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. 2022 Feb;4(2):269-283.
doi: 10.1038/s42255-022-00536-6. Epub 2022 Feb 28.

mPGES-2 blockade antagonizes β-cell senescence to ameliorate diabetes by acting on NR4A1

Dandan Zhong #  1 Zhikang Wan #  1   2 Jie Cai #  1   3 Lingling Quan  1 Rumeng Zhang  1   3 Tian Teng  1 Hang Gao  1 Chenyu Fan  1 Meng Wang  4 Dong Guo  1 Hongxing Zhang  5 Zhanjun Jia  6   7 Ying Sun  8
Affiliations

mPGES-2 blockade antagonizes β-cell senescence to ameliorate diabetes by acting on NR4A1

Dandan Zhong et al. Nat Metab. 2022 Feb.

Abstract

β-cell dysfunction is a hallmark of type 1 and type 2 diabetes. Type 2 diabetes is strongly associated with ageing-related β-cell abnormalities that arise through unknown mechanisms. Here we show better β-cell identity, less β-cell senescence, enhanced glucose-stimulated insulin secretion and improved glucose homeostasis in global microsomal prostaglandin E synthase-2 (mPGES-2)-deficient mice challenged with a high-fat diet or bred with a genetic model of type 2 diabetes (db/db mice). Furthermore, the function of mPGES-2 in β-cells is validated using mice with β-cell-specific mPGES-2 deficiency or overexpression. Mechanistically, the protective role of mPGES-2 deletion is induced by antagonizing β-cell senescence via interference of the PGE2-EP3-NR4A1 signalling axis. We also discover an inhibitor of mPGES-2, SZ0232, which protects against β-cell dysfunction and diabetes, similar to mPGES-2 deletion. We conclude that mPGES-2 contributes to ageing-associated β-cell senescence and dysfunction via the PGE2-EP3-NR4A1 signalling axis. Pharmacologic blockade of mPGES-2 might be effective for treating ageing-associated β-cell dysfunction and diabetes.

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