从人尿路上皮细胞生成肝样细胞和自噬在直接重编程中的作用。

Generation of hepatocyte-like cells from human urinary epithelial cells and the role of autophagy during direct reprogramming.

机构信息

Guangdong Provincial Key Laboratory of Liver Disease Research, The Third Affiliated Hospital of Sun Yat-sen University, Guangzhou, China; Cell-gene Therapy Translational Medicine Research Center, The Third Affiliated Hospital of Sun Yat-sen University, Guangzhou, China; Biotherapy Center, The Third Affiliated Hospital of Sun Yat-sen University, Guangzhou, China.

出版信息

Biochem Biophys Res Commun. 2020 Jun 30;527(3):723-729. doi: 10.1016/j.bbrc.2020.03.119. Epub 2020 May 18.

DOI:10.1016/j.bbrc.2020.03.119

PMID:32439161

Abstract

Somatic cells can be directly reprogrammed into other cell lineages, which holds great promise for regenerative medicine. However, low efficiency and obscure mechanism hinder the application of direct reprogramming. Here, we show that overexpressing the hepatic-specific transcription factors (TFs) HNF1α, FOXA3, and GATA4 was sufficient to convert human urinary epithelial cells (hUCs) into induced hepatocyte-like cells (iHeps). The obtained iHeps were confirmed to express various hepatocyte-specific genes with multiple mature hepatocyte functions. Moreover, autophagy-related genes P62, ULK1, BECN1, VPS34, and LC3B were upregulated in the early stage of reprogramming and knockout of P62 and BECN1 in hUCs with CRISPR/Cas9 technology increased the efficiency of direct reprogramming. Collectively, we established a non-invasive approach to convert hUCs into iHeps and provided a glimpse into the role of autophagy in this process.

摘要

体细胞可以直接重编程为其他细胞谱系，这为再生医学带来了巨大的希望。然而，低效率和不明确的机制阻碍了直接重编程的应用。在这里，我们表明，过表达肝特异性转录因子（TFs）HNF1α、FOXA3 和 GATA4 足以将人尿上皮细胞（hUCs）转化为诱导的肝细胞样细胞（iHeps）。所获得的 iHeps 被证实表达多种具有多种成熟肝细胞功能的肝细胞特异性基因。此外，自噬相关基因 P62、ULK1、BECN1、VPS34 和 LC3B 在重编程的早期阶段上调，并且使用 CRISPR/Cas9 技术敲除 hUCs 中的 P62 和 BECN1 增加了直接重编程的效率。总之，我们建立了一种非侵入性的方法将 hUCs 转化为 iHeps，并初步探讨了自噬在这一过程中的作用。

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从人尿路上皮细胞生成肝样细胞和自噬在直接重编程中的作用。

Generation of hepatocyte-like cells from human urinary epithelial cells and the role of autophagy during direct reprogramming.

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