OMA1 mediates local and global stress responses against protein misfolding in CHCHD10 mitochondrial myopathy
Mario K. Shammas, … , Joanna Poulton, Derek P. Narendra
Mario K. Shammas, … , Joanna Poulton, Derek P. Narendra
Published June 14, 2022
Citation Information: J Clin Invest. 2022;132(14):e157504. https://doi.org/10.1172/JCI157504.
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Research Article Cell biology Genetics

OMA1 mediates local and global stress responses against protein misfolding in CHCHD10 mitochondrial myopathy

Abstract

Mitochondrial stress triggers a response in the cell’s mitochondria and nucleus, but how these stress responses are coordinated in vivo is poorly understood. Here, we characterize a family with myopathy caused by a dominant p.G58R mutation in the mitochondrial protein CHCHD10. To understand the disease etiology, we developed a knockin (KI) mouse model and found that mutant CHCHD10 aggregated in affected tissues, applying a toxic protein stress to the inner mitochondrial membrane. Unexpectedly, the survival of CHCHD10-KI mice depended on a protective stress response mediated by the mitochondrial metalloendopeptidase OMA1. The OMA1 stress response acted both locally within mitochondria, causing mitochondrial fragmentation, and signaled outside the mitochondria, activating the integrated stress response through cleavage of DAP3-binding cell death enhancer 1 (DELE1). We additionally identified an isoform switch in the terminal complex of the electron transport chain as a component of this response. Our results demonstrate that OMA1 was critical for neonatal survival conditionally in the setting of inner mitochondrial membrane stress, coordinating local and global stress responses to reshape the mitochondrial network and proteome.

Authors

Mario K. Shammas, Xiaoping Huang, Beverly P. Wu, Evelyn Fessler, Insung Y. Song, Nicholas P. Randolph, Yan Li, Christopher K.E. Bleck, Danielle A. Springer, Carl Fratter, Ines A. Barbosa, Andrew F. Powers, Pedro M. Quirós, Carlos Lopez-Otin, Lucas T. Jae, Joanna Poulton, Derek P. Narendra

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Figure 8

The C10 G58R mutation fragments heart mitochondria in an OMA1-dependent manner.

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The C10 G58R mutation fragments heart mitochondria in an OMA1-dependent ...
(A) Reconstruction of segmented FIB-SEM mouse heart mitochondria. Colors are arbitrary and only applied to aid visualization. (B) Complete data sets of 3D-reconstructed heart mitochondria from 14-week-old mice of the indicated genotypes. (C) Magnification of representative fields from the data sets in B. (D) Volume distribution and aspect ratio measurements of mitochondria from B (n >3159 mitochondria for each genotype from 1 biological replicate). (E) Percentage of mitochondria with inclusions and percentage of megamitochondria from TEM images of 14-week-old mouse hearts (n = 3 mice per genotype for all genotypes except OMA1+/– C10G58R, for which n = 2; n = 15 FOV quantified per mouse, with >1900 mitochondria assessed per genotype). (F) Megamitochondria (shaded in blue) from the FIB-SEM stack. Nonmegamitochondria are colored for comparison. (G) Left: Overlay of segmented megamitochondria from C10G58R mice on the OMA1+/– (black) or OMA1–/– (pink) background. Right: Percentage of megamitochondria in the FIB-SEM stack, percentage of megamitochondrial volume of the total mitochondrial volume (mito vol), and average volume of individual megamitochondria (n = 119 OMA1+/– C10G58R megamitochondria; n = 58 OMA1–/– C10G58R megamitochondria). Error bars represent the SEM. For the violin plots in D, the 25th quartile, median, and 75th quartile are indicated. Box-and-whisker plot lines in E were calculated with Tukey’s method. *P < 0.05, **P < 0.01, and ****P < 0.0001, by 1-way ANOVA with Games-Howell’s multiple comparisons (D) and Dunnett’s T3 multiple comparisons (E). See also Supplemental Figure 11.