Nature Communications (Nov 2024)

A noncoding variant confers pancreatic differentiation defect and contributes to diabetes susceptibility by recruiting RXRA

  • Yinglei Li,
  • Ran Zheng,
  • Lai Jiang,
  • Chenchao Yan,
  • Ran Liu,
  • Luyi Chen,
  • Wenwen Jin,
  • Yuanyuan Luo,
  • Xiafei Zhang,
  • Jun Tang,
  • Zhe Dai,
  • Wei Jiang

DOI
https://doi.org/10.1038/s41467-024-54151-y
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Human genetics analysis has identified many noncoding SNPs associated with diabetic traits, but whether and how these variants contribute to diabetes is largely unknown. Here, we focus on a noncoding variant, rs6048205, and report that the risk-G variant impairs the generation of PDX1+/NKX6-1+ pancreatic progenitor cells and further results in the abnormal decrease of functional β cells during pancreatic differentiation. Mechanistically, this risk-G variant greatly enhances RXRA binding and over-activates FOXA2 transcription, specifically in the pancreatic progenitor stage, which in turn represses NKX6-1 expression. Consistently, inducible FOXA2 overexpression could phenocopy the differentiation defect. More importantly, mice carrying risk-G exhibit abnormal pancreatic islet architecture and are more sensitive to streptozotocin or a high-fat diet to develop into diabetes eventually. This study not only identifies a causal noncoding variant in diabetes susceptibility but also dissects the underlying gain-of-function mechanism by recruiting stage-specific factors.