Targeted Deletion of PTEN in Smooth Muscle Cells Results in Vascular Remodeling and Recruitment of Progenitor Cells Through Induction of Stromal Cell-Derived Factor-1{alpha}

doi:10.1161/CIRCRESAHA.107.169896

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Circulation Research. 2008;102:1036-1045
Published online before print March 13, 2008, doi: 10.1161/CIRCRESAHA.107.169896

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(Circulation Research. 2008;102:1036.)
© 2008 American Heart Association, Inc.

Molecular Medicine

Targeted Deletion of PTEN in Smooth Muscle Cells Results in Vascular Remodeling and Recruitment of Progenitor Cells Through Induction of Stromal Cell–Derived Factor-1 ${alpha}$

Raphael A. Nemenoff, Peter A. Simpson, Seth B. Furgeson, Nihal Kaplan-Albuquerque, Joseph Crossno, Pamela J. Garl, James Cooper, Mary C.M. Weiser-Evans

From the Department of Medicine, Divisions of Renal Diseases and Hypertension (R.A.N., P.A.S., S.B.F., N.K.-A., J. Cooper, M.C.M.W.-E.), Pulmonary Sciences and Critical Care Medicine (J. Crossno), Cardiovascular and Pulmonary Research (R.A.N., J. Crossno, P.J.G., M.C.M.W.-E.), University of Colorado Denver; and Veterans Affairs Medical Center (J. Crossno), Denver.

Correspondence to Mary C.M. Weiser-Evans, Department of Medicine, Division of Renal Diseases and Hypertension, University of Colorado Denver, Denver, CO 80262. E-mail mary.weiser{at}uchsc.edu

We previously showed that changes in vascular smooth musclecell (SMC) PTEN/Akt signaling following vascular injury areassociated with increased SMC proliferation and neointima formation.In this report, we used a genetic model to deplete PTEN specificallyin SMCs by crossing PTEN^LoxP/LoxP mice to mice expressing Crerecombinase under the control of the SM22 ${alpha}$ promoter. PTEN wasdownregulated with increases in phosphorylated Akt in majorvessels, hearts, and lungs of mutant mice. SMC PTEN depletionpromoted widespread medial SMC hyperplasia, vascular remodeling,and histopathology consistent with pulmonary hypertension. Increasedvascular deposition of the chemokine stromal cell–derivedfactor (SDF)-1 ${alpha}$ and medial and intimal cells coexpressing SM- ${alpha}$ -actinand CXCR4, the SDF-1 ${alpha}$ receptor, was detected in SMC PTEN-depletedmice. PTEN deficiency in cultured aortic SMCs induced autocrinegrowth through increased production of SDF-1 ${alpha}$ . Blocking SDF-1 ${alpha}$ attenuated autocrine growth and blocked growth of control SMCsinduced by conditioned media from PTEN-deficient SMCs. In addition,SMC PTEN deficiency enhanced progenitor cell migration towardSMCs through increased SDF-1 ${alpha}$ production. SDF-1 ${alpha}$ production byother cell types is regulated by the transcription factor hypoxia-induciblefactor (HIF)-1 ${alpha}$ . We found SMC nuclear HIF-1 ${alpha}$ expression in PTEN-depletedmice and increased nuclear HIF-1 ${alpha}$ in PTEN-deficient SMCs. Smallinterfering RNA–mediated downregulation of HIF-1 ${alpha}$ reversedSDF-1 ${alpha}$ induction by PTEN depletion and inhibition of phosphatidylinositol3-kinase signaling blocked HIF-1 ${alpha}$ and SDF-1 ${alpha}$ upregulation inducedby PTEN depletion. Our data show that SMC PTEN inactivationestablishes an autocrine growth loop and increases progenitorcell recruitment through a HIF-1 ${alpha}$ –mediated SDF-1 ${alpha}$ /CXCR4axis, thus identifying PTEN as a target for the inhibition ofpathological vascular remodeling.

Key Words: smooth muscle cell • PTEN • neointima • autocrine growth • conditional knockout mouse

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