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Rare De Novo Missense Variants in RNA Helicase DDX6 Cause Intellectual Disability and Dysmorphic Features and Lead to P-Body Defects and RNA Dysregulation.


ABSTRACT: The human RNA helicase DDX6 is an essential component of membrane-less organelles called processing bodies (PBs). PBs are involved in mRNA metabolic processes including translational repression via coordinated storage of mRNAs. Previous studies in human cell lines have implicated altered DDX6 in molecular and cellular dysfunction, but clinical consequences and pathogenesis in humans have yet to be described. Here, we report the identification of five rare de novo missense variants in DDX6 in probands presenting with intellectual disability, developmental delay, and similar dysmorphic features including telecanthus, epicanthus, arched eyebrows, and low-set ears. All five missense variants (p.His372Arg, p.Arg373Gln, p.Cys390Arg, p.Thr391Ile, and p.Thr391Pro) are located in two conserved motifs of the RecA-2 domain of DDX6 involved in RNA binding, helicase activity, and protein-partner binding. We use functional studies to demonstrate that the first variants identified (p.Arg373Gln and p.Cys390Arg) cause significant defects in PB assembly in primary fibroblast and model human cell lines. These variants' interactions with several protein partners were also disrupted in immunoprecipitation assays. Further investigation via complementation assays included the additional variants p.Thr391Ile and p.Thr391Pro, both of which, similarly to p.Arg373Gln and p.Cys390Arg, demonstrated significant defects in P-body assembly. Complementing these molecular findings, modeling of the variants on solved protein structures showed distinct spatial clustering near known protein binding regions. Collectively, our clinical and molecular data describe a neurodevelopmental syndrome associated with pathogenic missense variants in DDX6. Additionally, we suggest DDX6 join the DExD/H-box genes DDX3X and DHX30 in an emerging class of neurodevelopmental disorders involving RNA helicases.

SUBMITTER: Balak C 

PROVIDER: S-EPMC6731366 | biostudies-literature | 2019 Sep

REPOSITORIES: biostudies-literature

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Rare De Novo Missense Variants in RNA Helicase DDX6 Cause Intellectual Disability and Dysmorphic Features and Lead to P-Body Defects and RNA Dysregulation.

Balak Chris C   Benard Marianne M   Schaefer Elise E   Iqbal Sumaiya S   Ramsey Keri K   Ernoult-Lange Michèle M   Mattioli Francesca F   Llaci Lorida L   Geoffroy Véronique V   Courel Maité M   Naymik Marcus M   Bachman Kristine K KK   Pfundt Rolph R   Rump Patrick P   Ter Beest Johanna J   Wentzensen Ingrid M IM   Monaghan Kristin G KG   McWalter Kirsty K   Richholt Ryan R   Le Béchec Antony A   Jepsen Wayne W   De Both Matt M   Belnap Newell N   Boland Anne A   Piras Ignazio S IS   Deleuze Jean-François JF   Szelinger Szabolcs S   Dollfus Hélène H   Chelly Jamel J   Muller Jean J   Campbell Arthur A   Lal Dennis D   Rangasamy Sampathkumar S   Mandel Jean-Louis JL   Narayanan Vinodh V   Huentelman Matt M   Weil Dominique D   Piton Amélie A  

American journal of human genetics 20190815 3


The human RNA helicase DDX6 is an essential component of membrane-less organelles called processing bodies (PBs). PBs are involved in mRNA metabolic processes including translational repression via coordinated storage of mRNAs. Previous studies in human cell lines have implicated altered DDX6 in molecular and cellular dysfunction, but clinical consequences and pathogenesis in humans have yet to be described. Here, we report the identification of five rare de novo missense variants in DDX6 in pro  ...[more]

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