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High blood pressure arising from a defect in vascular function.
Michael, S, Surks, H, Wang, Y, Zhu, Y, Blanton, R, Jamnongjit, M, Aronovitz, M, Baur, W, Ohtani, K, Wilkerson, M, Bonev, A, Nelson, MT, Karas, R, Mendelsohn, M
National Academy of Sciences. Proceedings. 2008;105( 18):6702-6707.
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Abstract
Hypertension, a major cardiovascular risk factor and cause of mortality worldwide, is thought to arise from primary renal abnormalities. However, the etiology of most cases of hypertension remains unexplained. Vascular tone, an important determinant of blood pressure, is regulated by nitric oxide, which causes vascular relaxation by increasing intracellular cGMP and activating cGMP-dependent protein kinase I (PKGI). Here we show that mice with a selective mutation in the N-terminal protein interaction domain of PKGIalpha display inherited vascular smooth muscle cell abnormalities of contraction, abnormal relaxation of large and resistance blood vessels, and increased systemic blood pressure. Renal function studies and responses to changes in dietary sodium in the PKGIalpha mutant mice are normal. These data reveal that PKGIalpha is required for normal VSMC physiology and support the idea that high blood pressure can arise from a primary abnormality of vascular smooth muscle cell contractile regulation, suggesting a new approach to the diagnosis and therapy of hypertension and cardiovascular diseases.
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Animals; Diet; Mice; Vascular Resistance; blood: Aldosterone; enzymology: Hypertension; enzymology: Muscle, Smooth, Vascular; enzymology: Vasomotor System; metabolism: Cyclic GMP-Dependent Protein Kinases; metabolism: rhoA GTP-Binding Protein