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Loss of <i>Fis1</i> impairs proteostasis during skeletal muscle aging in <i>Drosophila</i>

Tai‐Ting Lee, Po‐Lin Chen, Matthew P. Su, Jian‐Chiuan Li, Yi‐Wen Chang, R. Liu, Hsueh‐Fen Juan, Jinn‐Moon Yang, Shih‐Peng Chan, Yu‐Chen Tsai, Sophia von Stockum, Elena Ziviani, Azusa Kamikouchi, Horng‐Dar Wang, Chun‐Hong Chen

2021Aging Cell26 citationsDOIOpen Access PDF

Abstract

Increased levels of dysfunctional mitochondria within skeletal muscle are correlated with numerous age-related physiopathological conditions. Improving our understanding of the links between mitochondrial function and muscle proteostasis, and the role played by individual genes and regulatory networks, is essential to develop treatments for these conditions. One potential player is the mitochondrial outer membrane protein Fis1, a crucial fission factor heavily involved in mitochondrial dynamics in yeast but with an unknown role in higher-order organisms. By using Drosophila melanogaster as a model, we explored the effect of Fis1 mutations generated by transposon Minos-mediated integration. Mutants exhibited a higher ratio of damaged mitochondria with age as well as elevated reactive oxygen species levels compared with controls. This caused an increase in oxidative stress, resulting in large accumulations of ubiquitinated proteins, accelerated muscle function decline, and mitochondrial myopathies in young mutant flies. Ectopic expression of Fis1 isoforms was sufficient to suppress this phenotype. Loss of Fis1 led to unbalanced mitochondrial proteostasis within fly muscle, decreasing both flight capabilities and lifespan. Fis1 thus clearly plays a role in fly mitochondrial dynamics. Further investigations into the detailed function of Fis1 are necessary for exploring how mitochondrial function correlates with muscle health during aging.

Topics & Concepts

FIS1ProteostasisBiologyCell biologySkeletal muscleMitochondrial fissionMitochondrionDrosophila melanogasterMFN2mitochondrial fusionGeneticsMitochondrial DNAGeneEndocrinologyMitochondrial Function and PathologyGenetics, Aging, and Longevity in Model OrganismsATP Synthase and ATPases Research
Loss of <i>Fis1</i> impairs proteostasis during skeletal muscle aging in <i>Drosophila</i> | Litcius