心脏纤维化过程中内皮细胞中转录激活的间充质基因表达的无缝遗传记录。
Seamless Genetic Recording of Transiently Activated Mesenchymal Gene Expression in Endothelial Cells During Cardiac Fibrosis.
机构信息
State Key Laboratory of Cell Biology, Shanghai Institute of Biochemistry and Cell Biology, Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences (S.Z., Y.L., X.H., K.L., B.Z.), University of Chinese Academy of Sciences.
School of Life Science, Hangzhou Institute for Advanced Study (K.L., B.Z.), University of Chinese Academy of Sciences.
出版信息
Circulation. 2021 Dec 21;144(25):2004-2020. doi: 10.1161/CIRCULATIONAHA.121.055417. Epub 2021 Nov 19.
BACKGROUND
Cardiac fibrosis is a lethal outcome of excessive formation of myofibroblasts that are scar-forming cells accumulated after heart injury. It has been reported that cardiac endothelial cells (ECs) contribute to a substantial portion of myofibroblasts through endothelial to mesenchymal transition (EndoMT). Recent lineage tracing studies demonstrate that myofibroblasts are derived from the expansion of resident fibroblasts rather than from the transdifferentiation of ECs. However, it remains unknown whether ECs can transdifferentiate into myofibroblasts reversibly or EndoMT genes were just transiently activated in ECs during cardiac fibrosis.
METHODS
By using the dual recombination technology based on Cre-loxP and Dre-rox, we generated a genetic lineage tracing system for tracking EndoMT in cardiac ECs. We used it to examine if there is transiently activated mesenchymal gene expression in ECs during cardiac fibrosis. Activation of the broadly used marker gene in myofibroblasts, αSMA (α-smooth muscle actin), and the transcription factor that induces epithelial to mesenchymal transition, Zeb1 (zinc finger E-box-binding homeobox 1), was examined.
RESULTS
The genetic system enables continuous tracing of transcriptional activity of targeted genes in vivo. Our genetic fate mapping results revealed that a subset of cardiac ECs transiently expressed and during embryonic valve formation and transdifferentiated into mesenchymal cells through EndoMT. Nonetheless, they did not contribute to myofibroblasts, nor transiently expressed or after heart injury. Instead, expression of was activated in resident fibroblasts during cardiac fibrosis.
CONCLUSIONS
Mesenchymal gene expression is activated in cardiac ECs through EndoMT in the developing heart, but ECs do not transdifferentiate into myofibroblasts, nor transiently express some known mesenchymal genes during homeostasis and fibrosis in the adult heart. Resident fibroblasts that are converted to myofibroblasts by activating mesenchymal gene expression are the major contributors to cardiac fibrosis.
背景
心肌纤维化是过量形成肌成纤维细胞的致命结果,这些细胞是心脏损伤后积累的疤痕形成细胞。据报道,心脏内皮细胞(ECs)通过内皮-间质转化(EndoMT)有助于形成相当一部分的肌成纤维细胞。最近的谱系追踪研究表明,肌成纤维细胞源自驻留成纤维细胞的扩增,而不是来自 ECs 的转分化。然而,目前尚不清楚 ECs 是否可以可逆地转分化为肌成纤维细胞,或者在心脏纤维化过程中 EndoMT 基因是否只是短暂地在 ECs 中激活。
方法
我们利用基于 Cre-loxP 和 Dre-rox 的双重重组技术,为心脏 ECs 中的 EndoMT 构建了遗传谱系追踪系统。我们用它来检查在心脏纤维化过程中,ECs 中是否存在短暂激活的间充质基因表达。我们检查了广泛用于肌成纤维细胞的标记基因αSMA(α-平滑肌肌动蛋白)和诱导上皮-间质转化的转录因子 Zeb1(锌指 E-盒结合同源盒 1)的激活情况。
结果
该遗传系统能够在体内连续追踪靶向基因的转录活性。我们的遗传命运图谱结果表明,心脏 ECs 的一部分在胚胎瓣膜形成过程中短暂表达 和 ,并通过 EndoMT 转分化为间充质细胞。尽管如此,它们并未贡献于肌成纤维细胞,也未在心脏损伤后短暂表达 或 。相反,在心脏纤维化过程中,驻留成纤维细胞中 表达被激活。
结论
在心脏发育过程中,通过 EndoMT,心脏 ECs 中激活了间充质基因表达,但在成年心脏的稳态和纤维化过程中,ECs 不会转分化为肌成纤维细胞,也不会短暂表达一些已知的间充质基因。通过激活间充质基因表达转化为肌成纤维细胞的驻留成纤维细胞是心肌纤维化的主要贡献者。
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