Abstract
To determine the mechanisms involved in regulating the balance between apoptosis and survival in vascular smooth muscle cells (VSMC), we studied anti-apoptotic stimuli that can counteract pro-apoptotic events in the process of early atherosclerotic lesions formation. Such a process involves VSMC accumulation even in the presence of oxidized low density lipoprotein (Ox-LDL). In the arch of the aorta, we find that integrin beta3 is higher than in descending arteries. In the advanced atherosclerosis lesion, we found an inverse correlation between the level of integrin beta3 and apoptosis (deoxynucleotidyltransferase-mediated dUTP nick end labeling-positive). We also found an increase in integrin alphaVbeta3 (but not integrin beta1) expression in VSMC that are subjected to cyclic stretch. VSMC subjected to stretch as well as VSMC with forced expression of alphaVbeta3 were demonstrated to be resistant to Ox-LDL-induced cytoskeleton disruption and apoptosis. The anti-apoptotic effect of stretch was abolished by treatment of VSMC with small interfering RNA against integrin beta3 as well as VSMC isolated from integrin beta3 knock-out mice. Disruption of the cytoskeleton abolished the protective effect of stretch or alphaVbeta3 overexpression on Ox-LDL-induced activation of Bax and apoptosis. We also demonstrated that stretch-mediated protection of Ox-LDL-induced apoptosis involved stabilization of PINCH-1; Ox-LDL decreased the level of PINCH-1, but the application of mechanical stretch or overexpression of either integrin beta1 or integrin beta3 prevented its down-regulation. In the arteries of integrin beta3 null mice, there were lower levels of PINCH-1 and ILK-1. Moreover, deletion of integrin beta3 in VSMC abolished the stretch protective effect on PINCH-1. Small interfering RNA-mediated knockdown of PINCH-1 disrupted the cytoskeleton and caused apoptosis of VSMC. These findings provided experimental evidence that mechanical stretch acted as a survival factor in the arches of aortas. Furthermore, mechanical stretch prevented VSMC from apoptosis via a mechanism that involves alphaVbeta3 integrin expression, stabilization of PINCH-1, and remodeling of the cytoskeleton.
Highlights
The atherosclerotic lesion is characterized by accumulation of vascular smooth muscle cells (VSMC),2 foam cells, and matrix protein and lipids in the intima [1]
To determine whether abnormal hemodynamics play a role in modulating integrin 3 expression, we studied cultured VSMC that were subjected to mechanical stretch
Our data show significant increase in integrin 3 expression in response to mechanical stretch of VSMC
Summary
The atherosclerotic lesion is characterized by accumulation of vascular smooth muscle cells (VSMC), foam cells, and matrix protein and lipids in the intima [1]. Abnormal hemodynamics increased the expression of the receptor for oxidized low density lipoprotein (Ox-LDL) in endothelial cells [5]. The increase in these receptors leads to accumulation of Ox-LDL [6, 7]. There was a significant correlation between Ox-LDL and VSMC apoptosis, but in the early atherosclerotic lesion, apoptotic cell death was almost absent [6, 7]. We uncovered a novel signaling mechanism by which expression of integrin ␣V3 integrin suppresses Ox-LDL-induced apoptosis. The novel pathway involves an integrin ␣V3-dependent stabilization of PINCH-1, a survival protein that is linked with integrin and the cytoskeleton (10 –12). We established that stabilization of PINCH-1 prevented disruption of the cytoskeleton and suppressed the activation of Bax
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