CX3CR1 Deficiency Impairs Dendritic Cell Accumulation in Arterial Intima and Reduces Atherosclerotic Burden

doi:10.1161/ATVBAHA.107.158675

Published Online
on December 13, 2007

Arteriosclerosis, Thrombosis, and Vascular Biology. 2007
Published online before print December 13, 2007, doi: 10.1161/ATVBAHA.107.158675

A more recent version of this article appeared on February 1, 2008

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Submitted on May 5, 2007
Accepted on December 1, 2007

CX₃CR1 Deficiency Impairs Dendritic Cell Accumulation in Arterial Intima and Reduces Atherosclerotic Burden

Peng Liu ^*; Yen-Rei A. Yu ; Jessica A. Spencer ; Ashley E. Johnson ; Christopher T. Vallanat ; Alan M. Fong ; Cam Patterson ; and Dhavalkumar D. Patel

From the Thurston Arthritis Research Center and Department of Medicine (P.L., Y.-R.A.Y., J.A.S., A.E.J., C.T.V., A.M.F., D.D.P.) and the Carolina Cardiovascular Biology Center and Division of Cardiology (C.P.), University of North Carolina at Chapel Hill School of Medicine, Chapel Hill, NC; and the Novartis Institutes for BioMedical Research (D.D.P.), Basel, Switzerland.

^* To whom correspondence should be addressed. E-mail: dhavalkumar.patel{at}novartis.com.

Objective—Dendritic cells (DCs) have recently been foundin atherosclerosis-predisposed regions of arteries and havebeen proposed to be causal in atherosclerosis. The chemokinereceptor CX₃CR1 is associated with arterial injury and atherosclerosis.We sought to determine whether a link exists between arterialDC accumulation, CX₃CR1, and atherosclerosis.

Methods and Results—Mouseaortas were isolated and subjected to en face immunofluorescenceanalysis. We found that DCs were located predominantly in theintimal regions of arterial branch points and curvatures. Consistentwith the increased accumulation of intimal DCs in aged and ApoE^-/-aortas compared with young WT aortas (P=0.004 and 0.05, respectively),the incidence of atherosclerosis was 88.9% for aged WT and 100%for ApoE^-/- mice compared with 0% for young WT mice. CX₃CR1was expressed on intimal DCs and DC numbers were decreased inCX₃CR1-deficient aortas of young, aged, and ApoE^-/- mice (P=0.0008,0.013, and 0.0099). The reduced DC accumulation in CX₃CR1-deficiencywas also correlated with decreased atherosclerosis in theseanimals.

Conclusions—The accumulation of intimal DC increasesin aged and ApoE^-/- aortas and correlates with the generationof atherosclerosis. CX₃CR1-deficiency impairs the accumulationof DC in the aortic wall and markedly reduces the atheroscleroticburden.

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