Reduced Compensatory ß-Cell Proliferation in Nfatc3-Deficient Mice Fed on High-Fat Diet.

BACKGROUND: High-fat-diet induces pancreatic ß-cell compensatory proliferation, and impairments in pancreatic ß-cell proliferation and function can lead to defects in insulin secretion and diabetes. NFATc3 is important for HFD-induced adipose tissue inflammation. But it is unknown whether NFATc3 is required for ß cell compensatory growth in mice fed with HFD. METHODS: NFATc3 mRNA and protein expression levels were quantified by RT-qPCR and Western blotting, respectively, in pancreatic islets of WT mice fed on HFD for 12-20 weeks. Adenoviral-mediated overexpression of NFATc3 were conducted in Min6 cells and cultured primary mouse islets. NFATc3-/- mice and WT control mice were fed with HFD and metabolic and functional parameters were measured. RESULTS: We observed that the NFATc3 expression level was reduced in the islets of high-fat-diet (HFD)-fed mice. Adenovirus-mediated overexpression of NFATc3 enhanced glucose-stimulated insulin secretion and ß-cell gene expression in cultured primary mouse islets. Nfatc3-/- mice initially developed similar glucose tolerance at 2-4 weeks after HFD feeding than HFD-fed WT mice, but Nfatc3-/- mice developed improved glucose tolerance and insulin sensitivity after 8 weeks of HFD feeding compared to Nfatc3+/+fed with HFD. Furthermore, Nfatc3-/- mice on HFD exhibited decreased ß-cell mass and reduced expression of genes important for ß-cell proliferation and function compared to Nfatc3+/+mice on HFD. CONCLUSIONS: The findings suggested that NFATc3 plays a role in maintaining the pancreatic ß-cell compensatory growth and gene expression in response to obesity.