MSTO1 is a cytoplasmic pro-mitochondrial fusion protein, whose mutation induces myopathy and ataxia in humans.
Aniko GalPeter BaliczaDavid WeaverShamim NaghdiSuresh K JosephPéter VárnaiTibor GyurisAttila HorváthLaszlo NagyErin L SeifertMaria Judit MolnarGyörgy HajnóczkyPublished in: EMBO molecular medicine (2018)
The protein MSTO1 has been localized to mitochondria and linked to mitochondrial morphology, but its specific role has remained unclear. We identified a c.22G > A (p.Val8Met) mutation of MSTO1 in patients with minor physical abnormalities, myopathy, ataxia, and neurodevelopmental impairments. Lactate stress test and myopathological results suggest mitochondrial dysfunction. In patient fibroblasts, MSTO1 mRNA and protein abundance are decreased, mitochondria display fragmentation, aggregation, and decreased network continuity and fusion activity. These characteristics can be reversed by genetic rescue. Short-term silencing of MSTO1 in HeLa cells reproduced the impairment of mitochondrial morphology and dynamics observed in the fibroblasts without damaging bioenergetics. At variance with a previous report, we find MSTO1 to be localized in the cytoplasmic area with limited colocalization with mitochondria. MSTO1 interacts with the fusion machinery as a soluble factor at the cytoplasm-mitochondrial outer membrane interface. After plasma membrane permeabilization, MSTO1 is released from the cells. Thus, an MSTO1 loss-of-function mutation is associated with a human disorder showing mitochondrial involvement. MSTO1 likely has a physiologically relevant role in mitochondrial morphogenesis by supporting mitochondrial fusion.
Keyphrases
- oxidative stress
- induced apoptosis
- cell death
- cell cycle arrest
- endothelial cells
- binding protein
- mental health
- reactive oxygen species
- late onset
- gene expression
- signaling pathway
- tyrosine kinase
- extracellular matrix
- amino acid
- microbial community
- case report
- protein protein
- small molecule
- heat stress
- network analysis
- antibiotic resistance genes