Wolfram Syndrome 1 Gene Regulates Pathways Maintaining Beta-Cell Health and Survival

Publication: Nature.com | Publication Date: February 14, 2020

Authors: Damien Abreu, Rie Asada, John M. P. Revilla, Zeno Lavagnino, Kelly Kries, David W. Piston & Fumihiko Urano

Abstract

Wolfram Syndrome 1 (WFS1) protein is an endoplasmic reticulum (ER) factor whose deficiency results in juvenile-onset diabetes secondary to cellular dysfunction and apoptosis. The mechanisms guiding β-cell outcomes secondary to WFS1 function, however, remain unclear. Here, we show that WFS1 preserves normal β-cell physiology by promoting insulin biosynthesis and negatively regulating ER stress. Depletion of Wfs1 in vivo and in vitro causes functional defects in glucose-stimulated insulin secretion and insulin content, triggering Chop-mediated apoptotic pathways. Genetic proof of concept studies coupled with RNA-seq reveal that increasing WFS1 confers a functional and a survival advantage to β-cells under ER stress by increasing insulin gene expression and downregulating the Chop-Trib3 axis, thereby activating Akt pathways. Remarkably, WFS1 and INS levels are reduced in type-2 diabetic (T2DM) islets, suggesting that WFS1 may contribute to T2DM β-cell pathology. Taken together, this work reveals essential pathways regulated by WFS1 to control β-cell survival and function primarily through preservation of ER homeostasis.

Abreu, D., Asada, R., Revilla, J.M.P. et al. Wolfram syndrome 1 gene regulates pathways maintaining beta-cell health and survival. Lab Invest 100, 849–862 (2020). Retrieved February 13, 2024, from https://doi.org/10.1038/s41374-020-0408-5.