Genomic profiling of acquired resistance to apoptosis in cells derived from human atherosclerotic lesions: Potential role of STATs, cyclinD1, BAD, and Bcl-XL

Document Type

Journal Article

Publication Date

9-1-2005

Journal

Journal of Molecular and Cellular Cardiology

Volume

39

Issue

3

DOI

10.1016/j.yjmcc.2005.01.015

Keywords

Apoptosis; Atherosclerosis; BAD; Bcl-xL; Caspase; Cyclin D1; Restenosis; STAT; Transcript profiling

Abstract

Current theories suggest that atherosclerosis, plaque rupture, stroke, and restenosis after angioplasty may involve defective apoptotic mechanisms in vascular cells. Prior work has demonstrated that cells from human atherosclerotic lesions, and cells from the aorta of aged rats, exhibit functional resistance to apoptosis induced by TGF-β and glucocorticoids. The present studies demonstrate that human lesion-derived cells (LDC) are also resistant to apoptosis induced by fas ligation compared to cells derived from the adjacent media, and that in vitro expansion of LDC causes acquired resistance to apoptosis. Microarray profiling of fas-resistant versus sensitive cells identified a set of genes including STATs, caspase 1, cyclin D1, Bcl-xL, VDAC2, and BAD. The STAT proteins have been implicated in resistance to apoptosis, potentially via their ability to modulate caspase 1 (ICE), Bcl-xL, and cyclin D1 expression. Western blot analysis of sensitive and resistant LDC clonal lines confirmed increases in cyclin D1, STAT6, Bcl-xL, and BAD, with decreased expression of caspase 1. Thus, transcript profiling has identified a potential pathway of apoptotic regulation in subsets of lesion cells. The resistant phenotype may contribute to plaque stability and excessive vascular repair, while sensitive cells may be involved in plaque rupture and infarction. The data suggests both genetic interventions and novel small-molecule inhibitors that may be effective modulators of apoptosis in atherosclerosis, angina, and in-stent restenosis. © 2005 Elsevier Ltd. All rights reserved.

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