Mutations in the mitochondrial complex I assembly factor NDUFAF1 cause fatal infantile hypertrophic cardiomyopathy
E Fassone, JW Taanman, IP Hargreaves… - Journal of medical …, 2011 - jmg.bmj.com
Journal of medical genetics, 2011•jmg.bmj.com
Background Hypertrophic cardiomyopathy (HCM) is frequently fatal in infancy. Mitochondrial
disease causing infantile HCM is characterised by extreme biochemical and genetic
heterogeneity, but deficiency of respiratory chain complex I is observed relatively frequently.
Identification of the precise genetic basis has prognostic implications for the likelihood of
neurological involvement. Objective The authors' objective is to report two heterozygous
missense mutations in the NDUFAF1 gene as a cause of fatal infantile HCM in a patient with …
disease causing infantile HCM is characterised by extreme biochemical and genetic
heterogeneity, but deficiency of respiratory chain complex I is observed relatively frequently.
Identification of the precise genetic basis has prognostic implications for the likelihood of
neurological involvement. Objective The authors' objective is to report two heterozygous
missense mutations in the NDUFAF1 gene as a cause of fatal infantile HCM in a patient with …
Background
Hypertrophic cardiomyopathy (HCM) is frequently fatal in infancy. Mitochondrial disease causing infantile HCM is characterised by extreme biochemical and genetic heterogeneity, but deficiency of respiratory chain complex I is observed relatively frequently. Identification of the precise genetic basis has prognostic implications for the likelihood of neurological involvement.
Objective
The authors' objective is to report two heterozygous missense mutations in the NDUFAF1 gene as a cause of fatal infantile HCM in a patient with isolated complex I deficiency.
Methods
The authors investigated a cohort of 30 paediatric patients with complex I deficiency using biochemical and genetic approaches. The patients were clinically heterogeneous; phenotypes included HCM, Leigh syndrome, other encephalomyopathies and multisystem disease. Complex I assembly was evaluated using Blue Native polyacrylamide gel electrophoresis.
Results
Sequence analysis of NDUFAF1 revealed compound heterozygous missense mutations (c.631C>T;p.Arg211Cys and c.733G>A;p.Gly245Arg) in one patient with fatal infantile HCM. These changes were absent in 240 ethnically matched control alleles. No NDUFAF1 mutations were observed in the remaining patients. Functional studies demonstrated a severe reduction in NDUFAF1 protein in Western blots of patient fibroblasts and accumulation of abnormal complex I assembly intermediates on Blue Native polyacrylamide gel electrophoresis.
Conclusions
The authors report a case of fatal infantile HCM caused by missense mutations in NDUFAF1 associated with complex I misassembly. Establishing a genetic diagnosis in mitochondrial cardiomyopathy is challenging and achieved in only a minority of cases because of complex genetics. A precise genetic diagnosis is important to provide accurate prognostic and genetic counselling advice regarding recurrence risks and to guide future reproductive options.
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