Literature DB >> 32135084

Pathogenic DDX3X Mutations Impair RNA Metabolism and Neurogenesis during Fetal Cortical Development.

Ashley L Lennox1, Mariah L Hoye1, Ruiji Jiang2, Bethany L Johnson-Kerner2, Lindsey A Suit2, Srivats Venkataramanan3, Charles J Sheehan1, Fernando C Alsina1, Brieana Fregeau2, Kimberly A Aldinger4, Ching Moey5, Iryna Lobach6, Alexandra Afenjar7, Dusica Babovic-Vuksanovic8, Stéphane Bézieau9, Patrick R Blackburn10, Jens Bunt5, Lydie Burglen7, Philippe M Campeau11, Perrine Charles12, Brian H Y Chung13, Benjamin Cogné9, Cynthia Curry14, Maria Daniela D'Agostino15, Nataliya Di Donato16, Laurence Faivre17, Delphine Héron18, A Micheil Innes19, Bertrand Isidor9, Boris Keren18, Amy Kimball20, Eric W Klee21, Paul Kuentz22, Sébastien Küry9, Dominique Martin-Coignard23, Ghayda Mirzaa24, Cyril Mignot12, Noriko Miyake25, Naomichi Matsumoto25, Atsushi Fujita25, Caroline Nava18, Mathilde Nizon9, Diana Rodriguez26, Lot Snijders Blok27, Christel Thauvin-Robinet28, Julien Thevenon17, Marie Vincent9, Alban Ziegler29, William Dobyns30, Linda J Richards31, A James Barkovich32, Stephen N Floor33, Debra L Silver34, Elliott H Sherr35.   

Abstract

De novo germline mutations in the RNA helicase DDX3X account for 1%-3% of unexplained intellectual disability (ID) cases in females and are associated with autism, brain malformations, and epilepsy. Yet, the developmental and molecular mechanisms by which DDX3X mutations impair brain function are unknown. Here, we use human and mouse genetics and cell biological and biochemical approaches to elucidate mechanisms by which pathogenic DDX3X variants disrupt brain development. We report the largest clinical cohort to date with DDX3X mutations (n = 107), demonstrating a striking correlation between recurrent dominant missense mutations, polymicrogyria, and the most severe clinical outcomes. We show that Ddx3x controls cortical development by regulating neuron generation. Severe DDX3X missense mutations profoundly disrupt RNA helicase activity, induce ectopic RNA-protein granules in neural progenitors and neurons, and impair translation. Together, these results uncover key mechanisms underlying DDX3X syndrome and highlight aberrant RNA metabolism in the pathogenesis of neurodevelopmental disease.
Copyright © 2020 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  DDX3X; autism; corpus callosum; cortical development; helicase; intellectual disability; polymicrogyria; radial glial progenitor; stress granule; translation

Mesh:

Substances:

Year:  2020        PMID: 32135084      PMCID: PMC7331285          DOI: 10.1016/j.neuron.2020.01.042

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  75 in total

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  30 in total

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