Deletion of smooth muscle ZFP36 promotes neointimal hyperplasia in mice.

Abstract

Platelet-derived growth factor (PDGF-BB) released from the injured intima induces the proliferation and migration of vascular smooth muscle cells (VSMCs), which is the key mechanism of neointimal hyperplasia. Zinc finger 36 (ZFP36), a widespread RNA-binding protein, is important for pathological processes in many diseases. In this study we investigated the role of ZFP36 in VSMCs proliferation, migration and neointimal hyperplasia in mice. We generated smooth muscle-specific Zfp36 knockout (Zfp36^SMKO) mice, and established restenosis mouse models by ligation of left carotid artery in Zfp36^SMKO mice. We showed that the expression levels of ZFP36 were significantly decreased in human atherosclerotic coronary arteries and murine injured carotid arteries compared with controls. Compared to control Zfp36^fl/fl mice, Zfp36^SMKO mice displayed accelerated neointimal hyperplasia. In cultured mouse VSMCs, PDGF-BB (20 ng/mL) significantly downregulated ZFP36 expression through KLF4 binding site in Zfp36 promoter. We revealed that ZFP36 could bind to the mRNA of cell migration-inducing protein (CEMIP) and promoted its degradation in VSMCs, thereby reducing the expression of CEMIP protein. Knockdown of Cemip inhibited VSMCs proliferation and migration induced by Zfp36 knockout, thereby suppressing neointimal hyperplasia in Zfp36^SMKO mice. We conclude that vascular smooth muscle ZFP36 has a protective effect against neointimal hyperplasia by reducing CEMIP expression. ZFP36 is downregulated by vascular injury and PDGF-BB treatment, which promotes VSMCs proliferation and migration and neointima formation. The results suggest that targeting ZFP36 may represent a novel therapeutic strategy for preventing or treating neointimal hyperplasia and related cardiovascular diseases.