Vascular Smooth Muscle Cells Undergo Telomere-Based Senescence in Human Atherosclerosis. Effects of Telomerase and Oxidative Stress

doi:10.1161/01.RES.0000233315.38086.bc

Circulation Research. 2006
Published online before print June 22, 2006, doi: 10.1161/01.RES.0000233315.38086.bc

A more recent version of this article appeared on July 21, 2006

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	Cell biology/structural biology
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Submitted on March 17, 2006
Revised on June 7, 2006
Accepted on June 9, 2006

Vascular Smooth Muscle Cells Undergo Telomere-Based Senescence in Human Atherosclerosis. Effects of Telomerase and Oxidative Stress

Charles Matthews ; Isabelle Gorenne ; Stephen Scott ; Nicola Figg ; Peter Kirkpatrick ; Andrew Ritchie ; Martin Goddard ; and Martin Bennett ^*

From the Division of Cardiovascular Medicine (C.M., I.G., S.S., N.F., M.B.) and Department of Surgery (P.K.), University of Cambridge, Addenbrooke’s Hospital; and Papworth Hospital (A.R., M.G.), Cambridge, UK.

^* To whom correspondence should be addressed. E-mail: mrb{at}mole.bio.cam.ac.uk.

Although human atherosclerosis is associated with aging, directevidence of cellular senescence and the mechanism of senescencein vascular smooth muscle cells (VSMCs) in atherosclerotic plaquesis lacking. We examined normal vessels and plaques by histochemistry,Southern blotting, and fluorescence in situ hybridization fortelomere signals. VSMCs in fibrous caps expressed markers ofsenescence (senescence-associated ${beta}$ -galactosidase [SA ${beta}$ G] and thecyclin-dependent kinase inhibitors [cdkis] p16 and p21) notseen in normal vessels. In matched samples from the same individual,plaques demonstrated markedly shorter telomeres than normalvessels. Fibrous cap VSMCs exhibited markedly shorter telomerescompared with normal medial VSMCs. Telomere shortening was closelyassociated with increasing severity of atherosclerosis. In vitro,plaque VSMCs demonstrated morphological features of senescence,increased SA ${beta}$ G expression, reduced proliferation, and prematuresenescence. VSMC senescence was mediated by changes in cyclinsD/E, p16, p21, and pRB, and plaque VSMCs could reenter the cellcycle by hyperphosphorylating pRB. Both plaque and normal VSMCsexpressed low levels of telomerase. However, telomerase expressionalone rescued plaque VSMC senescence despite short telomeres,normalizing the cdki/pRB changes. In vivo, plaque VSMCs exhibitedoxidative DNA damage, suggesting that telomere damage may beinduced by oxidant stress. Furthermore, oxidants induced prematuresenescence in vitro, with accelerated telomere shortening andreduced telomerase activity. We conclude that human atherosclerosisis characterized by senescence of VSMCs, accelerated by oxidativestress-induced DNA damage, inhibition of telomerase and markedtelomere shortening. Prevention of cellular senescence may bea novel therapeutic target in atherosclerosis.

Key words: atherosclerosis • smooth muscle • aging

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