Sizhao Lu1, Keith A Strand1, Marie F Mutryn1, Rebecca M Tucker1, Austin J Jolly1, Seth B Furgeson1,2, Karen S Moulton3, Raphael A Nemenoff1,2, Mary C M Weiser-Evans1,2. 1. From the Division of Renal Diseases and Hypertension, Department of Medicine (S.L., K.A.S., M.F.M., R.M.T., A.J.J., S.B.F., R.A.N., M.C.M.W.-E.), University of Colorado, Anschutz Medical Campus, Aurora. 2. School of Medicine, Consortium for Fibrosis Research and Translation (S.B.F., R.A.N., M.C.M.W.-E.), University of Colorado, Anschutz Medical Campus, Aurora. 3. Division of Cardiology, Department of Medicine (K.S.M.), University of Colorado, Anschutz Medical Campus, Aurora.
Abstract
OBJECTIVE: Pathological vascular remodeling and excessive perivascular fibrosis are major contributors to reduced vessel compliance that exacerbates cardiovascular diseases, for instance, promoting clinically relevant myocardial remodeling. Inflammation plays a significant role in both pathological vascular remodeling and fibrosis. We previously demonstrated that smooth muscle cell-specific PTEN depletion promotes significant vascular fibrosis and accumulation of inflammatory cells. In the current study, we aimed to determine the beneficial role of systemic PTEN elevation on Ang II (angiotensin II)-induced vascular fibrosis and remodeling. Approach and Results: Transgenic mice carrying additional copies of the wild-type Pten gene (super PTEN [sPTEN]) and WT littermates were subjected to Ang II or saline infusion for 14 or 28 days. Compared with WT, Ang II-induced vascular fibrosis was significantly blunted in sPTEN mice, as shown by histochemical stainings and label-free second harmonic generation imaging. The protection against Ang II was recapitulated in sPTEN mice bearing WT bone marrow but not in WT mice reconstituted with sPTEN bone marrow. Ang II-induced elevation of profibrotic and proinflammatory gene expression observed in WT mice was blocked in aortic tissue of sPTEN mice. Immunofluorescent staining and flow cytometry both indicated that perivascular infiltration of T cells and macrophages was significantly inhibited in sPTEN mice. In vitro induction of PTEN expression suppressed Ang II-induced Ccl2 expression in vascular smooth muscle cells. CONCLUSIONS: Systemic PTEN elevation mediates protection against Ang II-induced vascular inflammation and fibrosis predominantly through effects in resident vascular cells. Our data highly support that pharmacological upregulation of PTEN could be a novel and viable approach for the treatment of pathological vascular fibrosis.
OBJECTIVE: Pathological vascular remodeling and excessive perivascular fibrosis are major contributors to reduced vessel compliance that exacerbates cardiovascular diseases, for instance, promoting clinically relevant myocardial remodeling. Inflammation plays a significant role in both pathological vascular remodeling and fibrosis. We previously demonstrated that smooth muscle cell-specific PTEN depletion promotes significant vascular fibrosis and accumulation of inflammatory cells. In the current study, we aimed to determine the beneficial role of systemic PTEN elevation on Ang II (angiotensin II)-induced vascular fibrosis and remodeling. Approach and Results: Transgenic mice carrying additional copies of the wild-type Pten gene (super PTEN [sPTEN]) and WT littermates were subjected to Ang II or saline infusion for 14 or 28 days. Compared with WT, Ang II-induced vascular fibrosis was significantly blunted in sPTEN mice, as shown by histochemical stainings and label-free second harmonic generation imaging. The protection against Ang II was recapitulated in sPTEN mice bearing WT bone marrow but not in WT mice reconstituted with sPTEN bone marrow. Ang II-induced elevation of profibrotic and proinflammatory gene expression observed in WT mice was blocked in aortic tissue of sPTEN mice. Immunofluorescent staining and flow cytometry both indicated that perivascular infiltration of T cells and macrophages was significantly inhibited in sPTEN mice. In vitro induction of PTEN expression suppressed Ang II-induced Ccl2 expression in vascular smooth muscle cells. CONCLUSIONS: Systemic PTEN elevation mediates protection against Ang II-induced vascular inflammation and fibrosis predominantly through effects in resident vascular cells. Our data highly support that pharmacological upregulation of PTEN could be a novel and viable approach for the treatment of pathological vascular fibrosis.
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