Abstract 100: Discovery of Cardiac Fibroblast Enriched microRNAs and Their Pivotal Roles in the Regulation of Cardiac Remodeling and Fibrosis

心脏纤维化 免疫印迹 小RNA 心功能曲线 生物 心肌梗塞 转染 纤维化 男科 内科学 心力衰竭 医学 基因 遗传学
作者
Yue Zhou,A. Mark Richards,Peipei Wang
出处
期刊:Circulation Research [Lippincott Williams & Wilkins]
卷期号:119 (suppl_1)
标识
DOI:10.1161/res.119.suppl_1.100
摘要

Cardiac fibroblast (cFB) responses to cardiac injury or overload directly contribute to deterioration of cardiac function in heart failure. MicroRNAs (miR) target multiple genes in cell signaling networks and are likely to have pivotal regulatory roles with respect to cFB function. To date cFB enriched miRs have not been reported. We have identified cFB enriched miRs which we hypothesize direct cFB proliferation and differentiation. Neonatal and adult rat cardiomyocytes (CM) and cFBs were isolated and cultured. In vivo and in vitro cardiac ischemic models comprised coronary artery ligation induced myocardial infarction (MI) in rats and cultured cFB exposed to hypoxia. RNA and protein were extracted for miR microarray, qPCR and Western Blot. Adult cFB transfected with miR mimics were tested for CCK-8 proliferation assay. Fifteen dysregulated miRs were selected from array profiles and qPCR validation. Among them miR-31, -199a, -214 and -222 were highly expressed in adult cFBs 10-90 folds vs. CM. CM specific miR-208a and 133a were undetectable in cFB. Neonatal cells showed directionally concordant but less pronounced differences. In early MI, cardiac miR-31 was up-regulated >30 fold vs. Sham (infarct), others increased 6-12 folds. All changes were ranked infarct>border>remote area. As a control, non-cFB enriched miR-125a remained unchanged. Hypoxia treatment of cFB in vitro up-regulated miR-31 but not the other miRs. Functional study by mimic transfection revealed differential roles of the miRs. MiR-31 increased cFB proliferation in CCK8 assay. MiR-199a and -222 had opposite effects. MiR-199a, but not miR-222, reversed the pro-fibrotic effects of TGF-β. MiR-199a reduced mRNA and protein expression of alpha smooth muscle actin (α-SMA), a myoFB differentiation marker and connective tissue growth factor (CTGF), a predicted target (miRDB). Conversely miR-31 increased α-SMA and CTGF. We provide the first report of 4 cFB enriched miRs and demonstrated their pro- vs. anti-fibrotic roles in vitro (miR-31 vs. miR-199 and -222 respectively). In early MI, the increase of pro-fibrotic miR-31 was predominant, whilst other miR dysregulation was secondary to cFB proliferation. cFB enriched miRs determine cFB fate and progression of cardiac fibrosis/remodeling.

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