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(Circulation. 1997;96:1291-1298.)
© 1997 American Heart Association, Inc.

Articles

Rat Arterial Wall Retains Myointimal Hyperplastic Potential Long After Arterial Injury

Martin G. Sirois, PhD; Michael Simons, MD; David J. Kuter, MD; Robert D. Rosenberg, MD, PhD; ; Elazer R. Edelman, MD, PhD

From Harvard-MIT Division of Health Sciences and Technology (M.G.S., E.R.E.) and Department of Biology (D.J.K., R.D.R.), Massachusetts Institute of Technology, Cambridge, Mass, Brigham and Women's Hospital (E.R.E.) and Beth Israel Hospital Departments of Medicine (M.S., R.D.R.), Harvard Medical School, Boston, Mass.

Correspondence to Martin G. Sirois, PhD, Research Center, Room S-5450, Montreal Heart Institute, 5000 Belanger St, Montreal, Quebec, Canada.

Background Many novel molecular and pharmacological modalities have been proposed for the treatment of accelerated vascular diseases. Yet the fundamental question remains of whether the vessel wall can be treated once only or whether single-dose therapy simply delays the inevitable processes that lead to intimal hyperplasia. Since platelet adhesion and aggregation are critical events in vascular healing, we sought to determine whether the injured blood vessel would retain its myointimal potential after reversal of even prolonged periods of thrombocytopenia.

Methods and Results A novel nonimmune method sustained thrombocytopenia and suppressed postinjury neointimal hyperplasia by 88%. Infusion of fresh platelets, even 14 days after initial denuding injury, restored the full neointimal hyperplastic potential. Platelet depletion presumably removed factors chemotactic for vascular smooth muscle cells but had no effect on the overexpression of the platelet-derived growth factor receptor-ß (PDGFR-ß) subunit after vascular injury. In native vessels, 26.5±2.5% of medial smooth muscle cells expressed PDGFR-ß. In all animals, medial PDGFR-ß expression doubled 2 weeks after endothelial denudation and was evident in up to 74.5±2.5% of the cells forming the neointima.

Conclusions Thus, though the hyperplastic potential of the injured blood vessel can be delayed with removal of growth stimuli, it is not lost forever, and if the media is not made quiescent, neointimal hyperplasia is simply delayed rather than prevented. These results may have a profound effect on our understanding and treatment of accelerated proliferative vascular diseases.

Key Words: busulfan • platelet-derived factors • restenosis • cells, muscle, smooth • thrombocytopenia

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