[HTML][HTML] Genetic variants promoting smooth muscle cell proliferation can result in diffuse and diverse vascular diseases: evidence for a hyperplastic vasculomyopathy

DM Milewicz, CS Kwartler, CL Papke… - Genetics in …, 2010 - nature.com
DM Milewicz, CS Kwartler, CL Papke, ES Regalado, J Cao, AJ Reid
Genetics in Medicine, 2010nature.com
Genetic predisposition to early onset of occlusive vascular diseases, including coronary
artery disease, ischemic stroke, and Moyamoya disease, may represent varying
presentations of a common underlying dysregulation of vascular smooth muscle cell
proliferation. We discuss mutations in two genes, NF1 and ACTA2, which predispose
affected individuals to diffuse and diverse vascular diseases. These patients show evidence
of diffuse occlusive disease in multiple arterial beds or even develop seemingly diverse …
Abstract
Genetic predisposition to early onset of occlusive vascular diseases, including coronary artery disease, ischemic stroke, and Moyamoya disease, may represent varying presentations of a common underlying dysregulation of vascular smooth muscle cell proliferation. We discuss mutations in two genes, NF1 and ACTA2, which predispose affected individuals to diffuse and diverse vascular diseases. These patients show evidence of diffuse occlusive disease in multiple arterial beds or even develop seemingly diverse arterial pathologies, ranging from occlusions to arterial aneurysms. We also present the current evidence that both NF1 and ACTA2 mutations promote increased smooth muscle cell proliferation in vitro and in vivo, which leads us to propose that these diffuse and diverse vascular diseases are the outward signs of a more fundamental disease: a hyperplastic vasculomyopathy. We suggest that the concept of a hyperplastic vasculomyopathy offers a new approach not only to identifying mutated genes that lead to vascular diseases but also to counseling and possibly treating patients harboring such mutations. In other words, this framework may offer the opportunity to therapeutically target the inappropriate smooth muscle cell behavior that predisposes to a variety of vascular diseases throughout the arterial system.
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