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α v β 3 polyclonal ab  (Bioss)


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    Bioss α v β 3 polyclonal ab
    MOP3 increases M2 activity and decreases M1 activity in an α v <t>β</t> <t>3</t> -dependent manner. Peritoneal macrophages from adult mice were treated with PBS or eCIRP (1 µg/mL) and MOP3 (10 µg/mL). Groups treated with eCIRP and MOP3 were pretreated with either IgG or α v β 3 antibody. Supernatant was collected at 24 h and measured for ( A ) IL-10 and ( B ) TNFα by ELISA. Data are expressed as mean ± SEM. Results were tested for normality by Shapiro–Wilk test and QQ plots. Results were evaluated by ANOVA and Tukey’s multiple-comparisons test (* p < 0.05 vs. PBS, # p < 0.05 vs. IgG).
    α V β 3 Polyclonal Ab, supplied by Bioss, used in various techniques. Bioz Stars score: 94/100, based on 58 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/α v β 3 polyclonal ab/product/Bioss
    Average 94 stars, based on 58 article reviews
    α v β 3 polyclonal ab - by Bioz Stars, 2026-05
    94/100 stars

    Images

    1) Product Images from "MFG-E8-Derived Oligopeptide MOP3 Facilitates Anti-Inflammatory M2-like Macrophage Polarization in Gut Ischemia/Reperfusion"

    Article Title: MFG-E8-Derived Oligopeptide MOP3 Facilitates Anti-Inflammatory M2-like Macrophage Polarization in Gut Ischemia/Reperfusion

    Journal: Cells

    doi: 10.3390/cells15070606

    MOP3 increases M2 activity and decreases M1 activity in an α v β 3 -dependent manner. Peritoneal macrophages from adult mice were treated with PBS or eCIRP (1 µg/mL) and MOP3 (10 µg/mL). Groups treated with eCIRP and MOP3 were pretreated with either IgG or α v β 3 antibody. Supernatant was collected at 24 h and measured for ( A ) IL-10 and ( B ) TNFα by ELISA. Data are expressed as mean ± SEM. Results were tested for normality by Shapiro–Wilk test and QQ plots. Results were evaluated by ANOVA and Tukey’s multiple-comparisons test (* p < 0.05 vs. PBS, # p < 0.05 vs. IgG).
    Figure Legend Snippet: MOP3 increases M2 activity and decreases M1 activity in an α v β 3 -dependent manner. Peritoneal macrophages from adult mice were treated with PBS or eCIRP (1 µg/mL) and MOP3 (10 µg/mL). Groups treated with eCIRP and MOP3 were pretreated with either IgG or α v β 3 antibody. Supernatant was collected at 24 h and measured for ( A ) IL-10 and ( B ) TNFα by ELISA. Data are expressed as mean ± SEM. Results were tested for normality by Shapiro–Wilk test and QQ plots. Results were evaluated by ANOVA and Tukey’s multiple-comparisons test (* p < 0.05 vs. PBS, # p < 0.05 vs. IgG).

    Techniques Used: Activity Assay, Enzyme-linked Immunosorbent Assay

    MOP3 clearance of eCIRP promotes M2 polarization of macrophages in mesenteric ischemia/reperfusion injury. MOP3 facilitates phagocytosis of eCIRP by macrophages via α v β 3 integrin, which leads to an increase in polarization toward M2 relative to M1. This phenomenon is demonstrated in mesenteric ischemia/reperfusion, improving healing while decreasing inflammation.
    Figure Legend Snippet: MOP3 clearance of eCIRP promotes M2 polarization of macrophages in mesenteric ischemia/reperfusion injury. MOP3 facilitates phagocytosis of eCIRP by macrophages via α v β 3 integrin, which leads to an increase in polarization toward M2 relative to M1. This phenomenon is demonstrated in mesenteric ischemia/reperfusion, improving healing while decreasing inflammation.

    Techniques Used:



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    α v β 3 polyclonal ab  (Bioss)
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    MOP3 increases M2 activity and decreases M1 activity in an α v <t>β</t> <t>3</t> -dependent manner. Peritoneal macrophages from adult mice were treated with PBS or eCIRP (1 µg/mL) and MOP3 (10 µg/mL). Groups treated with eCIRP and MOP3 were pretreated with either IgG or α v β 3 antibody. Supernatant was collected at 24 h and measured for ( A ) IL-10 and ( B ) TNFα by ELISA. Data are expressed as mean ± SEM. Results were tested for normality by Shapiro–Wilk test and QQ plots. Results were evaluated by ANOVA and Tukey’s multiple-comparisons test (* p < 0.05 vs. PBS, # p < 0.05 vs. IgG).
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    P. micra interacts with PDLSCs through TmpC-integrin α v <t>β</t> <t>3</t> axis. ( A ) Schematic representation of His pull-down. ( B ) Co-IP assay showing the interaction between purified His-TmpC and integrin α v β 3 of PDLSCs. ( C ) Sensorgrams of integrin α v β 3 binding to immobilised TmpC and K D value. ( D ) The interaction between TmpC (blue), integrin α v (green) and integrin β 3 (red), as predicted by molecular docking. ( E–F ) Bacterial attachment assay revealing altered bacterial recovery rate in PDLSCs treated with siIntegrin α v+ β 3 ( E ) or Cyclo ( F ). ( G–H ) Flow cytometry showing the percentages of invaded PDLSCs treated with siIntegrin α v+ β 3 ( G ) or Cyclo ( H ). ( I ) Knockdown of integrin α v β 3 altered downstream pFAK and the activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra . β-actin was set as control. ( J ) Western blot showing altered activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra in PDLSCs pretreated with Cyclo. β-actin was set as control. ( K ) Representative image and quantification of ALP staining in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . ( L ) Representative image and quantification of ARS staining of PDLSCs with blocked TmpC-integrin α v β 3 interaction. ( M ) Western blot of Col1, ALPL, Runx2 in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . GAPDH was set as control. ( N ) Flow cytometric analysis of FDAA-labelled P. micra internalisation in Cyclo-pretreated PDLSCs. ( O ) Schematic diagram showing the experimental design and timeline of rat models infected with P. micra and/or treated with Cyclo. ( P ) Quantitative analyses of CEJ-ABC, BV/TV, BMD and Tb.Sp. of the alveolar bone. Data are represented as the mean ± SD of three independent experiments ( n = 3) in (E–N) and six independent experiments ( n = 6) in (P). P values were determined by two-tailed unpaired Student's t -test in (E–H) and one-way ANOVA test in (I–N, P). ∗, p < 0.05; ∗∗, p < 0.01; ∗∗∗, p < 0.001; ns, not significant.
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    P. micra interacts with PDLSCs through TmpC-integrin α v <t>β</t> <t>3</t> axis. ( A ) Schematic representation of His pull-down. ( B ) Co-IP assay showing the interaction between purified His-TmpC and integrin α v β 3 of PDLSCs. ( C ) Sensorgrams of integrin α v β 3 binding to immobilised TmpC and K D value. ( D ) The interaction between TmpC (blue), integrin α v (green) and integrin β 3 (red), as predicted by molecular docking. ( E–F ) Bacterial attachment assay revealing altered bacterial recovery rate in PDLSCs treated with siIntegrin α v+ β 3 ( E ) or Cyclo ( F ). ( G–H ) Flow cytometry showing the percentages of invaded PDLSCs treated with siIntegrin α v+ β 3 ( G ) or Cyclo ( H ). ( I ) Knockdown of integrin α v β 3 altered downstream pFAK and the activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra . β-actin was set as control. ( J ) Western blot showing altered activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra in PDLSCs pretreated with Cyclo. β-actin was set as control. ( K ) Representative image and quantification of ALP staining in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . ( L ) Representative image and quantification of ARS staining of PDLSCs with blocked TmpC-integrin α v β 3 interaction. ( M ) Western blot of Col1, ALPL, Runx2 in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . GAPDH was set as control. ( N ) Flow cytometric analysis of FDAA-labelled P. micra internalisation in Cyclo-pretreated PDLSCs. ( O ) Schematic diagram showing the experimental design and timeline of rat models infected with P. micra and/or treated with Cyclo. ( P ) Quantitative analyses of CEJ-ABC, BV/TV, BMD and Tb.Sp. of the alveolar bone. Data are represented as the mean ± SD of three independent experiments ( n = 3) in (E–N) and six independent experiments ( n = 6) in (P). P values were determined by two-tailed unpaired Student's t -test in (E–H) and one-way ANOVA test in (I–N, P). ∗, p < 0.05; ∗∗, p < 0.01; ∗∗∗, p < 0.001; ns, not significant.
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    P. micra interacts with PDLSCs through TmpC-integrin α v <t>β</t> <t>3</t> axis. ( A ) Schematic representation of His pull-down. ( B ) Co-IP assay showing the interaction between purified His-TmpC and integrin α v β 3 of PDLSCs. ( C ) Sensorgrams of integrin α v β 3 binding to immobilised TmpC and K D value. ( D ) The interaction between TmpC (blue), integrin α v (green) and integrin β 3 (red), as predicted by molecular docking. ( E–F ) Bacterial attachment assay revealing altered bacterial recovery rate in PDLSCs treated with siIntegrin α v+ β 3 ( E ) or Cyclo ( F ). ( G–H ) Flow cytometry showing the percentages of invaded PDLSCs treated with siIntegrin α v+ β 3 ( G ) or Cyclo ( H ). ( I ) Knockdown of integrin α v β 3 altered downstream pFAK and the activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra . β-actin was set as control. ( J ) Western blot showing altered activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra in PDLSCs pretreated with Cyclo. β-actin was set as control. ( K ) Representative image and quantification of ALP staining in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . ( L ) Representative image and quantification of ARS staining of PDLSCs with blocked TmpC-integrin α v β 3 interaction. ( M ) Western blot of Col1, ALPL, Runx2 in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . GAPDH was set as control. ( N ) Flow cytometric analysis of FDAA-labelled P. micra internalisation in Cyclo-pretreated PDLSCs. ( O ) Schematic diagram showing the experimental design and timeline of rat models infected with P. micra and/or treated with Cyclo. ( P ) Quantitative analyses of CEJ-ABC, BV/TV, BMD and Tb.Sp. of the alveolar bone. Data are represented as the mean ± SD of three independent experiments ( n = 3) in (E–N) and six independent experiments ( n = 6) in (P). P values were determined by two-tailed unpaired Student's t -test in (E–H) and one-way ANOVA test in (I–N, P). ∗, p < 0.05; ∗∗, p < 0.01; ∗∗∗, p < 0.001; ns, not significant.
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    Image Search Results


    MOP3 increases M2 activity and decreases M1 activity in an α v β 3 -dependent manner. Peritoneal macrophages from adult mice were treated with PBS or eCIRP (1 µg/mL) and MOP3 (10 µg/mL). Groups treated with eCIRP and MOP3 were pretreated with either IgG or α v β 3 antibody. Supernatant was collected at 24 h and measured for ( A ) IL-10 and ( B ) TNFα by ELISA. Data are expressed as mean ± SEM. Results were tested for normality by Shapiro–Wilk test and QQ plots. Results were evaluated by ANOVA and Tukey’s multiple-comparisons test (* p < 0.05 vs. PBS, # p < 0.05 vs. IgG).

    Journal: Cells

    Article Title: MFG-E8-Derived Oligopeptide MOP3 Facilitates Anti-Inflammatory M2-like Macrophage Polarization in Gut Ischemia/Reperfusion

    doi: 10.3390/cells15070606

    Figure Lengend Snippet: MOP3 increases M2 activity and decreases M1 activity in an α v β 3 -dependent manner. Peritoneal macrophages from adult mice were treated with PBS or eCIRP (1 µg/mL) and MOP3 (10 µg/mL). Groups treated with eCIRP and MOP3 were pretreated with either IgG or α v β 3 antibody. Supernatant was collected at 24 h and measured for ( A ) IL-10 and ( B ) TNFα by ELISA. Data are expressed as mean ± SEM. Results were tested for normality by Shapiro–Wilk test and QQ plots. Results were evaluated by ANOVA and Tukey’s multiple-comparisons test (* p < 0.05 vs. PBS, # p < 0.05 vs. IgG).

    Article Snippet: For cytokine detection experiments, separate groups of eCIRP and MOP3-treated cells were pretreated with IgG (10 μg/mL; bs-0295p; Bioss, Woburn, MA, USA) or α v β 3 polyclonal ab (10 μg/mL; cat. bs-1310r; Bioss).

    Techniques: Activity Assay, Enzyme-linked Immunosorbent Assay

    MOP3 clearance of eCIRP promotes M2 polarization of macrophages in mesenteric ischemia/reperfusion injury. MOP3 facilitates phagocytosis of eCIRP by macrophages via α v β 3 integrin, which leads to an increase in polarization toward M2 relative to M1. This phenomenon is demonstrated in mesenteric ischemia/reperfusion, improving healing while decreasing inflammation.

    Journal: Cells

    Article Title: MFG-E8-Derived Oligopeptide MOP3 Facilitates Anti-Inflammatory M2-like Macrophage Polarization in Gut Ischemia/Reperfusion

    doi: 10.3390/cells15070606

    Figure Lengend Snippet: MOP3 clearance of eCIRP promotes M2 polarization of macrophages in mesenteric ischemia/reperfusion injury. MOP3 facilitates phagocytosis of eCIRP by macrophages via α v β 3 integrin, which leads to an increase in polarization toward M2 relative to M1. This phenomenon is demonstrated in mesenteric ischemia/reperfusion, improving healing while decreasing inflammation.

    Article Snippet: For cytokine detection experiments, separate groups of eCIRP and MOP3-treated cells were pretreated with IgG (10 μg/mL; bs-0295p; Bioss, Woburn, MA, USA) or α v β 3 polyclonal ab (10 μg/mL; cat. bs-1310r; Bioss).

    Techniques:

    P. micra interacts with PDLSCs through TmpC-integrin α v β 3 axis. ( A ) Schematic representation of His pull-down. ( B ) Co-IP assay showing the interaction between purified His-TmpC and integrin α v β 3 of PDLSCs. ( C ) Sensorgrams of integrin α v β 3 binding to immobilised TmpC and K D value. ( D ) The interaction between TmpC (blue), integrin α v (green) and integrin β 3 (red), as predicted by molecular docking. ( E–F ) Bacterial attachment assay revealing altered bacterial recovery rate in PDLSCs treated with siIntegrin α v+ β 3 ( E ) or Cyclo ( F ). ( G–H ) Flow cytometry showing the percentages of invaded PDLSCs treated with siIntegrin α v+ β 3 ( G ) or Cyclo ( H ). ( I ) Knockdown of integrin α v β 3 altered downstream pFAK and the activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra . β-actin was set as control. ( J ) Western blot showing altered activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra in PDLSCs pretreated with Cyclo. β-actin was set as control. ( K ) Representative image and quantification of ALP staining in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . ( L ) Representative image and quantification of ARS staining of PDLSCs with blocked TmpC-integrin α v β 3 interaction. ( M ) Western blot of Col1, ALPL, Runx2 in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . GAPDH was set as control. ( N ) Flow cytometric analysis of FDAA-labelled P. micra internalisation in Cyclo-pretreated PDLSCs. ( O ) Schematic diagram showing the experimental design and timeline of rat models infected with P. micra and/or treated with Cyclo. ( P ) Quantitative analyses of CEJ-ABC, BV/TV, BMD and Tb.Sp. of the alveolar bone. Data are represented as the mean ± SD of three independent experiments ( n = 3) in (E–N) and six independent experiments ( n = 6) in (P). P values were determined by two-tailed unpaired Student's t -test in (E–H) and one-way ANOVA test in (I–N, P). ∗, p < 0.05; ∗∗, p < 0.01; ∗∗∗, p < 0.001; ns, not significant.

    Journal: eBioMedicine

    Article Title: Parvimonas micra exacerbates periodontitis by infiltrating host cells through TmpC and circumventing lysosomal elimination via AppA

    doi: 10.1016/j.ebiom.2026.106187

    Figure Lengend Snippet: P. micra interacts with PDLSCs through TmpC-integrin α v β 3 axis. ( A ) Schematic representation of His pull-down. ( B ) Co-IP assay showing the interaction between purified His-TmpC and integrin α v β 3 of PDLSCs. ( C ) Sensorgrams of integrin α v β 3 binding to immobilised TmpC and K D value. ( D ) The interaction between TmpC (blue), integrin α v (green) and integrin β 3 (red), as predicted by molecular docking. ( E–F ) Bacterial attachment assay revealing altered bacterial recovery rate in PDLSCs treated with siIntegrin α v+ β 3 ( E ) or Cyclo ( F ). ( G–H ) Flow cytometry showing the percentages of invaded PDLSCs treated with siIntegrin α v+ β 3 ( G ) or Cyclo ( H ). ( I ) Knockdown of integrin α v β 3 altered downstream pFAK and the activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra . β-actin was set as control. ( J ) Western blot showing altered activation of NF-κB and ERK1/2 signalling pathways triggered by P. micra in PDLSCs pretreated with Cyclo. β-actin was set as control. ( K ) Representative image and quantification of ALP staining in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . ( L ) Representative image and quantification of ARS staining of PDLSCs with blocked TmpC-integrin α v β 3 interaction. ( M ) Western blot of Col1, ALPL, Runx2 in Cyclo-pretreated PDLSCs infected with P. micra WT or P. micra ΔtmpC . GAPDH was set as control. ( N ) Flow cytometric analysis of FDAA-labelled P. micra internalisation in Cyclo-pretreated PDLSCs. ( O ) Schematic diagram showing the experimental design and timeline of rat models infected with P. micra and/or treated with Cyclo. ( P ) Quantitative analyses of CEJ-ABC, BV/TV, BMD and Tb.Sp. of the alveolar bone. Data are represented as the mean ± SD of three independent experiments ( n = 3) in (E–N) and six independent experiments ( n = 6) in (P). P values were determined by two-tailed unpaired Student's t -test in (E–H) and one-way ANOVA test in (I–N, P). ∗, p < 0.05; ∗∗, p < 0.01; ∗∗∗, p < 0.001; ns, not significant.

    Article Snippet: Commercially available integrin α v β 3 (R&D Systems, 3050-AV-050) was diluted in sodium acetate (pH 5.0) and passed over the sensor chip in various concentrations from 0 μM to 160 μM, with the 5 μM concentration as internal control.

    Techniques: Co-Immunoprecipitation Assay, Purification, Binding Assay, Flow Cytometry, Knockdown, Activation Assay, Control, Western Blot, Staining, Infection, Two Tailed Test