Recurrent De Novo NAHR Reciprocal Duplications in the ATAD3 Gene Cluster Cause a Neurogenetic Trait with Perturbed Cholesterol and Mitochondrial Metabolism
Abstract
Recent studies have identified both recessive and dominant forms of mitochondrial disease that result from ATAD3A variants. The recessive form includes subjects with biallelic deletions mediated by non-allelic homologous recombination. We report five unrelated neonates with a lethal metabolic disorder characterized by cardiomyopathy, corneal opacities, encephalopathy, hypotonia, and seizures in whom a monoallelic reciprocal duplication at the ATAD3 locus was identified. Analysis of the breakpoint junction fragment indicated that these 67 kb heterozygous duplications were likely mediated by non-allelic homologous recombination at regions of high sequence identity in ATAD3A exon 11 and ATAD3C exon 7. At the recombinant junction, the duplication allele produces a fusion gene derived from ATAD3A and ATAD3C, the protein product of which lacks key functional residues. Analysis of fibroblasts derived from two affected individuals shows that the fusion gene product is expressed and stable. These cells display perturbed cholesterol and mitochondrial DNA organization similar to that observed for individuals with severe ATAD3A deficiency. We hypothesize that the fusion protein acts through a dominant-negative mechanism to cause this fatal mitochondrial disorder. Our data delineate a molecular diagnosis for this disorder, extend the clinical spectrum associated with structural variation at the ATAD3 locus, and identify a third mutational mechanism for ATAD3 gene cluster variants. These results further affirm structural variant mutagenesis mechanisms in sporadic disease traits, emphasize the importance of copy number analysis in molecular genomic diagnosis, and highlight some of the challenges of detecting and interpreting clinically relevant rare gene rearrangements from next-generation sequencing data. ; This article is freely available via Open Access. Click on the publisher URL to access it via the publisher's site. ; We acknowledge funding from Wellcome ( 200990 ). S.E. is a Wellcome Senior Investigator. U.F.P. is supported by a predoctoral fellowship from the Basque Government ( PRE_2018_1_0253 ). M.M.O. is supported by a predoctoral fellowship from the University of the Basque Country ( UPV/EHU, PIF 2018 ). I.J.H. is supported by the Carlos III Health Program ( PI17/00380 ), and País Vasco Department of Health ( 2018111043 ; 2018222031 ). A.S. is supported by the UK Medical Research Council with a Senior Non-Clinical Fellowship ( MC_PC_13029 ). T. Harel is supported by the Israel Science Foundation grant 1663/17 . W.H.Y. is supported by the National Institute of General Medical Sciences of the National Institutes of Health through grant 5 P20 GM103636-07 . J.R.L. is supported by the US National Institute of Neurological Disorders and Stroke ( R35NS105078 ), the National Institute of General Medical Sciences ( R01GM106373 ), and the National Human Genome Research Institute and National Heart Lung and Blood Institute (NHGRI/NHBLI) to the Baylor-Hopkins Center for Mendelian Genomics (BHCMG, UM1 HG006542 ). R.W.T. is supported by the Wellcome Centre for Mitochondrial Research ( 203105/Z/16/Z ), the Medical Research Council (MRC) International Centre for Genomic Medicine in Neuromuscular Disease , Mitochondrial Disease Patient Cohort (UK) ( G0800674 ), the UK NIHR Biomedical Research Centre for Aging and Age-related disease award to the Newcastle upon Tyne Foundation Hospitals NHS Trust, the MRC/EPSRC Molecular Pathology Node , The Lily Foundation , and the UK NHS Highly Specialised Service for Rare Mitochondrial Disorders of Adults and Children . The DDD study presents independent research commissioned by the Health Innovation Challenge Fund (grant number HICF-1009-003). This study makes use of DECIPHER, which is funded by Wellcome. See Nature PMID: 25533962 or https://www.ddduk.org/access.html for full acknowledgment. ; pre-print, post-print (6 month embargo)
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