TY - JOUR
T1 - The clinical and molecular spectrum of the KDM6B-related neurodevelopmental disorder
AU - Rots, Dmitrijs
AU - Jakub, Taryn E
AU - Keung, Crystal
AU - Jackson, Adam
AU - Banka, Siddharth
AU - Pfundt, Rolph
AU - de Vries, Bert B A
AU - van Jaarsveld, Richard H
AU - Hopman, Saskia M J
AU - van Binsbergen, Ellen
AU - Valenzuela, Irene
AU - Hempel, Maja
AU - Bierhals, Tatjana
AU - Kortüm, Fanny
AU - Lecoquierre, Francois
AU - Goldenberg, Alice
AU - Hertz, Jens Michael
AU - Andersen, Charlotte Brasch
AU - Kibæk, Maria
AU - Prijoles, Eloise J
AU - Stevenson, Roger E
AU - Everman, David B
AU - Patterson, Wesley G
AU - Meng, Linyan
AU - Gijavanekar, Charul
AU - De Dios, Karl
AU - Lakhani, Shenela
AU - Levy, Tess
AU - Wagner, Matias
AU - Wieczorek, Dagmar
AU - Benke, Paul J
AU - Lopez Garcia, María Soledad
AU - Perrier, Renee
AU - Sousa, Sergio B
AU - Almeida, Pedro M
AU - Simões, Maria José
AU - Isidor, Bertrand
AU - Deb, Wallid
AU - Schmanski, Andrew A
AU - Abdul-Rahman, Omar
AU - Philippe, Christophe
AU - Bruel, Ange-Line
AU - Faivre, Laurence
AU - Vitobello, Antonio
AU - Thauvin, Christel
AU - Smits, Jeroen J
AU - Garavelli, Livia
AU - Caraffi, Stefano G
AU - Peluso, Francesca
AU - Bosch, Daniëlle G M
N1 - Publisher Copyright:
© 2023 American Society of Human Genetics
PY - 2023/6/1
Y1 - 2023/6/1
N2 - De novo variants are a leading cause of neurodevelopmental disorders (NDDs), but because every monogenic NDD is different and usually extremely rare, it remains a major challenge to understand the complete phenotype and genotype spectrum of any morbid gene. According to OMIM, heterozygous variants in KDM6B cause "neurodevelopmental disorder with coarse facies and mild distal skeletal abnormalities." Here, by examining the molecular and clinical spectrum of 85 reported individuals with mostly de novo (likely) pathogenic KDM6B variants, we demonstrate that this description is inaccurate and potentially misleading. Cognitive deficits are seen consistently in all individuals, but the overall phenotype is highly variable. Notably, coarse facies and distal skeletal anomalies, as defined by OMIM, are rare in this expanded cohort while other features are unexpectedly common (e.g., hypotonia, psychosis, etc.). Using 3D protein structure analysis and an innovative dual Drosophila gain-of-function assay, we demonstrated a disruptive effect of 11 missense/in-frame indels located in or near the enzymatic JmJC or Zn-containing domain of KDM6B. Consistent with the role of KDM6B in human cognition, we demonstrated a role for the Drosophila KDM6B ortholog in memory and behavior. Taken together, we accurately define the broad clinical spectrum of the KDM6B-related NDD, introduce an innovative functional testing paradigm for the assessment of KDM6B variants, and demonstrate a conserved role for KDM6B in cognition and behavior. Our study demonstrates the critical importance of international collaboration, sharing of clinical data, and rigorous functional analysis of genetic variants to ensure correct disease diagnosis for rare disorders.
AB - De novo variants are a leading cause of neurodevelopmental disorders (NDDs), but because every monogenic NDD is different and usually extremely rare, it remains a major challenge to understand the complete phenotype and genotype spectrum of any morbid gene. According to OMIM, heterozygous variants in KDM6B cause "neurodevelopmental disorder with coarse facies and mild distal skeletal abnormalities." Here, by examining the molecular and clinical spectrum of 85 reported individuals with mostly de novo (likely) pathogenic KDM6B variants, we demonstrate that this description is inaccurate and potentially misleading. Cognitive deficits are seen consistently in all individuals, but the overall phenotype is highly variable. Notably, coarse facies and distal skeletal anomalies, as defined by OMIM, are rare in this expanded cohort while other features are unexpectedly common (e.g., hypotonia, psychosis, etc.). Using 3D protein structure analysis and an innovative dual Drosophila gain-of-function assay, we demonstrated a disruptive effect of 11 missense/in-frame indels located in or near the enzymatic JmJC or Zn-containing domain of KDM6B. Consistent with the role of KDM6B in human cognition, we demonstrated a role for the Drosophila KDM6B ortholog in memory and behavior. Taken together, we accurately define the broad clinical spectrum of the KDM6B-related NDD, introduce an innovative functional testing paradigm for the assessment of KDM6B variants, and demonstrate a conserved role for KDM6B in cognition and behavior. Our study demonstrates the critical importance of international collaboration, sharing of clinical data, and rigorous functional analysis of genetic variants to ensure correct disease diagnosis for rare disorders.
KW - Animals
KW - Drosophila
KW - Facies
KW - Humans
KW - Intellectual Disability/pathology
KW - Jumonji Domain-Containing Histone Demethylases/genetics
KW - Neurodevelopmental Disorders/genetics
KW - Phenotype
KW - COMPASS
KW - KDM6B
KW - neurodevelopmental disorders
KW - de novo variants
KW - Mendelian disorders
KW - missense variants
UR - http://www.scopus.com/inward/record.url?scp=85160282099&partnerID=8YFLogxK
U2 - 10.1016/j.ajhg.2023.04.008
DO - 10.1016/j.ajhg.2023.04.008
M3 - Article
C2 - 37196654
SN - 0002-9297
VL - 110
SP - 963
EP - 978
JO - American Journal of Human Genetics
JF - American Journal of Human Genetics
IS - 6
ER -