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  • Targeting ABL-IRE1α Signaling Spares ER-Stressed Pancreatic β Cells to Reverse Autoimmune Diabetes.

Targeting ABL-IRE1α Signaling Spares ER-Stressed Pancreatic β Cells to Reverse Autoimmune Diabetes.

Cell metabolism (2017-04-06)
Shuhei Morita, S Armando Villalta, Hannah C Feldman, Ames C Register, Wendy Rosenthal, Ingeborg T Hoffmann-Petersen, Morvarid Mehdizadeh, Rajarshi Ghosh, Likun Wang, Kevin Colon-Negron, Rosa Meza-Acevedo, Bradley J Backes, Dustin J Maly, Jeffrey A Bluestone, Feroz R Papa
ZUSAMMENFASSUNG

In cells experiencing unrelieved endoplasmic reticulum (ER) stress, the ER transmembrane kinase/endoribonuclease (RNase)-IRE1α-endonucleolytically degrades ER-localized mRNAs to promote apoptosis. Here we find that the ABL family of tyrosine kinases rheostatically enhances IRE1α's enzymatic activities, thereby potentiating ER stress-induced apoptosis. During ER stress, cytosolic ABL kinases localize to the ER membrane, where they bind, scaffold, and hyperactivate IRE1α's RNase. Imatinib-an anti-cancer tyrosine kinase inhibitor-antagonizes the ABL-IRE1α interaction, blunts IRE1α RNase hyperactivity, reduces pancreatic β cell apoptosis, and reverses type 1 diabetes (T1D) in the non-obese diabetic (NOD) mouse model. A mono-selective kinase inhibitor that allosterically attenuates IRE1α's RNase-KIRA8-also efficaciously reverses established diabetes in NOD mice by sparing β cells and preserving their physiological function. Our data support a model wherein ER-stressed β cells contribute to their own demise during T1D pathogenesis and implicate the ABL-IRE1α axis as a drug target for the treatment of an autoimmune disease.

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Sigma-Aldrich
KIRA8, ≥98% (HPLC)