Haploinsufficiency of ZFHX3, Encoding a Key Player in Neuronal Development, Causes Syndromic Intellectual Disability

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2024 Feb 27

PMID 38412861

Authors

Maria Del Rocio Perez Baca

Eva Z Jacobs

Lies Vantomme

Pontus LeBlanc

Elke Bogaert

Annelies Dheedene

Laurenz De Cock

Sadegheh Haghshenas

Aidin Foroutan

Michael A Levy

Jennifer Kerkhof

Haley McConkey

Chun-An Chen

Nurit Assia Batzir

Xia Wang

Maria Palomares

Marieke Carels

Bart Dermaut

Bekim Sadikovic

Bjorn Menten

Bo Yuan

Sarah Vergult

Bert Callewaert

Affiliations

Soon will be listed here.

Abstract

Neurodevelopmental disorders (NDDs) result from impaired development and functioning of the brain. Here, we identify loss-of-function (LoF) variation in ZFHX3 as a cause for syndromic intellectual disability (ID). ZFHX3 is a zinc-finger homeodomain transcription factor involved in various biological processes, including cell differentiation and tumorigenesis. We describe 42 individuals with protein-truncating variants (PTVs) or (partial) deletions of ZFHX3, exhibiting variable intellectual disability and autism spectrum disorder, recurrent facial features, relative short stature, brachydactyly, and, rarely, cleft palate. ZFHX3 LoF associates with a specific methylation profile in whole blood extracted DNA. Nuclear abundance of ZFHX3 increases during human brain development and neuronal differentiation. ZFHX3 was found to interact with the chromatin remodeling BRG1/Brm-associated factor complex and the cleavage and polyadenylation complex, suggesting a function in chromatin remodeling and mRNA processing. Furthermore, ChIP-seq for ZFHX3 revealed that it predominantly binds promoters of genes involved in nervous system development. We conclude that loss-of-function variants in ZFHX3 are a cause of syndromic ID associating with a specific DNA methylation profile.

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