Mazhor Aldosary scite author profile

Distinguishing pathogenic from polymorphic changes poses significant problems for geneticists and despite 30 years of postgenomic experience this remains the case in mitochondrial genetics. Base substitutions in mitochondrial tRNA (mt-tRNA) genes are particularly difficult, but important, because they are common causes of pathology and associated with high rates of transmission. Providing accurate genetic advice to patients and their families is of paramount importance in disease prevention, and brings into sharp focus the factors used to distinguish pathogenic from polymorphic variants. We have reevaluated our pathogenicity scoring system for mt-tRNA mutations following a considerable increase in the number reported since the system was devised in 2004. This allowed us to address notable issues including the underestimation of "definitely pathogenic" mutations resulting from insufficient data collection. We illustrate the robustness of our revised scoring system using novel pathogenic and previously reported polymorphic changes and conclude that while clear evidence from single-fiber and/or trans-mitochondrial cybrid studies remains the gold standard for assigning pathogenicity, our scoring system is valuable for deciding which mt-tRNA mutations to investigate further using these labor-intensive techniques.

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Mutations in NALCN Cause an Autosomal-Recessive Syndrome with Severe Hypotonia, Speech Impairment, and Cognitive Delay

AlSayed

Alzaidan

Al-Bakheet

et al. 2013

The American Journal of Human Genetics

100

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Sodium leak channel, nonselective (NALCN) is a voltage-independent and cation-nonselective channel that is mainly responsible for the leaky sodium transport across neuronal membranes and controls neuronal excitability. Although NALCN variants have been conflictingly reported to be in linkage disequilibrium with schizophrenia and bipolar disorder, to our knowledge, no mutations have been reported to date for any inherited disorders. Using linkage, SNP-based homozygosity mapping, targeted sequencing, and confirmatory exome sequencing, we identified two mutations, one missense and one nonsense, in NALCN in two unrelated families. The mutations cause an autosomal-recessive syndrome characterized by subtle facial dysmorphism, variable degrees of hypotonia, speech impairment, chronic constipation, and intellectual disability. Furthermore, one of the families pursued preimplantation genetic diagnosis on the basis of the results from this study, and the mother recently delivered healthy twins, a boy and a girl, with no symptoms of hypotonia, which was present in all the affected children at birth. Hence, the two families we describe here represent instances of loss of function in human NALCN.

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ISCA2mutation causes infantile neurodegenerative mitochondrial disorder

et al. 2014

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The p.M292T NDUFS2 mutation causes complex I-deficient Leigh syndrome in multiple families

Tuppen

Hogan

et al. 2010

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Isolated complex I deficiency is the most frequently observed oxidative phosphorylation defect in children with mitochondrial disease, leading to a diverse range of clinical presentations, including Leigh syndrome. For most patients the genetic cause of the biochemical defect remains unknown due to incomplete understanding of the complex I assembly process. Nonetheless, a plethora of pathogenic mutations have been described to date in the seven mitochondrial-encoded subunits of complex I as well as in 12 of the nuclear-encoded subunits and in six assembly factors. Whilst several mitochondrial DNA mutations are recurrent, the majority of these mutations are reported in single families. We have sequenced core structural and functional nuclear-encoded subunits of complex I in a cohort of 34 paediatric patients with isolated complex I deficiency, identifying pathogenic mutations in 6 patients. These included a novel homozygous NDUFS1 mutation in an Asian child with Leigh syndrome, a previously identified NDUFS8 mutation (c.236C>T, p.P79L) in a second Asian child with Leigh-like syndrome and six novel, compound heterozygous NDUFS2 mutations in four white Caucasian patients with Leigh or Leigh-like syndrome. Three of these children harboured an identical NDUFS2 mutation (c.875T>C, p.M292T), which was also identified in conjunction with a novel NDUFS2 splice site mutation (c.866+4A>G) in a fourth Caucasian child who presented to a different diagnostic centre, with microsatellite and single nucleotide polymorphism analyses indicating that this was due to an ancient common founder event. Our results confirm that NDUFS2 is a mutational hotspot in Caucasian children with isolated complex I deficiency and recommend the routine diagnostic investigation of this gene in patients with Leigh or Leigh-like phenotypes.

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Mazhor Aldosary

A comparative analysis approach to determining the pathogenicity of mitochondrial tRNA mutations

Mutations in NALCN Cause an Autosomal-Recessive Syndrome with Severe Hypotonia, Speech Impairment, and Cognitive Delay

ISCA2mutation causes infantile neurodegenerative mitochondrial disorder

The p.M292T NDUFS2 mutation causes complex I-deficient Leigh syndrome in multiple families

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