Peripheral Vascular Stenosis in Apolipoprotein E-Deficient Mice : Potential Roles of Lipid Deposition, Medial Atrophy, and Adventitial Inflammation

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Arteriosclerosis, Thrombosis, and Vascular Biology. 1997;17:3593-3601

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(Arteriosclerosis, Thrombosis, and Vascular Biology. 1997;17:3593-3601.)
© 1997 American Heart Association, Inc.

Articles

Peripheral Vascular Stenosis in Apolipoprotein E-Deficient Mice

Potential Roles of Lipid Deposition, Medial Atrophy, and Adventitial Inflammation

Hong Seog Seo; Donna M. Lombardi; Patti Polinsky; Lyn Powell-Braxton; Stuart Bunting; Stephen M. Schwartz; ; Michael E. Rosenfeld

From the Departments of Pathology (H.S.S., D.M.L., P.P., S.M.S., M.E.R.) and Pathobiology (M.E.R.), University of Washington, Seattle, Wash, and the Cardiovascular Research Department, Genentech, Inc, South San Francisco, Calif (L.P-B., S.B.)

Correspondence to Michael E. Rosenfeld, Department of Pathobiology, Box 353410, University of Washington, Seattle, WA 98195. E-mail ssmjm{at}u.washington.edu

Abstract A systematic analysis of the distribution of advancedatherosclerotic lesions was undertaken in chow-fed, 9-month-oldapolipoprotein (apo) E-deficient mice to identify sites amenablefor study of mechanisms of formation of stenotic lesions. Thearterial tree was dissected intact and included medium-sizedarteries in the extremities as well as arteries of the headand neck. The most reproducible lesions were seen in the ascendingaorta and in the carotid, femoral, and popliteal arteries. Castingof the vascular tree provided additional verification of the presenceof lumen narrowing in the external branches of the carotid artery.Consistent with what has been observed in human atheroscleroticarteries, there was dilation in response to lesion growth andno correlation between lesion mass and lumen loss in the mousearteries. This adaptation was especially true in the ascending aorta,where normal lumen size was maintained at atherosclerotic sites. Incontrast, the external carotid arteries were stenotic in 9 of12 animals. Here too, however, loss of lumen did not correlatewith lesion mass but did correlate with adventitial inflammationand medial atrophy. Lumen narrowing also occurred most frequentlyat sites where extracellular cholesterol clefts were a prominentpart of the lesion. These data suggest that the stenotic processin advanced atherosclerotic vessels may depend on death of medialsmooth muscle cells, possibly in response to inflammatory changesin the plaque or adventitia.

Key Words: stenosis • compensatory remodeling • medial necrosis • adventitial inflammation • apolipoprotein E

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				W. Palinski and C. Napoli Unraveling Pleiotropic Effects of Statins on Plaque Rupture Arterioscler Thromb Vasc Biol, November 1, 2002; 22(11): 1745 - 1750. [Full Text] [PDF]

				M. R. Bennett Breaking the Plaque: Evidence for Plaque Rupture in Animal Models of Atherosclerosis Arterioscler Thromb Vasc Biol, May 1, 2002; 22(5): 713 - 714. [Full Text] [PDF]

				V. V. Kunjathoor, D. S. Chiu, K. D. O'Brien, and R. C. LeBoeuf Accumulation of Biglycan and Perlecan, but Not Versican, in Lesions of Murine Models of Atherosclerosis Arterioscler Thromb Vasc Biol, March 1, 2002; 22(3): 462 - 468. [Abstract] [Full Text] [PDF]

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				L. V. d'Uscio, L. A. Smith, and Z. S. Katusic Hypercholesterolemia Impairs Endothelium-Dependent Relaxations in Common Carotid Arteries of Apolipoprotein E-Deficient Mice Stroke, November 1, 2001; 32(11): 2658 - 2664. [Abstract] [Full Text] [PDF]

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				E. Laurat, B. Poirier, E. Tupin, G. Caligiuri, G.K. Hansson, J. Bariety, and A. Nicoletti In Vivo Downregulation of T Helper Cell 1 Immune Responses Reduces Atherogenesis in Apolipoprotein E-Knockout Mice Circulation, July 10, 2001; 104(2): 197 - 202. [Abstract] [Full Text] [PDF]

				C. A. Reardon, L. Blachowicz, T. White, V. Cabana, Y. Wang, J. Lukens, J. Bluestone, and G. S. Getz Effect of Immune Deficiency on Lipoproteins and Atherosclerosis in Male Apolipoprotein E-Deficient Mice Arterioscler Thromb Vasc Biol, June 1, 2001; 21(6): 1011 - 1016. [Abstract] [Full Text] [PDF]

				M. E. Rosenfeld, P. Polinsky, R. Virmani, K. Kauser, G. Rubanyi, and S. M. Schwartz Advanced Atherosclerotic Lesions in the Innominate Artery of the ApoE Knockout Mouse Arterioscler Thromb Vasc Biol, December 1, 2000; 20(12): 2587 - 2592. [Abstract] [Full Text] [PDF]

				C. J. Hartley, A. K. Reddy, S. Madala, B. Martin-McNulty, R. Vergona, M. E. Sullivan, M. Halks-Miller, G. E. Taffet, L. H. Michael, M. L. Entman, et al. Hemodynamic changes in apolipoprotein E-knockout mice Am J Physiol Heart Circ Physiol, November 1, 2000; 279(5): H2326 - H2334. [Abstract] [Full Text] [PDF]

				F. E. Thorngate, L. L. Rudel, R. L. Walzem, and D. L. Williams Low Levels of Extrahepatic Nonmacrophage ApoE Inhibit Atherosclerosis Without Correcting Hypercholesterolemia in ApoE-Deficient Mice Arterioscler Thromb Vasc Biol, August 1, 2000; 20(8): 1939 - 1945. [Abstract] [Full Text] [PDF]

				A. F. Drew, H. L. Tucker, K. W. Kombrinck, D. I. Simon, T. H. Bugge, and J. L. Degen Plasminogen Is a Critical Determinant of Vascular Remodeling in Mice Circ. Res., July 21, 2000; 87(2): 133 - 139. [Abstract] [Full Text] [PDF]

				R. Virmani, F. D. Kolodgie, A. P. Burke, A. Farb, and S. M. Schwartz Lessons From Sudden Coronary Death : A Comprehensive Morphological Classification Scheme for Atherosclerotic Lesions Arterioscler Thromb Vasc Biol, May 1, 2000; 20(5): 1262 - 1275. [Full Text] [PDF]

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				Z. A. Fayad, J. T. Fallon, M. Shinnar, S. Wehrli, H. M. Dansky, M. Poon, J. J. Badimon, S. A. Charlton, E. A. Fisher, J. L. Breslow, et al. Noninvasive In Vivo High-Resolution Magnetic Resonance Imaging of Atherosclerotic Lesions in Genetically Engineered Mice Circulation, October 13, 1998; 98(15): 1541 - 1547. [Abstract] [Full Text] [PDF]

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				P. Carmeliet, L. Moons, and D. Collen Mouse models of angiogenesis, arterial stenosis, atherosclerosis and hemostasis Cardiovasc Res, July 1, 1998; 39(1): 8 - 33. [Abstract] [Full Text] [PDF]