF5924) was from R&D Systems; mouse mAb against integrin β1 (P5D2) was from Developmental Studies Hybridoma Bank.

    Techniques: Immunoprecipitation, Western Blot, Control

    ST6GAL1 mediates integrin β1–LPAR4/EGFR complex formation. A and B, the cell lysates from Con-, ST6GAL1-KO-, ST6GAL1-Res- MDA-MB-231 ( A ) and BT549 ( B ) cells were immunoprecipitated by anti-integrin β1 antibody and then blotted with antibodies against LPAR4, EGFR, and integrin β1. The whole-cell lysates were also subjected to WB with indicated antibodies. The relative ratios (the association of EGFR or LPAR4 with integrin β1, respectively) in ( A ) and ( B ) are presented as the mean ± SD ( n = 3 biological replicates, ∗∗∗∗, p < 0.0001 is determined by one-way ANOVA with Tukey's post hoc test). ST6GAL1, β-galactoside α2,6-sialyltransferase 1; Con, control; Res, rescue; EGFR, epidermal growth factor receptor; WB, Western blot.

    Journal: The Journal of Biological Chemistry

    Article Title: Inhibitory effects of β-galactoside α2,6-sialyltransferase 1 on the Hippo pathway in breast cancer cells

    doi: 10.1016/j.jbc.2025.110266

    Figure Lengend Snippet: ST6GAL1 mediates integrin β1–LPAR4/EGFR complex formation. A and B, the cell lysates from Con-, ST6GAL1-KO-, ST6GAL1-Res- MDA-MB-231 ( A ) and BT549 ( B ) cells were immunoprecipitated by anti-integrin β1 antibody and then blotted with antibodies against LPAR4, EGFR, and integrin β1. The whole-cell lysates were also subjected to WB with indicated antibodies. The relative ratios (the association of EGFR or LPAR4 with integrin β1, respectively) in ( A ) and ( B ) are presented as the mean ± SD ( n = 3 biological replicates, ∗∗∗∗, p < 0.0001 is determined by one-way ANOVA with Tukey's post hoc test). ST6GAL1, β-galactoside α2,6-sialyltransferase 1; Con, control; Res, rescue; EGFR, epidermal growth factor receptor; WB, Western blot.

    Article Snippet: The experiments were performed using the following antibodies: Rabbit antibodies against p-YAP(S127) (#13008S), p-LATS1(T1079) (#8654S), LATS1 (#3477S), p-Src(Y416) (#2101S), p-FAK(Y397) (#8556S), FAK (#3285S), EGFR (#4267S), p-EGFR(Y1068) (#3777S), and integrin β1 (#9699S) were from Cell Signaling Technology; mouse mAb against GAPDH (#sc-365062), and β-actin (#sc-47778) were from Santa Cruz Biotechnology; mouse mAb against integrin α5 (610633) was from BD Biosciences; rabbit pAbs against LPAR4 (22165-1-AP) and mouse mAb against YAP (66900-1-Ig) were obtained from Proteintech; rabbit pAb against ST3GAL4 (NBP1-69565) was obtained from Novus Biologicals; mouse mAbs against FLAG (clone M2, #F3165) and Src (clone GD11, #05-184) were from Sigma; goat pAb against ST6GAL1 (AF5924) was from R&D Systems; mouse mAb against integrin β1 (P5D2) was from Developmental Studies Hybridoma Bank.

    Techniques: Immunoprecipitation, Control, Western Blot

    Schematic diagram of the proposed molecular mechanism for negative regulation of Hippo signaling via ST6GAL1. Various upstream cell membrane receptors of the Hippo pathway have been identified, including the RTKs ( e.g. , EGFR), GPCRs ( e.g. , LPAR4), and integrins ( e.g. , integrin α5β1). The RTK, GPCR, and integrin signals transduced by growth factors (GFs, e.g. , EGF), extracellular factors ( e.g. , LPA), and the extracellular matrix (ECM, e.g. , FN) can facilitate Hippo pathway effectors ( e.g. , PI3K and FAK) association, which promote LATS1/2-mediated regulation of YAP. In the cells with ST6GAL1 expression ( left ), the cell membrane receptors, such as EGFR, LPAR4, and integrin α5β1, are modified by α2,6-sialylation, which mediate the integrin β1–EGFR/LPAR4 complex formation and in turn facilitate their responses to EGF, LPA, and FN, respectively. These signalings inactivate LATS1/2 kinases or induce the dephosphorylation of YAP, finally leading to hypophosphorylated YAP (p-YAP S127). Hypophosphorylated YAP accumulates in the nucleus, where it can bind to various transcription factors (TFs, e.g. , TEAD family) to enhance the expression of target genes ( e.g. , ANKRD1 , CTGF , and CYR61 ) expression that promote cell adhesion, spreading, proliferation, migration, and metastasis. The Hippo signaling can be inhibited by the verteporfin (VP) inhibitor, which targets YAP-TEAD activity. In the ST6GAL1 deficiency cells ( right ), the N -glycans on cell membrane receptors are without α2,6-sialylation, which exhibit weak integrin β1–EGFR/LPAR4 complex formation and delayed responses to EGF, LPA, and FN stimulation and activate the LATS1/2 kinases and phosphorylate YAP on S127. The phosphorylated YAP (p-YAP S127) is retained in the cytoplasm, inhibiting YAP/TEAD-dependent transcription. The p of the red background represents the activation of related proteins, while gray background represents the inactivation. LATS, large tumor suppressor kinase; YAP, yes-associated protein; ST6GAL1, β-galactoside α2,6-sialyltransferase 1; RTK, receptor tyrosine kinase; EGF, epidermal growth factor; EGFR, epidermal growth factor receptor; FN, fibronectin; GPCR, G protein–coupled receptor; GT, glycosyltransferase; LPA, lysophosphatidic acid; FAK, focal adhesion kinase.

    Journal: The Journal of Biological Chemistry

    Article Title: Inhibitory effects of β-galactoside α2,6-sialyltransferase 1 on the Hippo pathway in breast cancer cells

    doi: 10.1016/j.jbc.2025.110266

    Figure Lengend Snippet: Schematic diagram of the proposed molecular mechanism for negative regulation of Hippo signaling via ST6GAL1. Various upstream cell membrane receptors of the Hippo pathway have been identified, including the RTKs ( e.g. , EGFR), GPCRs ( e.g. , LPAR4), and integrins ( e.g. , integrin α5β1). The RTK, GPCR, and integrin signals transduced by growth factors (GFs, e.g. , EGF), extracellular factors ( e.g. , LPA), and the extracellular matrix (ECM, e.g. , FN) can facilitate Hippo pathway effectors ( e.g. , PI3K and FAK) association, which promote LATS1/2-mediated regulation of YAP. In the cells with ST6GAL1 expression ( left ), the cell membrane receptors, such as EGFR, LPAR4, and integrin α5β1, are modified by α2,6-sialylation, which mediate the integrin β1–EGFR/LPAR4 complex formation and in turn facilitate their responses to EGF, LPA, and FN, respectively. These signalings inactivate LATS1/2 kinases or induce the dephosphorylation of YAP, finally leading to hypophosphorylated YAP (p-YAP S127). Hypophosphorylated YAP accumulates in the nucleus, where it can bind to various transcription factors (TFs, e.g. , TEAD family) to enhance the expression of target genes ( e.g. , ANKRD1 , CTGF , and CYR61 ) expression that promote cell adhesion, spreading, proliferation, migration, and metastasis. The Hippo signaling can be inhibited by the verteporfin (VP) inhibitor, which targets YAP-TEAD activity. In the ST6GAL1 deficiency cells ( right ), the N -glycans on cell membrane receptors are without α2,6-sialylation, which exhibit weak integrin β1–EGFR/LPAR4 complex formation and delayed responses to EGF, LPA, and FN stimulation and activate the LATS1/2 kinases and phosphorylate YAP on S127. The phosphorylated YAP (p-YAP S127) is retained in the cytoplasm, inhibiting YAP/TEAD-dependent transcription. The p of the red background represents the activation of related proteins, while gray background represents the inactivation. LATS, large tumor suppressor kinase; YAP, yes-associated protein; ST6GAL1, β-galactoside α2,6-sialyltransferase 1; RTK, receptor tyrosine kinase; EGF, epidermal growth factor; EGFR, epidermal growth factor receptor; FN, fibronectin; GPCR, G protein–coupled receptor; GT, glycosyltransferase; LPA, lysophosphatidic acid; FAK, focal adhesion kinase.

    Article Snippet: The experiments were performed using the following antibodies: Rabbit antibodies against p-YAP(S127) (#13008S), p-LATS1(T1079) (#8654S), LATS1 (#3477S), p-Src(Y416) (#2101S), p-FAK(Y397) (#8556S), FAK (#3285S), EGFR (#4267S), p-EGFR(Y1068) (#3777S), and integrin β1 (#9699S) were from Cell Signaling Technology; mouse mAb against GAPDH (#sc-365062), and β-actin (#sc-47778) were from Santa Cruz Biotechnology; mouse mAb against integrin α5 (610633) was from BD Biosciences; rabbit pAbs against LPAR4 (22165-1-AP) and mouse mAb against YAP (66900-1-Ig) were obtained from Proteintech; rabbit pAb against ST3GAL4 (NBP1-69565) was obtained from Novus Biologicals; mouse mAbs against FLAG (clone M2, #F3165) and Src (clone GD11, #05-184) were from Sigma; goat pAb against ST6GAL1 (AF5924) was from R&D Systems; mouse mAb against integrin β1 (P5D2) was from Developmental Studies Hybridoma Bank.

    Techniques: Membrane, Expressing, Modification, De-Phosphorylation Assay, Migration, Activity Assay, Activation Assay