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HBL1是一种人类长链非编码RNA,它通过对抗MIR1来调节多能干细胞向心肌细胞的发育。

HBL1 Is a Human Long Noncoding RNA that Modulates Cardiomyocyte Development from Pluripotent Stem Cells by Counteracting MIR1.

作者信息

Liu Juli, Li Yang, Lin Bo, Sheng Yi, Yang Lei

机构信息

Department of Developmental Biology, University of Pittsburgh School of Medicine, 530 45(th) Street, Rangos Research Center, Pittsburgh, PA 15201, USA.

Department of Obstetrics, Gynecology & Reproductive Sciences, University of Pittsburgh, Magee-Women's Research Institute, Pittsburgh, PA 15213, USA.

出版信息

Dev Cell. 2017 Aug 21;42(4):333-348.e5. doi: 10.1016/j.devcel.2017.07.023.

DOI:10.1016/j.devcel.2017.07.023
PMID:28829943
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5567988/
Abstract

Cardiogenesis processes in human and animals have differential dynamics, suggesting the existence of species-specific regulators during heart development. However, it remains a challenge to discover the human-specific cardiac regulatory genes, given that most coding genes are conserved. Here, we report the identification of a human-specific long noncoding RNA, Heart Brake LncRNA 1 (HBL1), which regulates cardiomyocyte development from human induced pluripotent stem cells (hiPSCs). Overexpression of HBL1 repressed, whereas knockdown and knockout of HBL1 increased, cardiomyocyte differentiation from hiPSCs. HBL1 physically interacted with MIR1 in an AGO2 complex. Disruption of MIR1 binding sites in HBL1 showed an effect similar to that of HBL1 knockout. SOX2 bound to HBL1 promoter and activated its transcription. Knockdown of SOX2 in hiPSCs led to decreased HBL1 expression and increased cardiomyocyte differentiation efficiency. Thus, HBL1 plays a modulatory role in fine-tuning human-specific cardiomyocyte development by forming a regulatory network with SOX2 and MIR1.

摘要

人类和动物的心脏发生过程具有不同的动力学,这表明在心脏发育过程中存在物种特异性调节因子。然而,鉴于大多数编码基因是保守的,发现人类特异性心脏调节基因仍然是一项挑战。在这里,我们报告了一种人类特异性长链非编码RNA——心脏制动长链非编码RNA 1(HBL1)的鉴定,它调节人类诱导多能干细胞(hiPSC)向心肌细胞的发育。HBL1的过表达会抑制hiPSC向心肌细胞的分化,而HBL1的敲低和敲除则会增加这种分化。HBL1在AGO2复合物中与MIR1发生物理相互作用。破坏HBL1中的MIR1结合位点显示出与HBL1敲除类似的效果。SOX2与HBL1启动子结合并激活其转录。在hiPSC中敲低SOX2会导致HBL1表达降低并提高心肌细胞分化效率。因此,HBL1通过与SOX??2和MIR1形成调节网络,在微调人类特异性心肌细胞发育中发挥调节作用。

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