Published online before print December 13, 2007, doi: 10.1161/CIRCRESAHA.107.161059
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Submitted on August 1, 2007
Revised on October 30, 2007
Accepted on November 29, 2007
Smooth Muscle Protein 22
–Mediated Patchy Deletion of Bmpr1a Impairs Cardiac Contractility but Protects Against Pulmonary Vascular Remodeling
Nesrine El-Bizri ;
From the Cardiopulmonary Research Program (N.E.-B., L.W., S.L.M., C.G., M.R.), Vera Moulton Wall Center for Pulmonary Vascular Disease; Departments of Pediatrics (N.E.-B., L.W., S.L.M., C.G., T.U. M.R.), Biochemistry (T.D.), Pulmonary and Critical Care Medicine (T.D.), and Cardiothoracic Surgery (A.Y.S.), Stanford University School of Medicine, Calif; Department of Cell Biology (R.H.K., R.P.M.), Washington University School of Medicine, St Louis, Mo; and Molecular Developmental Biology Group (Y.M.), Laboratory of Reproductive and Developmental Toxicology, National Institute of Environmental Health Sciences, Research Triangle Park, NC.
* To whom correspondence should be addressed. E-mail: marlener{at}stanford.edu.
Vascular expression of bone morphogenetic type IA receptor (Bmpr1a) is reduced in lungs of patients with pulmonary arterial hypertension, but the significance of this observation is poorly understood. To elucidate the role of Bmpr1a in the vascular pathology of pulmonary arterial hypertension and associated right ventricular (RV) dysfunction, we deleted Bmpr1a in vascular smooth muscle cells and in cardiac myocytes in mice using the SM22
;TRE-Cre/LoxP;R26R system. The LacZ distribution reflected patchy deletion of Bmpr1a in the lung vessels, aorta, and heart of SM22;TRE-Cre;R26R;Bmpr1aflox/+ and flox/flox mutants. This reduction in BMPR-IA expression was confirmed by Western immunoblot and immunohistochemistry in the flox/flox group. This did not affect pulmonary vasoreactivity to acute hypoxia (10% O2) or the increase in RV systolic pressure and RV hypertrophy following 3 weeks in chronic hypoxia. However, both SM22;TRE-Cre;R26R;Bmpr1aflox/+ and flox/flox mutant mice had fewer muscularized distal pulmonary arteries and attenuated loss of peripheral pulmonary arteries compared with age-matched control littermates in hypoxia. When Bmpr1a expression was reduced by short interference RNA in cultured pulmonary arterial smooth muscle cells, serum-induced proliferation was attenuated explaining decreased hypoxia-mediated muscularization of distal vessels. When Bmpr1a was reduced in cultured microvascular pericytes by short interference RNA, resistance to apoptosis was observed and this could account for protection against hypoxia-mediated vessel loss. The similar elevation in RV systolic pressure and RV hypertrophy, despite the attenuated remodeling with chronic hypoxia in the flox/flox mutants versus controls, was not a function of elevated left ventricular end diastolic pressure but was associated with increased periadventitial deposition of elastin and collagen, potentially influencing vascular stiffness.
Key words: Bmpr1a (Alk3) • pulmonary hypertension • hypoxia • vascular remodeling • smooth muscle cell • pericytes • proliferation • apoptosis • transgenic mice
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