Author
Listed:
- Hsin-Hsien Lin
(National Taiwan University)
- I-Shing Yu
(National Taiwan University
National Taiwan University)
- Ming-Shan Cheng
(National Taiwan University)
- Tien-Jyun Chang
(National Taiwan University Hospital)
- Hsin-Ying Lin
(National Taiwan University)
- Yi-Cheng Chang
(National Taiwan University)
- Chun-Jung Ko
(National Taiwan University)
- Ping-Hung Chen
(National Taiwan University)
- Shu-Wha Lin
(National Taiwan University
National Taiwan University
National Taiwan University)
- Tai-Chung Huang
(National Taiwan University Hospital)
- Shin-Yi Huang
(National Taiwan University Hospital)
- Tzu-Yu Chen
(National Taiwan University)
- Kai-Wen Kan
(National Taiwan University)
- Hsiang-Po Huang
(National Taiwan University)
- Ming-Shyue Lee
(National Taiwan University)
Abstract
SPINT1, a membrane-anchored serine protease inhibitor, regulates cascades of pericellular proteolysis while its tissue-specific functions remain incompletely characterized. In this study, we generate Spint1-lacZ knock-in mice and observe Spint1 expression in embryonic pancreatic epithelium. Pancreas-specific Spint1 disruption significantly diminishes islet size and mass, causing glucose intolerance and downregulation of MAFA and insulin. Mechanistically, the serine protease HEPSIN interacts with SPINT1 in β cells, and Hepsin silencing counteracts the downregulation of Mafa and Ins1 caused by Spint1 depletion. Furthermore, we demonstrate a potential interaction between HEPSIN and GLP1R in β cells. Spint1 silencing or Hepsin overexpression reduces GLP1R-related cyclic AMP levels and Mafa expression. Spint1-disrupted mice also exhibit a significant reduction in Exendin-4-induced insulin secretion. Moreover, SPINT1 expression increases in islets of prediabetic humans compared to non-prediabetic groups. The results unveil a role for SPINT1 in β cells, modulating glucose homeostasis and insulin production via HEPSIN/MAFA signaling.
Suggested Citation
Hsin-Hsien Lin & I-Shing Yu & Ming-Shan Cheng & Tien-Jyun Chang & Hsin-Ying Lin & Yi-Cheng Chang & Chun-Jung Ko & Ping-Hung Chen & Shu-Wha Lin & Tai-Chung Huang & Shin-Yi Huang & Tzu-Yu Chen & Kai-Wen, 2024.
"Spint1 disruption in mouse pancreas leads to glucose intolerance and impaired insulin production involving HEPSIN/MAFA,"
Nature Communications, Nature, vol. 15(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54927-2
DOI: 10.1038/s41467-024-54927-2
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