MECR Mutations Cause Childhood-Onset Dystonia and Optic Atrophy, a Mitochondrial Fatty Acid Synthesis Disorder

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2016 Nov 8

PMID 27817865

Citations 35

Authors

Gali Heimer

Juha M Keratar

Lisa G Riley

Shanti Balasubramaniam

Eran Eyal

Laura P Pietikainen

J Kalervo Hiltunen

Dina Marek-Yagel

Jeffrey Hamada

Allison Gregory

Caleb Rogers

Penelope Hogarth

Martha A Nance

Nechama Shalva

Alvit Veber

Michal Tzadok

Andreea Nissenkorn

Davide Tonduti

Florence Renaldo

Ichraf Kraoua

Celeste Panteghini

Lorella Valletta

Barbara Garavaglia

Mark J Cowley

Velimir Gayevskiy

Tony Roscioli

Jonathon M Silberstein

Chen Hoffmann

Annick Raas-Rothschild

Valeria Tiranti

Yair Anikster

John Christodoulou

Alexander J Kastaniotis

Bruria Ben-Zeev

Susan J Hayflick

Affiliations

Soon will be listed here.

Abstract

Mitochondrial fatty acid synthesis (mtFAS) is an evolutionarily conserved pathway essential for the function of the respiratory chain and several mitochondrial enzyme complexes. We report here a unique neurometabolic human disorder caused by defective mtFAS. Seven individuals from five unrelated families presented with childhood-onset dystonia, optic atrophy, and basal ganglia signal abnormalities on MRI. All affected individuals were found to harbor recessive mutations in MECR encoding the mitochondrial trans-2-enoyl-coenzyme A-reductase involved in human mtFAS. All six mutations are extremely rare in the general population, segregate with the disease in the families, and are predicted to be deleterious. The nonsense c.855T>G (p.Tyr285), c.247_250del (p.Asn83Hisfs4), and splice site c.830+2_830+3insT mutations lead to C-terminal truncation variants of MECR. The missense c.695G>A (p.Gly232Glu), c.854A>G (p.Tyr285Cys), and c.772C>T (p.Arg258Trp) mutations involve conserved amino acid residues, are located within the cofactor binding domain, and are predicted by structural analysis to have a destabilizing effect. Yeast modeling and complementation studies validated the pathogenicity of the MECR mutations. Fibroblast cell lines from affected individuals displayed reduced levels of both MECR and lipoylated proteins as well as defective respiration. These results suggest that mutations in MECR cause a distinct human disorder of the mtFAS pathway. The observation of decreased lipoylation raises the possibility of a potential therapeutic strategy.

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