Hualing Sun , Xinghua Wang , Richard E. Pratt , Victor J. Dzau , Conrad P. Hodgkinson
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引用次数: 0
摘要
我们已经证明,通过 miR 组合将心脏成纤维细胞直接重编程为新的心肌细胞,可以改善梗死心脏的心脏功能。然而,在递送和疗效方面还存在重大挑战。在改进递送的筛选方法中,我们发现源自 C166 的 EV 是 miR 组合在体外和体内的有效递送剂。在后者中,EV 介导的 miR 组合递送在心肌梗死损伤模型中诱导心脏成纤维细胞显著转化为心肌细胞(20%),减少纤维化并改善心脏功能。与基于脂质的转染相比,C166 EV 介导的 miR 组合递送增强了重编程功效。研究发现,外泌体中的一种 miRNA:miR-148a-3p 提高了重编程功效。miR-148a-3p的靶标被确定为Mdfic。过度表达和靶向敲除研究表明,Mdfic 是心肌细胞特异性基因表达的抑制因子。总之,我们证明了 C166 衍生的 EVs 是向心脏成纤维细胞输送重编程因子的有效方法,我们还鉴定了 C166 衍生的 EVs 中含有的一种新型 miRNA,它能增强重编程功效。
C166 EVs potentiate miR cardiac reprogramming via miR-148a-3p
We have demonstrated that directly reprogramming cardiac fibroblasts into new cardiomyocytes via miR combo improves cardiac function in the infarcted heart. However, major challenges exist with delivery and efficacy. During a screening based approach to improve delivery, we discovered that C166-derived EVs were effective delivery agents for miR combo both in vitro and in vivo. In the latter, EV mediated delivery of miR combo induced significant conversion of cardiac fibroblasts into cardiomyocytes (∼20%), reduced fibrosis and improved cardiac function in a myocardial infarction injury model. When compared to lipid-based transfection, C166 EV mediated delivery of miR combo enhanced reprogramming efficacy. Improved reprogramming efficacy was found to result from a miRNA within the exosome: miR-148a-3p. The target of miR-148a-3p was identified as Mdfic. Over-expression and targeted knockdown studies demonstrated that Mdfic was a repressor of cardiomyocyte specific gene expression. In conclusion, we have demonstrated that C166-derived EVs are an effective method for delivering reprogramming factors to cardiac fibroblasts and we have identified a novel miRNA contained within C166-derived EVs which enhances reprogramming efficacy.
期刊介绍:
The Journal of Molecular and Cellular Cardiology publishes work advancing knowledge of the mechanisms responsible for both normal and diseased cardiovascular function. To this end papers are published in all relevant areas. These include (but are not limited to): structural biology; genetics; proteomics; morphology; stem cells; molecular biology; metabolism; biophysics; bioengineering; computational modeling and systems analysis; electrophysiology; pharmacology and physiology. Papers are encouraged with both basic and translational approaches. The journal is directed not only to basic scientists but also to clinical cardiologists who wish to follow the rapidly advancing frontiers of basic knowledge of the heart and circulation.