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单个心外膜细胞转录组测序确定小窝蛋白1是斑马鱼心脏再生的关键因素。

Single epicardial cell transcriptome sequencing identifies Caveolin 1 as an essential factor in zebrafish heart regeneration.

作者信息

Cao Jingli, Navis Adam, Cox Ben D, Dickson Amy L, Gemberling Matthew, Karra Ravi, Bagnat Michel, Poss Kenneth D

机构信息

Department of Cell Biology, Duke University Medical Center, Durham, NC 27710, USA.

Department of Medicine, Duke University Medical Center, Durham, NC 27710, USA.

出版信息

Development. 2016 Jan 15;143(2):232-43. doi: 10.1242/dev.130534. Epub 2015 Dec 10.

DOI:10.1242/dev.130534
PMID:26657776
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4725347/
Abstract

In contrast to mammals, adult zebrafish have a high capacity to regenerate damaged or lost myocardium through proliferation of cardiomyocytes spared from damage. The epicardial sheet covering the heart is activated by injury and aids muscle regeneration through paracrine effects and as a multipotent cell source, and has received recent attention as a target in cardiac repair strategies. Although it is recognized that epicardium is required for muscle regeneration and itself has high regenerative potential, the extent of cellular heterogeneity within epicardial tissue is largely unexplored. Here, we performed transcriptome analysis on dozens of epicardial lineage cells purified from zebrafish harboring a transgenic reporter for the pan-epicardial gene tcf21. Hierarchical clustering analysis suggested the presence of at least three epicardial cell subsets defined by expression signatures. We validated many new pan-epicardial and epicardial markers by alternative expression assays. Additionally, we explored the function of the scaffolding protein and main component of caveolae, caveolin 1 (cav1), which was present in each epicardial subset. In BAC transgenic zebrafish, cav1 regulatory sequences drove strong expression in ostensibly all epicardial cells and in coronary vascular endothelial cells. Moreover, cav1 mutant zebrafish generated by genome editing showed grossly normal heart development and adult cardiac anatomy, but displayed profound defects in injury-induced cardiomyocyte proliferation and heart regeneration. Our study defines a new platform for the discovery of epicardial lineage markers, genetic tools, and mechanisms of heart regeneration.

摘要

与哺乳动物不同,成年斑马鱼具有通过未受损伤的心肌细胞增殖来再生受损或缺失心肌的高能力。覆盖心脏的心外膜层在受到损伤时被激活,并通过旁分泌作用以及作为多能细胞来源来辅助肌肉再生,并且最近作为心脏修复策略的一个靶点受到关注。尽管人们认识到心外膜对于肌肉再生是必需的,并且其自身具有很高的再生潜力,但心外膜组织内细胞异质性的程度在很大程度上尚未被探索。在这里,我们对从携带全心外膜基因tcf21转基因报告基因的斑马鱼中纯化的数十个心外膜谱系细胞进行了转录组分析。层次聚类分析表明存在至少三个由表达特征定义的心外膜细胞亚群。我们通过其他表达分析验证了许多新的全心外膜和心外膜标记物。此外,我们探索了脂筏的支架蛋白和主要成分小窝蛋白1(cav1)的功能,其存在于每个心外膜亚群中。在BAC转基因斑马鱼中,cav1调控序列在表面上所有的心外膜细胞和冠状血管内皮细胞中驱动强表达。此外,通过基因组编辑产生的cav1突变斑马鱼显示出大体正常的心脏发育和成年心脏解剖结构,但在损伤诱导的心肌细胞增殖和心脏再生方面表现出严重缺陷。我们的研究定义了一个用于发现心外膜谱系标记物、遗传工具和心脏再生机制的新平台。

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