Novel Mutations Associated with Mitochondrial Disorder: Functional Characterization in Patient Fibroblasts and

Overview

Journal Int J Mol Sci

Publisher MDPI

Specialties Biochemistry
Chemistry
Molecular Biology

Date 2023 Dec 9

PMID 38068960

Authors

Chenelle A Caron-Godon

Stefania Della Vecchia

Alessandro Romano

Stefano Doccini

Flavio Dal Canto

Rosa Pasquariello

Anna Rubegni

Roberta Battini

Filippo Maria Santorelli

D Moira Glerum

Claudia Nesti

Affiliations

Soon will be listed here.

Abstract

Genetic defects in the nuclear encoded subunits and assembly factors of cytochrome c oxidase (mitochondrial complex IV) are very rare and are associated with a wide variety of phenotypes. Biallelic pathogenic variants in the COX11 protein were previously identified in two unrelated children with infantile-onset mitochondrial encephalopathies. Through comprehensive clinical, genetic and functional analyses, here we report on a new patient harboring novel heterozygous variants in , presenting with Leigh-like features, and provide additional experimental evidence for a direct correlation between COX11 protein expression and sensitivity to oxidative stress. To sort out the contribution of the single mutations to the phenotype, we employed a multi-faceted approach using as a genetically manipulable system, and in silico structure-based analysis of human COX11. Our results reveal differential effects of the two novel mutations on yeast growth, respiration, and cellular redox status, as well as their potential impact on human protein stability and function. Strikingly, the functional deficits observed in patient fibroblasts are recapitulated in yeast models, validating the conservation of COX11's role in mitochondrial integrity across evolutionarily distant organisms. This study not only expands the mutational landscape of COX11-associated mitochondrial disorders but also underscores the continued translational relevance of yeast models in dissecting complex molecular pathways.

Citing Articles

Disease models of Leigh syndrome: From yeast to organoids.

Henke M, Prigione A, Schuelke M J Inherit Metab Dis. 2024; 47(6):1292-1321.

PMID: 39385390 PMC: 11586605. DOI: 10.1002/jimd.12804.

More than Just Bread and Wine: Using Yeast to Understand Inherited Cytochrome Oxidase Deficiencies in Humans.

Caron-Godon C, Collington E, Wolf J, Coletta G, Glerum D Int J Mol Sci. 2024; 25(7).

PMID: 38612624 PMC: 11011759. DOI: 10.3390/ijms25073814.

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