Integrin α9 regulates smooth muscle cell phenotype switching and vascular remodeling
Manish Jain, Rishabh Dev, Prakash Doddapattar, Shigeyuki Kon, Nirav Dhanesha, Anil K. Chauhan
Manish Jain, Rishabh Dev, Prakash Doddapattar, Shigeyuki Kon, Nirav Dhanesha, Anil K. Chauhan
View: Text | PDF
Research Article Vascular biology

Integrin α9 regulates smooth muscle cell phenotype switching and vascular remodeling

Abstract

Excessive proliferation of vascular smooth muscle cells (SMCs) remains a significant cause of in-stent restenosis. Integrins, which are heterodimeric transmembrane receptors, play a crucial role in SMC biology by binding to the extracellular matrix protein with the actin cytoskeleton within the SMC. Integrin α9 plays an important role in cell motility and autoimmune diseases; however, its role in SMC biology and remodeling remains unclear. Herein, we demonstrate that stimulated human coronary SMCs upregulate α9 expression. Targeting α9 in stimulated human coronary SMCs, using anti–integrin α9 antibody, suppresses synthetic phenotype and inhibits SMC proliferation and migration. To provide definitive evidence, we generated an SMC-specific α9-deficient mouse strain. Genetic ablation of α9 in SMCs suppressed synthetic phenotype and reduced proliferation and migration in vitro. Mechanistically, suppressed synthetic phenotype and reduced proliferation were associated with decreased focal adhesion kinase/steroid receptor coactivator signaling and downstream targets, including phosphorylated ERK, p38 MAPK, glycogen synthase kinase 3β, and nuclear β-catenin, with reduced transcriptional activation of β-catenin target genes. Following vascular injury, SMC-specific α9-deficient mice or wild-type mice treated with murine anti–integrin α9 antibody exhibited reduced injury-induced neointimal hyperplasia at day 28 by limiting SMC migration and proliferation. Our findings suggest that integrin α9 regulates SMC biology, suggesting its potential therapeutic application in vascular remodeling.

Authors

Manish Jain, Rishabh Dev, Prakash Doddapattar, Shigeyuki Kon, Nirav Dhanesha, Anil K. Chauhan

×

Figure 1

Integrin α9 is upregulated in stimulated human coronary SMCs, and treatment with anti–integrin α9 antibody suppresses synthetic phenotype and inhibits proliferation and migration.

Options: View larger image (or click on image) Download as PowerPoint
Integrin α9 is upregulated in stimulated human coronary SMCs, and treatm...
(A) Serum-starved human coronary SMCs were stimulated with or without PDGF-BB for indicated time points. Representative immunoblots and densitometric analysis of α9 and expression levels. β-Actin was used as a loading control (n = 5/group). (B) The left panels show representative double immunostaining for α9 (shown in red) and SMC actin (αSMA) (shown in green) in SMCs stimulated with or without PDGF-BB for 24 hours. Boxed regions are magnified (scale bars: 25 μm). Scale bars: 50 μm. The right panel shows the quantification of α9 fluorescence intensity (n = 6/group). (C and D) Quiescent human coronary SMCs were pretreated with anti-α9 blocking antibody (clone Y9A2, 10 μg/mL) for 60 minutes. (C) Human coronary SMCs were stimulated with PDGF-BB for 24 hours. The top panels show representative BrdU-positive cells (red) costained with αSMA (green) and Hoechst (blue). Scale bars: 50 μm. The bottom panels show representative phase-contrast images of SMC migration in the scratch assay. Scale bars: 500 μm. The right panel shows the quantification of BrdU-positive cells to the total number of cells (n = 6/group) and migrated area (n = 6/group). (D) Representative immunoblots and densitometric analysis of SM22α, SM-MHC, vimentin, and osteopontin (n = 6/ group) in human coronary SMCs stimulated with PDGF-BB for 24 hours. #1 and #2 represent 2 separate samples. Statistical analysis: (A) 1-way ANOVA with Bonferroni’s post hoc test; (C) 2-way ANOVA followed by uncorrected Fisher’s least significant differences (LSD) test (B and D) unpaired 2-tailed Student’s t test. *P < 0.05 vs. quiescent or vehicle-treated (control Ig) groups.