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Expanding the genotype–phenotype correlation of<i>de novo</i>heterozygous missense variants in<i>YWHAG</i>as a cause of developmental and epileptic encephalopathy

Farah Kanani, Hannah Titheradge, Nicola Cooper, Frances Elmslie, Melissa Lees, Jane Juusola, Laura Rosa Pisani, Carolyn McKenna, Cyril Mignot, Stéphanie Valence, Boris Keren, Katherine Lachlan, DDD Study, Meena Balasubramanian

2020American Journal of Medical Genetics Part A22 citationsDOI

Abstract

Developmental and Epileptic encephalopathies (DEE) describe heterogeneous epilepsy syndromes, characterized by early-onset, refractory seizures and developmental delay (DD). Several DEE associated genes have been reported. With increased access to whole exome sequencing (WES), new candidate genes are being identified although there are fewer large cohort papers describing the clinical phenotype in such patients. We describe 6 unreported individuals and provide updated information on an additional previously reported individual with heterozygous de novo missense variants in YWHAG. We describe a syndromal phenotype, report 5 novel, and a recurrent p.Arg132Cys YWHAG variant and compare developmental trajectory and treatment strategies in this cohort. We provide further evidence of causality in YWHAG variants. WES was performed in five patients via Deciphering Developmental Disorders Study and the remaining two were identified via Genematcher and AnnEX databases. De novo variants identified from exome data were validated using Sanger sequencing. Seven out of seven patients in the cohort have de novo, heterozygous missense variants in YWHAG including 2/7 patients with a recurrent c.394C > T, p.Arg132Cys variant; 1/7 has a second, pathogenic variant in STAG1. Characteristic features included: early-onset seizures, predominantly generalized tonic-clonic and absence type (7/7) with good response to standard anti-epileptic medications; moderate DD; Intellectual Disability (ID) (5/7) and Autism Spectrum Disorder (3/7). De novo YWHAG missense variants cause EE, characterized by early-onset epilepsy, ID and DD, supporting the hypothesis that YWHAG loss-of-function causes a neurological phenotype. Although the exact mechanism of disease resulting from alterations in YWHAG is not fully known, it is possible that haploinsufficiency of YWHAG in developing cerebral cortex may lead to abnormal neuronal migration resulting in DEE.

Topics & Concepts

Missense mutationExome sequencingSanger sequencingEpilepsyIntellectual disabilityCohortGeneticsExomePhenotypeCompound heterozygosityGlobal developmental delayMicrocephalyBiologyAutismMedicineMutationGeneInternal medicineNeurosciencePsychiatry14-3-3 protein interactionsUbiquitin and proteasome pathwaysProtein Tyrosine Phosphatases