Loss-of-Function Variants in CUL3 Cause a Syndromic Neurodevelopmental Disorder.

Creator(s)

Patrick R. Blackburn
Frédéric Ebstein
Tzung-Chien Hsieh
Marialetizia Motta
Francesca Clementina Radio
Johanna C. Herkert
Tuula Rinne
Isabelle Thiffault, Children's Mercy HospitalFollow
Michele Rapp
Mariel Alders
Saskia Maas
Bénédicte Gerard
Thomas Smol
Catherine Vincent-Delorme
Benjamin Cogné
Bertrand Isidor
Marie Vincent
Ruxandra Bachmann-Gagescu
Anita Rauch
Pascal Joset
Giovanni Battista Ferrero
Andrea Ciolfi
Thomas Husson
Anne-Marie Guerrot
Carlos Bacino
Colleen Macmurdo
Stephanie S. Thompson
Jill A. Rosenfeld
Laurence Faivre
Frederic Tran Mau-Them
Wallid Deb
Virginie Vignard
Pankaj B. Agrawal
Jill A. Madden
Alice Goldenberg
François Lecoquierre
Michael Zech
Holger Prokisch
Ján Necpál
Robert Jech
Juliane Winkelmann
Monika Turčanová Koprušáková
Vassiliki Konstantopoulou
John R. Younce
Marwan Shinawi
Chloe Mighton
Charlotte Fung
Chantal F. Morel
Jordan Lerner-Ellis
Stephanie DiTroia
Magalie Barth
Dominique Bonneau
Ingrid Krapels
Alexander P A Stegmann
Vyne van der Schoot
Theresa Brunet
Cornelia Bußmann
Cyril Mignot
Giuseppe Zampino
Saskia B. Wortmann
Johannes A. Mayr
René G. Feichtinger
Thomas Courtin
Claudia Ravelli
Boris Keren
Alban Ziegler
Linda Hasadsri
Pavel N. Pichurin
Eric W. Klee
Katheryn Grand
Pedro A. Sanchez-Lara
Elke Krüger
Stéphane Bézieau
Hannah Klinkhammer
Peter Michael Krawitz
Evan E. Eichler
Marco Tartaglia
Sébastien Küry
Tianyun Wang

Document Type

Article

Publication Date

1-2025

Identifier

DOI: 10.1002/ana.27077; PMCID: PMC11922793

Abstract

OBJECTIVE: De novo variants in cullin-3 ubiquitin ligase (CUL3) have been strongly associated with neurodevelopmental disorders (NDDs), but no large case series have been reported so far. Here, we aimed to collect sporadic cases carrying rare variants in CUL3, describe the genotype-phenotype correlation, and investigate the underlying pathogenic mechanism.

METHODS: Genetic data and detailed clinical records were collected via multicenter collaboration. Dysmorphic facial features were analyzed using GestaltMatcher. Variant effects on CUL3 protein stability were assessed using patient-derived T-cells.

RESULTS: We assembled a cohort of 37 individuals with heterozygous CUL3 variants presenting a syndromic NDD characterized by intellectual disability with or without autistic features. Of these, 35 have loss-of-function (LoF) and 2 have missense variants. CUL3 LoF variants in patients may affect protein stability leading to perturbations in protein homeostasis, as evidenced by decreased ubiquitin-protein conjugates in vitro. Notably, we show that 4E-BP1 (EIF4EBP1), a prominent substrate of CUL3, fails to be targeted for proteasomal degradation in patient-derived cells.

INTERPRETATION: Our study further refines the clinical and mutational spectrum of CUL3-associated NDDs, expands the spectrum of cullin RING E3 ligase-associated neuropsychiatric disorders, and suggests haploinsufficiency via LoF variants is the predominant pathogenic mechanism. ANN NEUROL 2024.

Journal Title

Annals of neurology

Volume

97

Issue

1

First Page

76

Last Page

89

PubMed ID

39301775

Comments

Grants and funding

• R01 MH101221/MH/NIMH NIH HHS/United States

Recommended Citation

Blackburn PR, Ebstein F, Hsieh T, et al. Loss‐of‐function variants in cul3 cause a syndromic neurodevelopmental disorder. Annals of Neurology. 2025;97(1):76-89. doi:10.1002/ana.27077