Mitochondrial Encephalomyopathy Due to a Novel Mutation in ACAD9

Overview

Journal JAMA Neurol

Publisher American Medical Association

Date 2013 Jul 10

PMID 23836383

Citations 18

Authors

Caterina Garone

Maria Alice Donati

Michele Sacchini

Beatriz Garcia-Diaz

Claudio Bruno

Sarah Calvo

Vamsi K Mootha

Salvatore DiMauro

Affiliations

Soon will be listed here.

Abstract

Importance: Mendelian forms of complex I deficiency are usually associated with fatal infantile encephalomyopathy. Application of "MitoExome" sequencing (deep sequencing of the entire mitochondrial genome and the coding exons of >1000 nuclear genes encoding the mitochondrial proteome) allowed us to reveal an unusual clinical variant of complex I deficiency due to a novel homozygous mutation in ACAD9. The patient had an infantile-onset but slowly progressive encephalomyopathy and responded favorably to riboflavin therapy.

Observation: A 13-year-old boy had exercise intolerance, weakness, and mild psychomotor delay. Muscle histochemistry showed mitochondrial proliferation, and biochemical analysis revealed severe complex I deficiency (15% of normal). The level of complex I holoprotein was reduced as determined by use of Western blot both in muscle (54%) and in fibroblasts (57%).

Conclusions And Relevance: The clinical presentation of complex I deficiency due ACAD9 mutations spans from fatal infantile encephalocardiomyopathy to mild encephalomyopathy. Our data support the notion that ACAD9 functions as a complex I assembly protein. ACAD9 is a flavin adenine dinucleotide-containing flavoprotein, and treatment with riboflavin is advisable.

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