C2orf69 mutations disrupt mitochondrial function and cause a multisystem human disorder with recurring autoinflammation.

Animals Cell Line Glycogen / genetics Glycogen Debranching Enzyme System / genetics Humans Loss of Function Mutation Mice Mice, Knockout Microcephaly / genetics Mitochondria / genetics Mitochondrial Proteins / genetics Open Reading Frames

Genetic diseases Genetics Mitochondria Neurological disorders

Journal

The Journal of clinical investigation

ISSN: 1558-8238

Titre abrégé: J Clin Invest

Pays: United States

ID NLM: 7802877

Informations de publication

Date de publication:
15 06 2021

Historique:

received: 12 08 2020

accepted: 29 04 2021

pubmed: 5 5 2021

medline: 6 10 2021

entrez: 4 5 2021

Statut: ppublish

Résumé

BACKGROUNDDeciphering the function of the many genes previously classified as uncharacterized open reading frame (ORF) would complete our understanding of a cell's function and its pathophysiology.METHODSWhole-exome sequencing, yeast 2-hybrid and transcriptome analyses, and molecular characterization were performed in this study to uncover the function of the C2orf69 gene.RESULTSWe identified loss-of-function mutations in the uncharacterized C2orf69 gene in 8 individuals with brain abnormalities involving hypomyelination and microcephaly, liver dysfunction, and recurrent autoinflammation. C2orf69 contains an N-terminal signal peptide that is required and sufficient for mitochondrial localization. Consistent with mitochondrial dysfunction, the patients showed signs of respiratory chain defects, and a CRISPR/Cas9-KO cell model of C2orf69 had similar respiratory chain defects. Patient-derived cells revealed alterations in immunological signaling pathways. Deposits of periodic acid-Schiff-positive (PAS-positive) material in tissues from affected individuals, together with decreased glycogen branching enzyme 1 (GBE1) activity, indicated an additional impact of C2orf69 on glycogen metabolism.CONCLUSIONSOur study identifies C2orf69 as an important regulator of human mitochondrial function and suggests that this gene has additional influence on other metabolic pathways.

Identifiants

DOI: 10.1172/JCI143078 PMID: 33945503 PMC: PMC8203463

pubmed: 33945503

pii: 143078

doi: 10.1172/JCI143078

pmc: PMC8203463

doi:

pii:

Substances chimiques

Glycogen Debranching Enzyme System 0

Mitochondrial Proteins 0

Glycogen 9005-79-2

GBE1 protein, human EC 2.4.1.18

Types de publication

Journal Article Research Support, Non-U.S. Gov't

Langues

eng

Sous-ensembles de citation

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