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De novo mutations in childhood cases of sudden unexplained death that disrupt intracellular Ca <sup>2+</sup> regulation

Matthew Halvorsen, Laura Gould, Xiaohan Wang, Gariel Grant, Raquel Moya, Rachel Rabin, Michael J. Ackerman, David J. Tester, Peter T. Lin, John Pappas, Matthew T. Maurano, David B. Goldstein, Richard W. Tsien, Orrin Devinsky

2021Proceedings of the National Academy of Sciences38 citationsDOIOpen Access PDF

Abstract

Significance Approximately 400 United States children 1 y of age and older die suddenly from unexplained causes annually. We studied whole-exome sequence data from 124 “trios” (decedent child and living parents) to identify genetic risk factors. Nonsynonymous mutations, mostly de novo (present in child but absent in both biological parents), were highly enriched in genes associated with cardiac and seizure disorders relative to controls, and contributed to 9% of deaths. We found significant overtransmission of loss-of-function or pathogenic missense variants in cardiac and seizure disorder genes. Most pathogenic variants were de novo in origin, highlighting the importance of trio studies. Many of these pathogenic de novo mutations altered a protein network regulating calcium-related excitability at submembrane junctions in cardiomyocytes and neurons.

Topics & Concepts

Missense mutationProbandGeneticsBiologyNonsynonymous substitutionSudden deathMutationExome sequencingGeneMedicineInternal medicineGenomeCardiac electrophysiology and arrhythmiasIon channel regulation and functionGenetic Neurodegenerative Diseases
De novo mutations in childhood cases of sudden unexplained death that disrupt intracellular Ca <sup>2+</sup> regulation | Litcius