Autism Spectrum Disorder: contribution of genetic variants involved in the nonsense-mediated mRNA decay

Marques, Ana Rita; Santos, João Xavier; Vilela, Joana; Rasga, Célia; Martiniano, Hugo; Oliveira, Guiomar; Romão, Luísa; Moura Vicente, Astrid

http://hdl.handle.net/10400.18/8228

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Authors

Moura Vicente, Astrid

Abstract(s)

Introduction: Autism Spectrum Disorder (ASD) is a neurodevelopmental condition characterized by impairedsocial/communication skills and stereotyped/repetitive behaviors. Genetic factors account for 50-80% of the familialrisk of ASD, but genetic determinants are not fully understood and a role for regulatory processes is plausible. Inthis study, we explored the contribution to ASD etiology of genes involved in an important post-transcriptionalregulatory mechanism implicated in neurodevelopment, the Nonsense-Mediated Decay (NMD). Methods: We first compiled a group of 46 genes encoding NMD factors and regulators. In these genes wesearched for Single Nucleotide Variants (SNVs) and Copy Number Variants (CNVs) in two samples of ASD patients(N=1828 and N=3570, respectively). We observed the frequency of these variants in 60146 controls from gnomADv2.1.1 (for SNVs) and in 10355 controls from the Database of Genomic Variant ( for CNVs). In genes with rarevariants (MAF<1% in controls) predicted to be pathogenic in silico , we further investigated whether these variantsaffect protein domains required for NMD. Results: We identified 270 predicted pathogenic SNVs within 38 genes in 524 ASD patients (28.7% of the total ASDcases) and 38 CNVs located in 18 genes in 38 ASD patients (1% of the ASD cases). Five of these genes, RBM8A , UPF2 , FMR1 , SMG6 and EIF4G1, were previously associated with ASD. We found that 136 variants (122 SNVsand 11 CNVs), in 23 genes, were located within known protein domainsrequired for NMD. These variants, identifiedin 258 ASD patients, may affect proper NMD function and consequently contribute to changes in the expression ofNMD targets. Discussion : In this study we identified genetic variants that may affect NMD function in ASD patients. Since mostNMD targets encode proteins expressed in the brain, we hypothesize that NMD impairment can constitute a riskfactor to ASD pathophysiology. Further studies are needed to better understand the impact of these genetic variantson NMD function and their relevance for ASD.A full understanding of these regulatory mechanisms may constitutean opportunity for the development of therapeutic interventions.

Keywords

Doenças Genéticas Genómica Funcional Genómica Funcional e Estrutural Perturbações do Desenvolvimento Infantil e Saúde Mental Autismo Autism Spectrum Disorder