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Genetic variants in DDX53 contribute to Autism Spectrum Disorder associated with the Xp22.11 locus.

Marcello ScalaClarrisa A BradleyJennifer L HoweBrett TrostNelson Bautista SalazarCarole ShumMiriam S ReuterJeffrey R MacDonaldSangyoon Y KoPaul W FranklandLeslie GrangerGeorge AnadiotisVerdiana PullanoAlfredo BruscoRoberto KellerSarah ParisottoHelio F PedroLaina LuskPamela Pojomovsky McDonnellIngo HelbigSureni V Mullegamanull nullEmilie D DouineBianca E RussellStanley F NelsonFederico ZaraStephen W Scherer
Published in: medRxiv : the preprint server for health sciences (2023)
Autism Spectrum Disorder (ASD) exhibits an ~4:1 male-to-female sex bias and is characterized by early-onset impairment of social/communication skills, restricted interests, and stereotyped behaviors. Disruption of the Xp22.11 locus has been associated with ASD in males. This locus includes the three-exon PTCHD1 gene, an adjacent multi-isoform long noncoding RNA (lncRNA) named PTCHD1-AS (spanning ~1Mb), and a poorly characterized single-exon RNA helicase named DDX53 that is intronic to PTCHD1-AS . While the relationship between PTCHD1/PTCHD1-AS and ASD is being studied, the role of DDX53 has not been examined, in part because there is no apparent functional murine orthologue. Through clinical testing, here, we identified 6 males and 1 female with ASD from 6 unrelated families carrying rare, predicted-damaging or loss-of-function variants in DDX53 . Then, we examined databases, including the Autism Speaks MSSNG and Simons Foundation Autism Research Initiative, as well as population controls. We identified 24 additional individuals with ASD harboring rare, damaging DDX53 variations, including the same variants detected in two families from the original clinical analysis. In this extended cohort of 31 participants with ASD (28 male, 3 female), we identified 25 mostly maternally-inherited variations in DDX53 , including 18 missense changes, 2 truncating variants, 2 in-frame variants, 2 deletions in the 3' UTR and 1 copy number deletion. Our findings in humans support a direct link between DDX53 and ASD, which will be important in clinical genetic testing. These same autism-related findings, coupled with the observation that a functional orthologous gene is not found in mouse, may also influence the design and interpretation of murine-modelling of ASD.
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