© 1998 American Heart Association, Inc.
Original Contributions |
Cell Composition, Replication, and Apoptosis in Atherosclerotic Plaques After 6 Months of Cholesterol Withdrawal
From the Department of Pathology (M.M.K.), A.Z. Middelheim, Antwerp, Belgium; the Division of Pharmacology (G.R.Y. De M., N.B., H.B., A.G.H.), University of Antwerp, Wilrijk, Belgium; and Applied Cardiovascular Morphology (M.W.M.K.), Antwerp, Belgium.
Correspondence to Dr M. Kockx, Department of Pathology, A.Z. Middelheim, Lindendreef, 1, B-2020 Antwerp, Belgium. E-mail mark.kockx{at}uia.ua.ac.be
Abstract—Unstable human atherosclerotic plaques are characterized by a thin fibrous cap that contains few smooth muscle cells (SMCs) and numerous foam cells of macrophagic origin. Apoptosis of SMCs in the fibrous cap could destabilize the plaque and promote plaque rupture. In an experimental approach, we have studied apoptotic cell death and related proteins in atherosclerotic plaques of cholesterol-fed rabbits and examined the effects of cholesterol withdrawal. The induced atherosclerotic plaques at the thoracic aorta were composed of both fibromuscular tissue and foam cells. The presence of SMCs overlying macrophage accumulation was reminiscent of the structure of human atherosclerotic plaques. The plaques showed signs of cell replication and apoptotic cell death (1.8±0.5% terminal deoxynucleotidyl transferase end-labeling [TUNEL]-positive nuclei). Cell replication was confined mostly to the macrophages, whereas 34% of the TUNEL-labeled cells were SMCs. Both the macrophages and SMCs in the plaques expressed BAX, a proapoptotic protein of the BCL-2 family. After 6 months of cholesterol withdrawal, the thickness of the plaques in all localizations of the aorta was unchanged, but apoptosis was nearly absent (<0.1% of nuclei). Moreover, macrophages disappeared from the plaques, whereas the SMCs that remained present lost their lipid accumulation and strongly reduced their BAX expression. These changes were associated with a reduction of cell replication and increased deposition of fibrillar collagen fibers in the plaques, which pointed to plaque stabilization. In conclusion, the cell composition but not the thickness of atherosclerotic plaques was profoundly altered after a 6-month cholesterol withdrawal period. These changes were associated with a strong reduction of cell replication and apoptotic cell death. Moreover, the expression of the proapoptotic factor, BAX, was reduced in the remaining cells, which were mainly SMCs. These findings could help to explain the benefit of lipid-lowering therapy on plaque stabilization.
Key Words: atherosclerosis • apoptosis • smooth muscle cell • BAX • terminal deoxynucleotidyl transferase nick end-labeling
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