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A novel homozygous variant in <i>MICOS13</i>/<i>QIL1</i> causes hepato‐encephalopathy with mitochondrial DNA depletion syndrome

Yoshihito Kishita, Masaru Shimura, Masakazu Kohda, Masumi Akita, Atsuko Imai‐Okazaki, Yukiko Yatsuka, Yoko Nakajima, Tetsuya Ito, Akira Ohtake, Kei Murayama, Yasushi Okazaki

2020Molecular Genetics & Genomic Medicine23 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Mitochondrial DNA depletion syndrome (MTDPS) is part of a group of mitochondrial diseases characterized by a reduction in mitochondrial DNA copy number. Most MTDPS is caused by mutations in genes that disrupt deoxyribonucleotide metabolism. METHODS: We performed the whole-exome sequencing of a hepato-encephalopathy patient with MTDPS and functional analyses to determine the clinical significance of the identified variant. RESULTS: Here, whole-exome sequencing of a patient presenting with hepato-encephalopathy and MTDPS identified a novel homozygous frameshift variant, c.13_29del (p.Trp6Profs*71) in MICOS13. MICOS13 (also known as QIL1, MIC13, or C19orf70) is a component of the MICOS complex, which plays crucial roles in the maintenance of cristae junctions at the mitochondrial inner membrane. We found loss of MICOS13 protein and fewer cristae structures in the mitochondria of fibroblasts derived from the patient. Stable expression of a wild-type MICOS13 cDNA in the patients fibroblasts using a lentivirus system rescued mitochondrial respiratory chain complex deficiencies. CONCLUSION: Our findings suggest that the novel c.13_29del (p.Trp6Profs*71) MICOS13 variant causes hepato-encephalopathy with MTDPS. We propose that MICOS13 is classified as the cause of MTDPS.

Topics & Concepts

Frameshift mutationMitochondrial DNABiologyExome sequencingMitochondrial respiratory chainMitochondrionEncephalopathyRespiratory chainExomeGeneticsMutationMolecular biologyGeneMedicineInternal medicineMitochondrial Function and PathologyAlzheimer's disease research and treatmentsGenomics and Rare Diseases