1. Increased levels of mitochondrial import factor Mia40 prevent the aggregation of polyQ proteins in the cytosol.
- Author
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Schlagowski AM, Knöringer K, Morlot S, Sánchez Vicente A, Flohr T, Krämer L, Boos F, Khalid N, Ahmed S, Schramm J, Murschall LM, Haberkant P, Stein F, Riemer J, Westermann B, Braun RJ, Winklhofer KF, Charvin G, and Herrmann JM
- Subjects
- Cell Line, Cytosol metabolism, Humans, Mitochondria metabolism, Mitochondrial Precursor Protein Import Complex Proteins, Saccharomyces cerevisiae, Mitochondrial Membrane Transport Proteins metabolism, Peptides metabolism, Protein Aggregation, Pathological metabolism, Saccharomyces cerevisiae Proteins metabolism
- Abstract
The formation of protein aggregates is a hallmark of neurodegenerative diseases. Observations on patient samples and model systems demonstrated links between aggregate formation and declining mitochondrial functionality, but causalities remain unclear. We used Saccharomyces cerevisiae to analyze how mitochondrial processes regulate the behavior of aggregation-prone polyQ protein derived from human huntingtin. Expression of Q97-GFP rapidly led to insoluble cytosolic aggregates and cell death. Although aggregation impaired mitochondrial respiration only slightly, it considerably interfered with the import of mitochondrial precursor proteins. Mutants in the import component Mia40 were hypersensitive to Q97-GFP, whereas Mia40 overexpression strongly suppressed the formation of toxic Q97-GFP aggregates both in yeast and in human cells. Based on these observations, we propose that the post-translational import of mitochondrial precursor proteins into mitochondria competes with aggregation-prone cytosolic proteins for chaperones and proteasome capacity. Mia40 regulates this competition as it has a rate-limiting role in mitochondrial protein import. Therefore, Mia40 is a dynamic regulator in mitochondrial biogenesis that can be exploited to stabilize cytosolic proteostasis., (© 2021 The Authors. Published under the terms of the CC BY 4.0 license.)
- Published
- 2021
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