Scientific Reports (Jul 2022)

Transgenic overexpression of microRNA-30d in pancreatic beta-cells progressively regulates beta-cell function and identity

  • Yiping Mao,
  • Jacob Schoenborn,
  • Zhihong Wang,
  • Xinqian Chen,
  • Katy Matson,
  • Ramkumar Mohan,
  • Shungang Zhang,
  • Xiaohu Tang,
  • Anoop Arunagiri,
  • Peter Arvan,
  • Xiaoqing Tang

DOI
https://doi.org/10.1038/s41598-022-16174-7
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 12

Abstract

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Abstract Abnormal microRNA functions are closely associated with pancreatic β-cell loss and dysfunction in type 2 diabetes. Dysregulation of miR-30d has been reported in the individuals with diabetes. To study how miR-30d affects pancreatic β-cell functions, we generated two transgenic mouse lines that specifically overexpressed miR-30d in β-cells at distinct low and high levels. Transgenic overexpressed miR-30d systemically affected β-cell function. Elevated miR-30d at low-level (TgL, 2-fold) had mild effects on signaling pathways and displayed no significant changes to metabolic homeostasis. In contrast, transgenic mice with high-level of miR-30d expression (TgH, 12-fold) exhibited significant diet-induced hyperglycemia and β-cell dysfunction. In addition, loss of β-cell identity was invariably accompanied with increased insulin/glucagon-double positive bihormonal cells and excess plasma glucagon levels. The transcriptomic analysis revealed that miR-30d overexpression inhibited β-cell-enriched gene expression and induced α-cell-enriched gene expression. These findings implicate that an appropriate miR-30d level is essential in maintaining normal β-cell identity and function.