机器学习工作流程确定了人类组织中胰岛素转录的微小RNA特征。

Machine learning workflows identify a microRNA signature of insulin transcription in human tissues.

作者信息

Wong Wilson K M, Joglekar Mugdha V, Saini Vijit, Jiang Guozhi, Dong Charlotte X, Chaitarvornkit Alissa, Maciag Grzegorz J, Gerace Dario, Farr Ryan J, Satoor Sarang N, Sahu Subhshri, Sharangdhar Tejaswini, Ahmed Asma S, Chew Yi Vee, Liuwantara David, Heng Benjamin, Lim Chai K, Hunter Julie, Januszewski Andrzej S, Sørensen Anja E, Akil Ammira S A, Gamble Jennifer R, Loudovaris Thomas, Kay Thomas W, Thomas Helen E, O'Connell Philip J, Guillemin Gilles J, Martin David, Simpson Ann M, Hawthorne Wayne J, Dalgaard Louise T, Ma Ronald C W, Hardikar Anandwardhan A

机构信息

Diabetes and Islet Biology Group, School of Medicine, Western Sydney University, Narellan Road & Gilchrist Drive, Campbelltown, NSW 2560, Australia.

Diabetes and Islet Biology group, Faculty of Medicine and Health, University of Sydney, 92-94 Parramatta Road, Camperdown, NSW 2050, Australia.

出版信息

iScience. 2021 Mar 31;24(4):102379. doi: 10.1016/j.isci.2021.102379. eCollection 2021 Apr 23.

DOI:10.1016/j.isci.2021.102379

PMID:33981968

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8082091/

Abstract

Dicer knockout mouse models demonstrated a key role for microRNAs in pancreatic β-cell function. Studies to identify specific microRNA(s) associated with human (pro-)endocrine gene expression are needed. We profiled microRNAs and key pancreatic genes in 353 human tissue samples. Machine learning workflows identified microRNAs associated with (pro-)insulin transcripts in a discovery set of islets (n = 30) and insulin-negative tissues (n = 62). This microRNA signature was validated in remaining 261 tissues that include nine islet samples from individuals with type 2 diabetes. Top eight microRNAs (miR-183-5p, -375-3p, 216b-5p, 183-3p, -7-5p, -217-5p, -7-2-3p, and -429-3p) were confirmed to be associated with and predictive of (pro-)insulin transcript levels. Use of doxycycline-inducible microRNA-overexpressing human pancreatic duct cell lines confirmed the regulatory roles of these microRNAs in (pro-)endocrine gene expression. Knockdown of these microRNAs in human islet cells reduced (pro-)insulin transcript abundance. Our data provide specific microRNAs to further study microRNA-mRNA interactions in regulating insulin transcription.

摘要

Dicer基因敲除小鼠模型证明了微小RNA在胰腺β细胞功能中起关键作用。需要开展研究来鉴定与人类（前体）内分泌基因表达相关的特定微小RNA。我们分析了353份人类组织样本中的微小RNA和关键胰腺基因。机器学习工作流程在一组发现的胰岛样本（n = 30）和胰岛素阴性组织样本（n = 62）中鉴定出了与（前体）胰岛素转录本相关的微小RNA。这种微小RNA特征在其余261份组织中得到了验证，其中包括来自2型糖尿病患者的9份胰岛样本。前八种微小RNA（miR-183-5p、-375-3p、216b-5p、183-3p、-7-5p、-217-5p、-7-2-3p和-429-3p）被证实与（前体）胰岛素转录本水平相关且具有预测性。使用强力霉素诱导的微小RNA过表达人胰腺导管细胞系证实了这些微小RNA在（前体）内分泌基因表达中的调节作用。在人胰岛细胞中敲低这些微小RNA会降低（前体）胰岛素转录本丰度。我们的数据提供了特定的微小RNA，以进一步研究微小RNA与信使核糖核酸在调节胰岛素转录中的相互作用。

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机器学习工作流程确定了人类组织中胰岛素转录的微小RNA特征。

Machine learning workflows identify a microRNA signature of insulin transcription in human tissues.

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