Recessive mutations in MSTO1 cause mitochondrial dynamics impairment, leading to myopathy and ataxia.
Alessia NascaChiara ScottonIrina ZaharievaMarcella NeriRita SelvaticiOlafur Thor MagnussonAniko GalDavid WeaverRachele RossiAnnarita ArmaroliMarika PaneRahul PhadkeAnna SarkozyFrancesco MuntoniImelda HughesAntonella CecconiGyörgy HajnóczkyAlice DonatiEugenio MercuriMassimo ZevianiAlessandra FerliniDaniele GhezziPublished in: Human mutation (2017)
We report here the first families carrying recessive variants in the MSTO1 gene: compound heterozygous mutations were identified in two sisters and in an unrelated singleton case, who presented a multisystem complex phenotype mainly characterized by myopathy and cerebellar ataxia. Human MSTO1 is a poorly studied protein, suggested to have mitochondrial localization and to regulate morphology and distribution of mitochondria. As for other mutations affecting genes involved in mitochondrial dynamics, no biochemical defects typical of mitochondrial disorders were reported. Studies in patients' fibroblasts revealed that MSTO1 protein levels were strongly reduced, the mitochondrial network was fragmented, and the fusion events among mitochondria were decreased, confirming the deleterious effect of the identified variants and the role of MSTO1 in modulating mitochondrial dynamics. We also found that MSTO1 is mainly a cytosolic protein. These findings indicate recessive mutations in MSTO1 as a new cause for inherited neuromuscular disorders with multisystem features.
Keyphrases
- oxidative stress
- muscular dystrophy
- copy number
- endothelial cells
- early onset
- intellectual disability
- cell death
- protein protein
- newly diagnosed
- ejection fraction
- amino acid
- body mass index
- chronic kidney disease
- dna methylation
- reactive oxygen species
- prognostic factors
- small molecule
- single cell
- binding protein
- preterm birth
- cord blood
- gestational age
- case control
- genome wide identification