KDM2B variants in the CxxC domain impair its DNA-binding ability and cause a distinct neurodevelopmental syndrome
KDM2B variants in the CxxC domain impair its DNA-binding ability and cause a distinct neurodevelopmental syndrome
Rare variants affecting the epigenetic regulator KDM2B cause a recently delineated neurodevelopmental disorder. Interestingly, we previously identified both a general KDM2B-associated episignature and a subsignature specific to variants in the DNA-binding CxxC domain. In light of the existence of a distinct subsignature, we set out to determine if KDM2B CxxC variants are associated with a unique phenotype and disease mechanism. We recruited individuals with heterozygous CxxC variants and assessed the variants' effect on protein expression and DNA-binding ability. We analyzed clinical data from 19 individuals, including ten previously undescribed individuals with seven novel CxxC variants. The core phenotype of the KDM2B-CxxC cohort is more extensive as compared to that of individuals with KDM2B haploinsufficiency. All individuals with CxxC variants presented with developmental delay, mainly in the speech and motor domain, in addition to variable intellectual disability and mild facial dysmorphism. Congenital heart defects were observed in up to 78% of individuals, with additional common findings including musculoskeletal, ophthalmological, and urogenital anomalies, as well as behavioral challenges and feeding difficulties. Functional assays revealed that while mutant KDM2B protein with CxxC variants can be expressed in vitro, its DNA-binding ability is significantly reduced compared to wildtype. This study shows that KDM2B CxxC variants cause a distinct neurodevelopmental syndrome, possibly through a molecular mechanism different from haploinsufficiency.
Chromatinopathy, clinical genetics, congenital heart disease, developmental delay, intellectual disability, chromatinopathy
1353-1367
van Oirsouw, Amber S.E.
6d297f0c-12f2-485e-bba2-a5f42e284776
Hadders, Michael A
879d8b56-e731-4e61-8470-e85c625b56c3
Koetsier, Martijn
54f957bc-54f0-43ea-a6d6-85ecea43764e
Peters, Edith D.J.
b3fad999-a738-4aea-b040-da1f02fc376b
Baralle, Diana
faac16e5-7928-4801-9811-8b3a9ea4bb91
15 August 2025
van Oirsouw, Amber S.E.
6d297f0c-12f2-485e-bba2-a5f42e284776
Hadders, Michael A
879d8b56-e731-4e61-8470-e85c625b56c3
Koetsier, Martijn
54f957bc-54f0-43ea-a6d6-85ecea43764e
Peters, Edith D.J.
b3fad999-a738-4aea-b040-da1f02fc376b
Baralle, Diana
faac16e5-7928-4801-9811-8b3a9ea4bb91
van Oirsouw, Amber S.E., Hadders, Michael A and Koetsier, Martijn
,
et al.
(2025)
KDM2B variants in the CxxC domain impair its DNA-binding ability and cause a distinct neurodevelopmental syndrome.
Human Molecular Genetics, 34 (16), .
(doi:10.1093/hmg/ddaf082).
Abstract
Rare variants affecting the epigenetic regulator KDM2B cause a recently delineated neurodevelopmental disorder. Interestingly, we previously identified both a general KDM2B-associated episignature and a subsignature specific to variants in the DNA-binding CxxC domain. In light of the existence of a distinct subsignature, we set out to determine if KDM2B CxxC variants are associated with a unique phenotype and disease mechanism. We recruited individuals with heterozygous CxxC variants and assessed the variants' effect on protein expression and DNA-binding ability. We analyzed clinical data from 19 individuals, including ten previously undescribed individuals with seven novel CxxC variants. The core phenotype of the KDM2B-CxxC cohort is more extensive as compared to that of individuals with KDM2B haploinsufficiency. All individuals with CxxC variants presented with developmental delay, mainly in the speech and motor domain, in addition to variable intellectual disability and mild facial dysmorphism. Congenital heart defects were observed in up to 78% of individuals, with additional common findings including musculoskeletal, ophthalmological, and urogenital anomalies, as well as behavioral challenges and feeding difficulties. Functional assays revealed that while mutant KDM2B protein with CxxC variants can be expressed in vitro, its DNA-binding ability is significantly reduced compared to wildtype. This study shows that KDM2B CxxC variants cause a distinct neurodevelopmental syndrome, possibly through a molecular mechanism different from haploinsufficiency.
Text
ddaf082_Copy-edited_MS
- Accepted Manuscript
Text
ddaf082
- Version of Record
More information
Accepted/In Press date: 4 May 2025
e-pub ahead of print date: 27 May 2025
Published date: 15 August 2025
Keywords:
Chromatinopathy, clinical genetics, congenital heart disease, developmental delay, intellectual disability, chromatinopathy
Identifiers
Local EPrints ID: 505388
URI: http://eprints.soton.ac.uk/id/eprint/505388
ISSN: 0964-6906
PURE UUID: f41f0eaf-6b5c-4f68-9f9b-d87673f15100
Catalogue record
Date deposited: 07 Oct 2025 16:55
Last modified: 08 Oct 2025 01:42
Export record
Altmetrics
Contributors
Author:
Amber S.E. van Oirsouw
Author:
Michael A Hadders
Author:
Martijn Koetsier
Author:
Edith D.J. Peters
Corporate Author: et al.
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
