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Variants in the WDR44 WD40-repeat domain cause a spectrum of ciliopathy by impairing ciliogenesis initiation.

Andrea AccogliSaurabh ShakyaTaewoo YangChristine InsinnaSoo Yeon KimDavid BellKirill R ButovMariasavina SeverinoMarcello NicetaMarcello ScalaHyun Sik LeeTaekyeong YooJimmy StaufferXueliang ZhuChiara FiorilloMarina PedemonteMaria C DianaSimona BaldassariViktoria ZakharovaAnna ShcherbinaYulia RodinaChristina R FagerbergLaura Sønderberg RoosJolanta WierzbaArtur DoboszAmanda GerardLorraine PotockiJill Anne RosenfeldSeema R LalaniTiana M ScottDaryl A ScottMahshid S AzamianRaymond LouieHannah W MooreNeena L ChampaigneGrace HollingsworthAnnalaura TorellaVincenzo NigroRafal PloskiVincenzo SalpietroFederico ZaraSimone PizziGiovanni ChillemiMarzia OgnibeneErin CooneyJenny DoAnders LinnemannMartin Jakob LarsenSuzanne SpechtKylie J WaltersHee-Jung ChoiMurim ChoiTartaglia MarcoPhillippe YoukharibacheJong-Hee ChaeValeria CapraSung-Gyoo ParkChristopher J Westlake
Published in: Nature communications (2024)
WDR44 prevents ciliogenesis initiation by regulating RAB11-dependent vesicle trafficking. Here, we describe male patients with missense and nonsense variants within the WD40 repeats (WDR) of WDR44, an X-linked gene product, who display ciliopathy-related developmental phenotypes that we can model in zebrafish. The patient phenotypic spectrum includes developmental delay/intellectual disability, hypotonia, distinct craniofacial features and variable presence of brain, renal, cardiac and musculoskeletal abnormalities. We demonstrate that WDR44 variants associated with more severe disease impair ciliogenesis initiation and ciliary signaling. Because WDR44 negatively regulates ciliogenesis, it was surprising that pathogenic missense variants showed reduced abundance, which we link to misfolding of WDR autonomous repeats and degradation by the proteasome. We discover that disease severity correlates with increased RAB11 binding, which we propose drives ciliogenesis initiation dysregulation. Finally, we discover interdomain interactions between the WDR and NH 2 -terminal region that contains the RAB11 binding domain (RBD) and show patient variants disrupt this association. This study provides new insights into WDR44 WDR structure and characterizes a new syndrome that could result from impaired ciliogenesis.
Keyphrases
  • intellectual disability
  • copy number
  • case report
  • autism spectrum disorder
  • heart failure
  • left ventricular
  • dna methylation
  • genome wide analysis