C-Abl Phosphorylates MFN2 to Regulate Mitochondrial Morphology in Cells Under Endoplasmic Reticulum and Oxidative Stress, Impacting Cell Survival and Neurodegeneration

Overview

Journal Antioxidants (Basel)

Date 2023 Nov 25

PMID 38001860

Authors

Alexis Martinez

Cristian M Lamaizon

Cristian Valls

Fabien Llambi

Nancy Leal

Patrick Fitzgerald

Cliff Guy

Marcin M Kaminski

Nibaldo C Inestrosa

Brigitte van Zundert

Gonzalo I Cancino

Andres E Dulcey

Silvana Zanlungo

Juan J Marugan

Claudio Hetz

Douglas R Green

Alejandra R Alvarez

Affiliations

Soon will be listed here.

Abstract

The endoplasmic reticulum is a subcellular organelle key in the control of synthesis, folding, and sorting of proteins. Under endoplasmic reticulum stress, an adaptative unfolded protein response is activated; however, if this activation is prolonged, cells can undergo cell death, in part due to oxidative stress and mitochondrial fragmentation. Here, we report that endoplasmic reticulum stress activates c-Abl tyrosine kinase, inducing its translocation to mitochondria. We found that endoplasmic reticulum stress-activated c-Abl interacts with and phosphorylates the mitochondrial fusion protein MFN2, resulting in mitochondrial fragmentation and apoptosis. Moreover, the pharmacological or genetic inhibition of c-Abl prevents MFN2 phosphorylation, mitochondrial fragmentation, and apoptosis in cells under endoplasmic reticulum stress. Finally, in the amyotrophic lateral sclerosis mouse model, where endoplasmic reticulum and oxidative stress has been linked to neuronal cell death, we demonstrated that the administration of c-Abl inhibitor neurotinib delays the onset of symptoms. Our results uncovered a function of c-Abl in the crosstalk between endoplasmic reticulum stress and mitochondrial dynamics via MFN2 phosphorylation.

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