MSTO1 is a cytoplasmic protein that modulates mitochondrial dynamics by promoting mitochondrial fusion. Mutations in the MSTO1 gene are responsible for an extremely rare condition characterized by early-onset myopathy and cerebellar ataxia. We report here two siblings from a large Ashkenazi Jewish family, presenting with a progressive neuromuscular disease characterized by ataxia and myopathy. By whole exome sequencing, we found a novel homozygous missense mutation (c.1403T>A, p.Leu468Gln) in MSTO1. Studies performed on fibroblasts from the index patient demonstrated the pathogenic role of the identified variant; we found that MSTO1 protein level was reduced and that mitochondrial network was fragmented or formed enlarged structures. Moreover, patient’s cells showed reduced mitochondrial DNA amount. Our report confirms that MSTO1 mutations are typically recessive, and associated with clinical phenotypes characterized by early-onset muscle impairment and ataxia, often with upper motor neuron signs and varied cognitive impairment.
A novel homozygous MSTO1 mutation in Ashkenazi Jewish siblings with ataxia and myopathy / A. Nasca, I. Di Meo, Y. Fellig, A. Saada, O. Elpeleg, D. Ghezzi, S. Edvardson. - In: JOURNAL OF HUMAN GENETICS. - ISSN 1434-5161. - (2021). [Epub ahead of print] [10.1038/s10038-020-00897-4]
A novel homozygous MSTO1 mutation in Ashkenazi Jewish siblings with ataxia and myopathy
I. Di MeoSecondo
;D. Ghezzi
Penultimo
;
2021
Abstract
MSTO1 is a cytoplasmic protein that modulates mitochondrial dynamics by promoting mitochondrial fusion. Mutations in the MSTO1 gene are responsible for an extremely rare condition characterized by early-onset myopathy and cerebellar ataxia. We report here two siblings from a large Ashkenazi Jewish family, presenting with a progressive neuromuscular disease characterized by ataxia and myopathy. By whole exome sequencing, we found a novel homozygous missense mutation (c.1403T>A, p.Leu468Gln) in MSTO1. Studies performed on fibroblasts from the index patient demonstrated the pathogenic role of the identified variant; we found that MSTO1 protein level was reduced and that mitochondrial network was fragmented or formed enlarged structures. Moreover, patient’s cells showed reduced mitochondrial DNA amount. Our report confirms that MSTO1 mutations are typically recessive, and associated with clinical phenotypes characterized by early-onset muscle impairment and ataxia, often with upper motor neuron signs and varied cognitive impairment.
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