DNA甲基化
表观遗传学
2型糖尿病
生物
表观遗传学
BETA(编程语言)
转录组
基因表达
基因
β细胞
阿尔法(金融)
分子生物学
亚硫酸氢盐测序
下调和上调
甲基化
基因表达调控
核糖核酸
DNA
细胞生物学
差异甲基化区
表观基因组
胰岛素
遗传学
内分泌学
癌症研究
电池类型
化学
CpG站点
内科学
作者
Jones K. Ofori,Sabrina Ruhrmann,Axel Lindström,Alexander Perfilyev,Melina Martin,Alexandros Karagiannopoulos,Lucia Scisciola,Katja Kost,Josefine Jönsson,Åsa Nilsson,Boris Kantor,Monika Dudenhöffer‐Pfeifer,Marianne G. Rots,Anna Wendt,Tina Rönn,Lena Eliasson,Karl Bacos,Charlotte Ling
标识
DOI:10.1038/s42255-026-01498-9
摘要
Epigenome-wide studies of pancreatic islets provide valuable insights into type 2 diabetes (T2D) but lack methylomes from individual cell types. Here we show changes to alpha and beta cell-specific methylomes and transcriptomes from people with or without T2D, using whole-genome bisulfite sequencing and RNA sequencing. We discover 22,544 differentially methylated regions annotated to 7,975 genes in alpha versus beta cells, such as INS, GCG, PDX1 and PCSK1, with ~50% showing differential expression. CRISPR-dCas9-DNMT3A-based epigenetic editing increases INS and TH DNA methylation, while CRISPR-dCas9-TET1-based editing decreases GCG methylation, each altering INS, TH or GCG expression and content in beta cells. Pre-T2D/T2D-associated differentially methylated regions in alpha and beta cells overlap 12-18% of T2D-associated genome-wide association study candidates. Additionally, ONECUT2 is epigenetically upregulated in beta cells from people with pre-T2D/T2D and elevated in male Goto-Kakizaki rat islets. ONECUT2 overexpression in beta cells/islets downregulates gene sets impacting insulin secretion and glucose homeostasis, and reduces mitochondrial activity, ATP/ADP ratio and insulin secretion. We also provide 'alpha-beta-methylome' ( https://alpha-beta-methylome.serve.scilifelab.se/app/alpha-beta-methylome/ ), a resource exploring T2D, age and sex associations on methylation, highlighting cell-specific epigenetic regulation and dysfunctions contributing to T2D.
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