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p38 mapk inhibitor sb203580  (Cayman Chemical)

 
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    Cayman Chemical p38 mapk inhibitor sb203580
    Effects of fisetin on <t>p38</t> <t>MAPK</t> phosphorylation in VSMCs during pro-calcific conditions. Representative Western blots and normalized phospho-p38 and total <t>p38</t> <t>MAPK</t> protein abundance (n=5) in HAoSMCs treated for 30 min with control (CTR) or calcification medium (Calc.) without and with 1 μM fisetin (Fis). *(p<0.05) significant vs. control group; †(p<0.05) significant vs. Calc.-treated group.
    P38 Mapk Inhibitor Sb203580, supplied by Cayman Chemical, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Images

    1) Product Images from "Fisetin ameliorates vascular smooth muscle cell calcification via DUSP1-dependent p38 MAPK inhibition"

    Article Title: Fisetin ameliorates vascular smooth muscle cell calcification via DUSP1-dependent p38 MAPK inhibition

    Journal: Aging (Albany NY)

    doi: 10.18632/aging.206233

    Effects of fisetin on p38 MAPK phosphorylation in VSMCs during pro-calcific conditions. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=5) in HAoSMCs treated for 30 min with control (CTR) or calcification medium (Calc.) without and with 1 μM fisetin (Fis). *(p<0.05) significant vs. control group; †(p<0.05) significant vs. Calc.-treated group.
    Figure Legend Snippet: Effects of fisetin on p38 MAPK phosphorylation in VSMCs during pro-calcific conditions. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=5) in HAoSMCs treated for 30 min with control (CTR) or calcification medium (Calc.) without and with 1 μM fisetin (Fis). *(p<0.05) significant vs. control group; †(p<0.05) significant vs. Calc.-treated group.

    Techniques Used: Phospho-proteomics, Western Blot, Quantitative Proteomics, Control

    Role of p38 MAPK in dual-specificity phosphatase 1 knockdown-induced calcific marker expression in VSMCs. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=4, A ) in HAoSMCs transfected for 24h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA. Relative mRNA expression (n=8) of DUSP1 ( B ), BMP2 ( C ), CBFA1 ( D ), ALPL ( E ) and CDKN1A ( F ) in HAoSMCs transfected for 72h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA and treated without and with 10 μM p38 MAPK inhibitor SB203580 (SB). *(p<0.05), **(p<0.01), ***(p<0.001) significant vs. Neg.si group; †(p<0.05), ††(p<0.01), †††(p<0.001) significant vs. DUSP1si group.
    Figure Legend Snippet: Role of p38 MAPK in dual-specificity phosphatase 1 knockdown-induced calcific marker expression in VSMCs. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=4, A ) in HAoSMCs transfected for 24h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA. Relative mRNA expression (n=8) of DUSP1 ( B ), BMP2 ( C ), CBFA1 ( D ), ALPL ( E ) and CDKN1A ( F ) in HAoSMCs transfected for 72h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA and treated without and with 10 μM p38 MAPK inhibitor SB203580 (SB). *(p<0.05), **(p<0.01), ***(p<0.001) significant vs. Neg.si group; †(p<0.05), ††(p<0.01), †††(p<0.001) significant vs. DUSP1si group.

    Techniques Used: Knockdown, Marker, Expressing, Western Blot, Quantitative Proteomics, Transfection, Negative Control

    Schematic illustration of mechanisms involved in the protective effects of fisetin during VSMC calcification. Mineral stress with disturbed phosphate and calcium homeostasis may trigger activation of pro-calcific signaling including phosphorylation and activation of p38 MAPK in VSMCs, which leads to a pro-calcific environment causing vascular calcification. Fisetin, a natural flavonol, induces the dual-specificity phosphatase 1 (DUSP1). Fisetin thereby inactivates p38 MAPK signaling through DUSP1 and inhibits further pro-calcific signaling and calcification of VSMCs.
    Figure Legend Snippet: Schematic illustration of mechanisms involved in the protective effects of fisetin during VSMC calcification. Mineral stress with disturbed phosphate and calcium homeostasis may trigger activation of pro-calcific signaling including phosphorylation and activation of p38 MAPK in VSMCs, which leads to a pro-calcific environment causing vascular calcification. Fisetin, a natural flavonol, induces the dual-specificity phosphatase 1 (DUSP1). Fisetin thereby inactivates p38 MAPK signaling through DUSP1 and inhibits further pro-calcific signaling and calcification of VSMCs.

    Techniques Used: Activation Assay, Phospho-proteomics



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    (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Subsequently, whole cell lysates were collected and subjected to western blot analysis. The phosphorylation of PI3K, AKT, NF-κB, <t>p38</t> MAPK, and ERK was detected using specific antibodies. (B) Quantification of protein bands from (A) using Image J. (C) Immunofluorescence analysis was performed to detect the localization of NF-κB in Ect treated with TV-EVs compared with the PBS-treated control (Ctrl) using an antibody against NF-κB (green), followed by visualization under a confocal microscope. Nuclei were stained with DAPI (blue). Scale bar: 10 µm. (D) Ect were pretreated with the PI3K inhibitor, wortmannin, and then co-cultured with TV-EVs isolated from different strains for 4 hours. The cells were collected and analyzed by western blot analysis using anti-p-PI3K, anti-p-AKT, <t>anti-p-p38</t> <t>MAPK,</t> and anti-p-ERK antibodies. The protein bands were quantified as mentioned above. (E) Ect (4 × 10 4 cells) were pretreated with the PI3K inhibitor wortmannin and then co-cultured with TV-EVs for 4 hours. Immunofluorescence analysis was performed using an anti-NF-κB antibody (green). Nuclei were stained with DAPI (blue). Scale bar:10 µm. (F) Ect (2 × 10 5 cells/well) were pretreated with pathway inhibitors, including NF-κB (BAY 11-7082), <t>p38</t> <t>MAPK</t> <t>(SB203580),</t> or ERK (PD98059), followed by treatment with TV-EVs isolated from different strains (ATCC 30236, ATCC 50143, and NDMC5) for 8 hours. The culture supernatants were collected and assayed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The protein expression of β-actin was used as the internal control for western blot analysis. The quantitative data are expressed as the means ± SEM from three independent experiments. * p < 0.05, ** p < 0.01, *** p < 0.001.
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    (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Subsequently, whole cell lysates were collected and subjected to western blot analysis. The phosphorylation of PI3K, AKT, NF-κB, <t>p38</t> MAPK, and ERK was detected using specific antibodies. (B) Quantification of protein bands from (A) using Image J. (C) Immunofluorescence analysis was performed to detect the localization of NF-κB in Ect treated with TV-EVs compared with the PBS-treated control (Ctrl) using an antibody against NF-κB (green), followed by visualization under a confocal microscope. Nuclei were stained with DAPI (blue). Scale bar: 10 µm. (D) Ect were pretreated with the PI3K inhibitor, wortmannin, and then co-cultured with TV-EVs isolated from different strains for 4 hours. The cells were collected and analyzed by western blot analysis using anti-p-PI3K, anti-p-AKT, <t>anti-p-p38</t> <t>MAPK,</t> and anti-p-ERK antibodies. The protein bands were quantified as mentioned above. (E) Ect (4 × 10 4 cells) were pretreated with the PI3K inhibitor wortmannin and then co-cultured with TV-EVs for 4 hours. Immunofluorescence analysis was performed using an anti-NF-κB antibody (green). Nuclei were stained with DAPI (blue). Scale bar:10 µm. (F) Ect (2 × 10 5 cells/well) were pretreated with pathway inhibitors, including NF-κB (BAY 11-7082), <t>p38</t> <t>MAPK</t> <t>(SB203580),</t> or ERK (PD98059), followed by treatment with TV-EVs isolated from different strains (ATCC 30236, ATCC 50143, and NDMC5) for 8 hours. The culture supernatants were collected and assayed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The protein expression of β-actin was used as the internal control for western blot analysis. The quantitative data are expressed as the means ± SEM from three independent experiments. * p < 0.05, ** p < 0.01, *** p < 0.001.
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    (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Subsequently, whole cell lysates were collected and subjected to western blot analysis. The phosphorylation of PI3K, AKT, NF-κB, <t>p38</t> MAPK, and ERK was detected using specific antibodies. (B) Quantification of protein bands from (A) using Image J. (C) Immunofluorescence analysis was performed to detect the localization of NF-κB in Ect treated with TV-EVs compared with the PBS-treated control (Ctrl) using an antibody against NF-κB (green), followed by visualization under a confocal microscope. Nuclei were stained with DAPI (blue). Scale bar: 10 µm. (D) Ect were pretreated with the PI3K inhibitor, wortmannin, and then co-cultured with TV-EVs isolated from different strains for 4 hours. The cells were collected and analyzed by western blot analysis using anti-p-PI3K, anti-p-AKT, <t>anti-p-p38</t> <t>MAPK,</t> and anti-p-ERK antibodies. The protein bands were quantified as mentioned above. (E) Ect (4 × 10 4 cells) were pretreated with the PI3K inhibitor wortmannin and then co-cultured with TV-EVs for 4 hours. Immunofluorescence analysis was performed using an anti-NF-κB antibody (green). Nuclei were stained with DAPI (blue). Scale bar:10 µm. (F) Ect (2 × 10 5 cells/well) were pretreated with pathway inhibitors, including NF-κB (BAY 11-7082), <t>p38</t> <t>MAPK</t> <t>(SB203580),</t> or ERK (PD98059), followed by treatment with TV-EVs isolated from different strains (ATCC 30236, ATCC 50143, and NDMC5) for 8 hours. The culture supernatants were collected and assayed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The protein expression of β-actin was used as the internal control for western blot analysis. The quantitative data are expressed as the means ± SEM from three independent experiments. * p < 0.05, ** p < 0.01, *** p < 0.001.
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    (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Subsequently, whole cell lysates were collected and subjected to western blot analysis. The phosphorylation of PI3K, AKT, NF-κB, <t>p38</t> MAPK, and ERK was detected using specific antibodies. (B) Quantification of protein bands from (A) using Image J. (C) Immunofluorescence analysis was performed to detect the localization of NF-κB in Ect treated with TV-EVs compared with the PBS-treated control (Ctrl) using an antibody against NF-κB (green), followed by visualization under a confocal microscope. Nuclei were stained with DAPI (blue). Scale bar: 10 µm. (D) Ect were pretreated with the PI3K inhibitor, wortmannin, and then co-cultured with TV-EVs isolated from different strains for 4 hours. The cells were collected and analyzed by western blot analysis using anti-p-PI3K, anti-p-AKT, <t>anti-p-p38</t> <t>MAPK,</t> and anti-p-ERK antibodies. The protein bands were quantified as mentioned above. (E) Ect (4 × 10 4 cells) were pretreated with the PI3K inhibitor wortmannin and then co-cultured with TV-EVs for 4 hours. Immunofluorescence analysis was performed using an anti-NF-κB antibody (green). Nuclei were stained with DAPI (blue). Scale bar:10 µm. (F) Ect (2 × 10 5 cells/well) were pretreated with pathway inhibitors, including NF-κB (BAY 11-7082), <t>p38</t> <t>MAPK</t> <t>(SB203580),</t> or ERK (PD98059), followed by treatment with TV-EVs isolated from different strains (ATCC 30236, ATCC 50143, and NDMC5) for 8 hours. The culture supernatants were collected and assayed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The protein expression of β-actin was used as the internal control for western blot analysis. The quantitative data are expressed as the means ± SEM from three independent experiments. * p < 0.05, ** p < 0.01, *** p < 0.001.
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    Effects of fisetin on <t>p38</t> <t>MAPK</t> phosphorylation in VSMCs during pro-calcific conditions. Representative Western blots and normalized phospho-p38 and total <t>p38</t> <t>MAPK</t> protein abundance (n=5) in HAoSMCs treated for 30 min with control (CTR) or calcification medium (Calc.) without and with 1 μM fisetin (Fis). *(p<0.05) significant vs. control group; †(p<0.05) significant vs. Calc.-treated group.
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    (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Subsequently, whole cell lysates were collected and subjected to western blot analysis. The phosphorylation of PI3K, AKT, NF-κB, p38 MAPK, and ERK was detected using specific antibodies. (B) Quantification of protein bands from (A) using Image J. (C) Immunofluorescence analysis was performed to detect the localization of NF-κB in Ect treated with TV-EVs compared with the PBS-treated control (Ctrl) using an antibody against NF-κB (green), followed by visualization under a confocal microscope. Nuclei were stained with DAPI (blue). Scale bar: 10 µm. (D) Ect were pretreated with the PI3K inhibitor, wortmannin, and then co-cultured with TV-EVs isolated from different strains for 4 hours. The cells were collected and analyzed by western blot analysis using anti-p-PI3K, anti-p-AKT, anti-p-p38 MAPK, and anti-p-ERK antibodies. The protein bands were quantified as mentioned above. (E) Ect (4 × 10 4 cells) were pretreated with the PI3K inhibitor wortmannin and then co-cultured with TV-EVs for 4 hours. Immunofluorescence analysis was performed using an anti-NF-κB antibody (green). Nuclei were stained with DAPI (blue). Scale bar:10 µm. (F) Ect (2 × 10 5 cells/well) were pretreated with pathway inhibitors, including NF-κB (BAY 11-7082), p38 MAPK (SB203580), or ERK (PD98059), followed by treatment with TV-EVs isolated from different strains (ATCC 30236, ATCC 50143, and NDMC5) for 8 hours. The culture supernatants were collected and assayed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The protein expression of β-actin was used as the internal control for western blot analysis. The quantitative data are expressed as the means ± SEM from three independent experiments. * p < 0.05, ** p < 0.01, *** p < 0.001.

    Journal: PLOS Pathogens

    Article Title: Trichomonas vaginalis extracellular vesicles activate the NLRP3 inflammasome and TLR3-mediated inflammatory cascades in host cells

    doi: 10.1371/journal.ppat.1013216

    Figure Lengend Snippet: (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Subsequently, whole cell lysates were collected and subjected to western blot analysis. The phosphorylation of PI3K, AKT, NF-κB, p38 MAPK, and ERK was detected using specific antibodies. (B) Quantification of protein bands from (A) using Image J. (C) Immunofluorescence analysis was performed to detect the localization of NF-κB in Ect treated with TV-EVs compared with the PBS-treated control (Ctrl) using an antibody against NF-κB (green), followed by visualization under a confocal microscope. Nuclei were stained with DAPI (blue). Scale bar: 10 µm. (D) Ect were pretreated with the PI3K inhibitor, wortmannin, and then co-cultured with TV-EVs isolated from different strains for 4 hours. The cells were collected and analyzed by western blot analysis using anti-p-PI3K, anti-p-AKT, anti-p-p38 MAPK, and anti-p-ERK antibodies. The protein bands were quantified as mentioned above. (E) Ect (4 × 10 4 cells) were pretreated with the PI3K inhibitor wortmannin and then co-cultured with TV-EVs for 4 hours. Immunofluorescence analysis was performed using an anti-NF-κB antibody (green). Nuclei were stained with DAPI (blue). Scale bar:10 µm. (F) Ect (2 × 10 5 cells/well) were pretreated with pathway inhibitors, including NF-κB (BAY 11-7082), p38 MAPK (SB203580), or ERK (PD98059), followed by treatment with TV-EVs isolated from different strains (ATCC 30236, ATCC 50143, and NDMC5) for 8 hours. The culture supernatants were collected and assayed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The protein expression of β-actin was used as the internal control for western blot analysis. The quantitative data are expressed as the means ± SEM from three independent experiments. * p < 0.05, ** p < 0.01, *** p < 0.001.

    Article Snippet: To inhibit the TLR3, PI3K, p38 MAPK, ERK, and NF-κB pathways, Ect (2 × 10 6 cells) were pretreated with 100 μM TLR3 inhibitor 614310 (Sigma-Aldrich, USA), 10 μM PI3K inhibitor wortmannin (Sigma-Aldrich, USA), 10 μM p38 MAPK inhibitor SB203580 (InvivoGen, USA), 50μM ERK inhibitor PD98059 (Sigma-Aldrich, USA) or 100 μM NF-κB inhibitor BAY 11–7082 (Sigma-Aldrich, USA), respectively, for 1 hour in serum-free medium.

    Techniques: Control, Western Blot, Phospho-proteomics, Immunofluorescence, Microscopy, Staining, Cell Culture, Isolation, Enzyme-linked Immunosorbent Assay, Positive Control, Expressing

    (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Whole cell lysates were collected and analyzed by western blot using an anti-TLR3 antibody. Quantification of protein bands using Image J. (B) Ect were pretreated with the TLR3 inhibitor (614310) or siRNA targeting TLR3 (si-TLR3) and then co-cultured with TV-EVs for 4 hours, and the protein expression levels of TLR3, p-PI3K, p-NF-κB, p-ERK, and p-p38 MAPK were analyzed using specific antibodies. (C) Quantification of protein bands from (B) using Image J. (D) Ect (2 × 10 5 cells/well) were pretreated with the TLR3 inhibitor or si-TLR3, then co-cultured with TV-EVs from different isolates for 8 hours. The culture supernatants were collected and analyzed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The data are expressed as the means ± SEM from three independent experiments.* p < 0.05, ** p < 0.01, *** p < 0.001.

    Journal: PLOS Pathogens

    Article Title: Trichomonas vaginalis extracellular vesicles activate the NLRP3 inflammasome and TLR3-mediated inflammatory cascades in host cells

    doi: 10.1371/journal.ppat.1013216

    Figure Lengend Snippet: (A) Ect (2 × 10 6 cells) were treated with the PBS control (Ctrl) or TV-EVs (ATCC 50143) for 2, 4, 6, 8, and 10 hours. Whole cell lysates were collected and analyzed by western blot using an anti-TLR3 antibody. Quantification of protein bands using Image J. (B) Ect were pretreated with the TLR3 inhibitor (614310) or siRNA targeting TLR3 (si-TLR3) and then co-cultured with TV-EVs for 4 hours, and the protein expression levels of TLR3, p-PI3K, p-NF-κB, p-ERK, and p-p38 MAPK were analyzed using specific antibodies. (C) Quantification of protein bands from (B) using Image J. (D) Ect (2 × 10 5 cells/well) were pretreated with the TLR3 inhibitor or si-TLR3, then co-cultured with TV-EVs from different isolates for 8 hours. The culture supernatants were collected and analyzed for IL-6, IL-8, and CXCL1 by ELISA. Ect treated with the PBS control (Ctrl) and TV-EVs isolated from different strains (50143-EV and NDMC5-EV) were served as a negative and positive control, respectively. The data are expressed as the means ± SEM from three independent experiments.* p < 0.05, ** p < 0.01, *** p < 0.001.

    Article Snippet: To inhibit the TLR3, PI3K, p38 MAPK, ERK, and NF-κB pathways, Ect (2 × 10 6 cells) were pretreated with 100 μM TLR3 inhibitor 614310 (Sigma-Aldrich, USA), 10 μM PI3K inhibitor wortmannin (Sigma-Aldrich, USA), 10 μM p38 MAPK inhibitor SB203580 (InvivoGen, USA), 50μM ERK inhibitor PD98059 (Sigma-Aldrich, USA) or 100 μM NF-κB inhibitor BAY 11–7082 (Sigma-Aldrich, USA), respectively, for 1 hour in serum-free medium.

    Techniques: Control, Western Blot, Cell Culture, Expressing, Enzyme-linked Immunosorbent Assay, Isolation, Positive Control

    In THP-1 macrophages, TV-EVs activate the TLR3-mediated NF-κB/NLRP3 pathway, inducing the secretion of IL-8, MIP-1β, CXCL1, and IL-1β. In Ect, TV-EVs activate PI3K signaling to positively regulate the NF-κB, p38 MAPK, and ERK pathways, inducing the secretion of IL-6, IL-8, and CXCL1. Specifically, TV-EV-induced TLR3 overexpression in Ect upregulates PI3K and NF-κB pathways while downregulating the p38 MAPK and ERK pathways. Furthermore, proteomic analysis identifies that TV-EVs induce overexpression of MICB and TRAF3IP2 in Ect, which are positively regulated by TLR3. MICB enhances PI3K-mediated activation of the NF-κB and ERK pathways, while TRAF3IP2 activates PI3K signaling but suppresses the ERK pathway.

    Journal: PLOS Pathogens

    Article Title: Trichomonas vaginalis extracellular vesicles activate the NLRP3 inflammasome and TLR3-mediated inflammatory cascades in host cells

    doi: 10.1371/journal.ppat.1013216

    Figure Lengend Snippet: In THP-1 macrophages, TV-EVs activate the TLR3-mediated NF-κB/NLRP3 pathway, inducing the secretion of IL-8, MIP-1β, CXCL1, and IL-1β. In Ect, TV-EVs activate PI3K signaling to positively regulate the NF-κB, p38 MAPK, and ERK pathways, inducing the secretion of IL-6, IL-8, and CXCL1. Specifically, TV-EV-induced TLR3 overexpression in Ect upregulates PI3K and NF-κB pathways while downregulating the p38 MAPK and ERK pathways. Furthermore, proteomic analysis identifies that TV-EVs induce overexpression of MICB and TRAF3IP2 in Ect, which are positively regulated by TLR3. MICB enhances PI3K-mediated activation of the NF-κB and ERK pathways, while TRAF3IP2 activates PI3K signaling but suppresses the ERK pathway.

    Article Snippet: To inhibit the TLR3, PI3K, p38 MAPK, ERK, and NF-κB pathways, Ect (2 × 10 6 cells) were pretreated with 100 μM TLR3 inhibitor 614310 (Sigma-Aldrich, USA), 10 μM PI3K inhibitor wortmannin (Sigma-Aldrich, USA), 10 μM p38 MAPK inhibitor SB203580 (InvivoGen, USA), 50μM ERK inhibitor PD98059 (Sigma-Aldrich, USA) or 100 μM NF-κB inhibitor BAY 11–7082 (Sigma-Aldrich, USA), respectively, for 1 hour in serum-free medium.

    Techniques: Over Expression, Activation Assay

    Effects of fisetin on p38 MAPK phosphorylation in VSMCs during pro-calcific conditions. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=5) in HAoSMCs treated for 30 min with control (CTR) or calcification medium (Calc.) without and with 1 μM fisetin (Fis). *(p<0.05) significant vs. control group; †(p<0.05) significant vs. Calc.-treated group.

    Journal: Aging (Albany NY)

    Article Title: Fisetin ameliorates vascular smooth muscle cell calcification via DUSP1-dependent p38 MAPK inhibition

    doi: 10.18632/aging.206233

    Figure Lengend Snippet: Effects of fisetin on p38 MAPK phosphorylation in VSMCs during pro-calcific conditions. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=5) in HAoSMCs treated for 30 min with control (CTR) or calcification medium (Calc.) without and with 1 μM fisetin (Fis). *(p<0.05) significant vs. control group; †(p<0.05) significant vs. Calc.-treated group.

    Article Snippet: HAoSMCs were treated for the indicated times with 10 mM β-glycerophosphate and 1.5 mM CaCl 2 (Sigma Aldrich) as calcification medium [ ], 1 μM or the indicated concentrations of fisetin (stock in DMSO, HY-N0182, MedChemExpress), 10 μM of p38 MAPK inhibitor SB203580 (stock in DMSO, 13067, Cayman Chemical) [ ] and 1 μM of p44/42 MAPK inhibitor LY3214996 (stock in DMSO, HY-101494, MedChemExpress) [ ].

    Techniques: Phospho-proteomics, Western Blot, Quantitative Proteomics, Control

    Role of p38 MAPK in dual-specificity phosphatase 1 knockdown-induced calcific marker expression in VSMCs. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=4, A ) in HAoSMCs transfected for 24h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA. Relative mRNA expression (n=8) of DUSP1 ( B ), BMP2 ( C ), CBFA1 ( D ), ALPL ( E ) and CDKN1A ( F ) in HAoSMCs transfected for 72h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA and treated without and with 10 μM p38 MAPK inhibitor SB203580 (SB). *(p<0.05), **(p<0.01), ***(p<0.001) significant vs. Neg.si group; †(p<0.05), ††(p<0.01), †††(p<0.001) significant vs. DUSP1si group.

    Journal: Aging (Albany NY)

    Article Title: Fisetin ameliorates vascular smooth muscle cell calcification via DUSP1-dependent p38 MAPK inhibition

    doi: 10.18632/aging.206233

    Figure Lengend Snippet: Role of p38 MAPK in dual-specificity phosphatase 1 knockdown-induced calcific marker expression in VSMCs. Representative Western blots and normalized phospho-p38 and total p38 MAPK protein abundance (n=4, A ) in HAoSMCs transfected for 24h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA. Relative mRNA expression (n=8) of DUSP1 ( B ), BMP2 ( C ), CBFA1 ( D ), ALPL ( E ) and CDKN1A ( F ) in HAoSMCs transfected for 72h with negative control (Neg.si) or DUSP1 (DUSP1si) siRNA and treated without and with 10 μM p38 MAPK inhibitor SB203580 (SB). *(p<0.05), **(p<0.01), ***(p<0.001) significant vs. Neg.si group; †(p<0.05), ††(p<0.01), †††(p<0.001) significant vs. DUSP1si group.

    Article Snippet: HAoSMCs were treated for the indicated times with 10 mM β-glycerophosphate and 1.5 mM CaCl 2 (Sigma Aldrich) as calcification medium [ ], 1 μM or the indicated concentrations of fisetin (stock in DMSO, HY-N0182, MedChemExpress), 10 μM of p38 MAPK inhibitor SB203580 (stock in DMSO, 13067, Cayman Chemical) [ ] and 1 μM of p44/42 MAPK inhibitor LY3214996 (stock in DMSO, HY-101494, MedChemExpress) [ ].

    Techniques: Knockdown, Marker, Expressing, Western Blot, Quantitative Proteomics, Transfection, Negative Control

    Schematic illustration of mechanisms involved in the protective effects of fisetin during VSMC calcification. Mineral stress with disturbed phosphate and calcium homeostasis may trigger activation of pro-calcific signaling including phosphorylation and activation of p38 MAPK in VSMCs, which leads to a pro-calcific environment causing vascular calcification. Fisetin, a natural flavonol, induces the dual-specificity phosphatase 1 (DUSP1). Fisetin thereby inactivates p38 MAPK signaling through DUSP1 and inhibits further pro-calcific signaling and calcification of VSMCs.

    Journal: Aging (Albany NY)

    Article Title: Fisetin ameliorates vascular smooth muscle cell calcification via DUSP1-dependent p38 MAPK inhibition

    doi: 10.18632/aging.206233

    Figure Lengend Snippet: Schematic illustration of mechanisms involved in the protective effects of fisetin during VSMC calcification. Mineral stress with disturbed phosphate and calcium homeostasis may trigger activation of pro-calcific signaling including phosphorylation and activation of p38 MAPK in VSMCs, which leads to a pro-calcific environment causing vascular calcification. Fisetin, a natural flavonol, induces the dual-specificity phosphatase 1 (DUSP1). Fisetin thereby inactivates p38 MAPK signaling through DUSP1 and inhibits further pro-calcific signaling and calcification of VSMCs.

    Article Snippet: HAoSMCs were treated for the indicated times with 10 mM β-glycerophosphate and 1.5 mM CaCl 2 (Sigma Aldrich) as calcification medium [ ], 1 μM or the indicated concentrations of fisetin (stock in DMSO, HY-N0182, MedChemExpress), 10 μM of p38 MAPK inhibitor SB203580 (stock in DMSO, 13067, Cayman Chemical) [ ] and 1 μM of p44/42 MAPK inhibitor LY3214996 (stock in DMSO, HY-101494, MedChemExpress) [ ].

    Techniques: Activation Assay, Phospho-proteomics