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本文引用的文献

1
The miR-200-Zeb1 axis regulates key aspects of β-cell function and survival in vivo.miR-200-Zeb1 轴调控β细胞功能和存活的关键方面。
Mol Metab. 2021 Nov;53:101267. doi: 10.1016/j.molmet.2021.101267. Epub 2021 Jun 8.
2
The Diabetes Gene JAZF1 Is Essential for the Homeostatic Control of Ribosome Biogenesis and Function in Metabolic Stress.在代谢应激中,糖尿病基因 JAZF1 对于核糖体生物发生和功能的体内平衡控制是必需的。
Cell Rep. 2020 Jul 7;32(1):107846. doi: 10.1016/j.celrep.2020.107846.
3
β-cell secretory dysfunction: a key cause of type 2 diabetes.β细胞分泌功能障碍:2型糖尿病的关键病因
Lancet Diabetes Endocrinol. 2020 May;8(5):370. doi: 10.1016/S2213-8587(20)30119-4.
4
MicroRNA Networks in Pancreatic Islet Cells: Normal Function and Type 2 Diabetes.胰岛细胞中的 microRNA 网络:正常功能和 2 型糖尿病。
Diabetes. 2020 May;69(5):804-812. doi: 10.2337/dbi19-0016.
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Micro(RNA) Management and Mismanagement of the Islet.胰岛的 miRNA 管理和失调。
J Mol Biol. 2020 Mar 6;432(5):1419-1428. doi: 10.1016/j.jmb.2019.09.017. Epub 2019 Oct 16.
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The Potential for microRNA Therapeutics and Clinical Research.微小RNA疗法的潜力与临床研究
Front Genet. 2019 May 16;10:478. doi: 10.3389/fgene.2019.00478. eCollection 2019.
7
In Vivo Silencing of MicroRNA-132 Reduces Blood Glucose and Improves Insulin Secretion.体内沉默 microRNA-132 可降低血糖并改善胰岛素分泌。
Nucleic Acid Ther. 2019 Apr;29(2):67-72. doi: 10.1089/nat.2018.0763. Epub 2019 Jan 23.
8
Metazoan MicroRNAs.后生动物 MicroRNAs。
Cell. 2018 Mar 22;173(1):20-51. doi: 10.1016/j.cell.2018.03.006.
9
Glucose-Dependent Granule Docking Limits Insulin Secretion and Is Decreased in Human Type 2 Diabetes.葡萄糖依赖性颗粒结合限制胰岛素分泌,并在人类 2 型糖尿病中减少。
Cell Metab. 2018 Feb 6;27(2):470-478.e4. doi: 10.1016/j.cmet.2017.12.017.
10
MicroRNAs as stress regulators in pancreatic beta cells and diabetes.微小 RNA 作为胰腺 β 细胞和糖尿病中的应激调节剂。
Mol Metab. 2017 Jul 18;6(9):1010-1023. doi: 10.1016/j.molmet.2017.06.020. eCollection 2017 Sep.

人胰岛微小 RNA-200c 在 2 型糖尿病中升高,并靶向转录因子 ETV5 减少胰岛素分泌。

Human Islet MicroRNA-200c Is Elevated in Type 2 Diabetes and Targets the Transcription Factor ETV5 to Reduce Insulin Secretion.

出版信息

Diabetes. 2022 Feb 1;71(2):275-284. doi: 10.2337/db21-0077.

DOI:10.2337/db21-0077
PMID:34753799
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8914283/
Abstract

MicroRNAs (miRNAs) are part of deregulated insulin secretion in type 2 diabetes (T2D) development. Rodent models have suggested miR-200c to be involved, but the role and potential as therapeutic target of this miRNA in human islets are not clear. Here we report increased expression of miR-200c in islets from T2D as compared with nondiabetic (ND) donors and display results showing reduced glucose-stimulated insulin secretion in EndoC-βH1 cells overexpressing miR-200c. We identify transcription factor ETV5 as the top rank target of miR-200c in human islets using TargetScan in combination with Pearson correlation analysis of miR-200c and mRNA expression data from the same human donors. Among other targets were JAZF1, as earlier shown in miR-200 knockout mice. Accordingly, linear model analysis of ETV5 and JAZF1 gene expression showed reduced expression of both genes in islets from human T2D donors. Western blot analysis confirmed the reduced expression of ETV5 on the protein level in EndoC-βH1 cells overexpressing miR-200c, and luciferase assay validated ETV5 as a direct target of miR-200c. Finally, LNA knockdown of miR-200c increased glucose-stimulated insulin secretion in islets from T2D donors approximately threefold. Our data reveal a vital role of the miR-200c-ETV5 axis in β-cell dysfunction and pathophysiology of T2D.

摘要

微小 RNA(miRNA)是 2 型糖尿病(T2D)发展过程中胰岛素分泌失调的一部分。啮齿动物模型表明 miR-200c 参与其中,但该 miRNA 在人类胰岛中的作用和作为治疗靶点的潜力尚不清楚。在这里,我们报告了与非糖尿病(ND)供体相比,T2D 胰岛中 miR-200c 的表达增加,并显示在过表达 miR-200c 的 EndoC-βH1 细胞中,葡萄糖刺激的胰岛素分泌减少。我们使用 TargetScan 结合来自相同人类供体的 miR-200c 和 mRNA 表达数据的 Pearson 相关分析,鉴定出 ETV5 为人类胰岛中 miR-200c 的顶级靶标。除其他靶标外,JAZF1 也是 miR-200 敲除小鼠中早期显示的靶标。因此,对来自人类 T2D 供体的胰岛中 ETV5 和 JAZF1 基因表达的线性模型分析显示,这两个基因的表达均降低。Western blot 分析证实了在过表达 miR-200c 的 EndoC-βH1 细胞中 ETV5 蛋白水平的表达降低,并且荧光素酶测定验证了 ETV5 是 miR-200c 的直接靶标。最后,miR-200c 的 LNA 敲低使 T2D 供体的胰岛中的葡萄糖刺激的胰岛素分泌增加了约三倍。我们的数据揭示了 miR-200c-ETV5 轴在 β 细胞功能障碍和 T2D 病理生理学中的重要作用。