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The Actin-Binding Protein Drebrin Inhibits Neointimal Hyperplasia

Research output: Contribution to journalArticle

Jonathan A Stiber, Jiao-Hui Wu, Lisheng Zhang, Igor Nepliouev, Zhu-Shan Zhang, Victoria G Bryson, Leigh Brian, Rex C Bentley, Phillip R Gordon-Weeks, Paul B Rosenberg, Neil J Freedman

Original languageEnglish
JournalArteriosclerosis, Thrombosis, and Vascular Biology
Early online date24 Mar 2016
Publication statusE-pub ahead of print - 24 Mar 2016

King's Authors


OBJECTIVE: Vascular smooth muscle cell (SMC) migration is regulated by cytoskeletal remodeling as well as by certain transient receptor potential (TRP) channels, nonselective cation channels that modulate calcium influx. Proper function of multiple TRP channels requires the scaffolding protein Homer 1, which associates with the actin-binding protein Drebrin. We found that SMC Drebrin expression is upregulated in atherosclerosis and in response to injury and investigated whether Drebrin inhibits SMC activation, either through regulation of TRP channel function via Homer or through a direct effect on the actin cytoskeleton.

APPROACH AND RESULTS: Wild-type (WT) and congenic Dbn(-/+) mice were subjected to wire-mediated carotid endothelial denudation. Subsequent neointimal hyperplasia was 2.4±0.3-fold greater in Dbn(-/+) than in WT mice. Levels of globular actin were equivalent in Dbn(-/+) and WT SMCs, but there was a 2.4±0.5-fold decrease in filamentous actin in Dbn(-/+) SMCs compared with WT. Filamentous actin was restored to WT levels in Dbn(-/+) SMCs by adenoviral-mediated rescue expression of Drebrin. Compared with WT SMCs, Dbn(-/+) SMCs exhibited increased TRP channel activity in response to platelet-derived growth factor, increased migration assessed in Boyden chambers, and increased proliferation. Enhanced TRP channel activity and migration in Dbn(-/+) SMCs were normalized to WT levels by rescue expression of not only WT Drebrin but also a mutant Drebrin isoform that binds actin but fails to bind Homer.

CONCLUSIONS: Drebrin reduces SMC activation through its interaction with the actin cytoskeleton but independently of its interaction with Homer scaffolds.

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