TY - JOUR
T1 - CUX1-related neurodevelopmental disorder
T2 - deep insights into phenotype-genotype spectrum and underlying pathology
AU - Oppermann, Henry
AU - Marcos-Grañeda, Elia
AU - Weiss, Linnea A
AU - Gurnett, Christina A
AU - Jelsig, Anne Marie
AU - Vineke, Susanne H
AU - Isidor, Bertrand
AU - Mercier, Sandra
AU - Magnussen, Kari
AU - Zacher, Pia
AU - Hashim, Mona
AU - Pagnamenta, Alistair T
AU - Race, Simone
AU - Srivastava, Siddharth
AU - Frazier, Zoë
AU - Maiwald, Robert
AU - Pergande, Matthias
AU - Milani, Donatella
AU - Rinelli, Martina
AU - Levy, Jonathan
AU - Krey, Ilona
AU - Fontana, Paolo
AU - Lonardo, Fortunato
AU - Riley, Stephanie
AU - Kretzer, Jasmine
AU - Rankin, Julia
AU - Reis, Linda M
AU - Semina, Elena V
AU - Reuter, Miriam S
AU - Scherer, Stephen W
AU - Iascone, Maria
AU - Weis, Denisa
AU - Fagerberg, Christina R
AU - Brasch-Andersen, Charlotte
AU - Hansen, Lars Kjaersgaard
AU - Kuechler, Alma
AU - Noble, Nathan
AU - Gardham, Alice
AU - Tenney, Jessica
AU - Rathore, Geetanjali
AU - Beck-Woedl, Stefanie
AU - Haack, Tobias B
AU - Pavlidou, Despoina C
AU - Atallah, Isis
AU - Vodopiutz, Julia
AU - Janecke, Andreas R
AU - Hsieh, Tzung-Chien
AU - Lesmann, Hellen
AU - Klinkhammer, Hannah
AU - Krawitz, Peter M
AU - Lemke, Johannes R
AU - Jamra, Rami Abou
AU - Nieto, Marta
AU - Tümer, Zeynep
AU - Platzer, Konrad
N1 - © 2023. The Author(s).
PY - 2023
Y1 - 2023
N2 - Heterozygous, pathogenic CUX1 variants are associated with global developmental delay or intellectual disability. This study delineates the clinical presentation in an extended cohort and investigates the molecular mechanism underlying the disorder in a Cux1+/- mouse model. Through international collaboration, we assembled the phenotypic and molecular information for 34 individuals (23 unpublished individuals). We analyze brain CUX1 expression and susceptibility to epilepsy in Cux1+/- mice. We describe 34 individuals, from which 30 were unrelated, with 26 different null and four missense variants. The leading symptoms were mild to moderate delayed speech and motor development and borderline to moderate intellectual disability. Additional symptoms were muscular hypotonia, seizures, joint laxity, and abnormalities of the forehead. In Cux1+/- mice, we found delayed growth, histologically normal brains, and increased susceptibility to seizures. In Cux1+/- brains, the expression of Cux1 transcripts was half of WT animals. Expression of CUX1 proteins was reduced, although in early postnatal animals significantly more than in adults. In summary, disease-causing CUX1 variants result in a non-syndromic phenotype of developmental delay and intellectual disability. In some individuals, this phenotype ameliorates with age, resulting in a clinical catch-up and normal IQ in adulthood. The post-transcriptional balance of CUX1 expression in the heterozygous brain at late developmental stages appears important for this favorable clinical course.
AB - Heterozygous, pathogenic CUX1 variants are associated with global developmental delay or intellectual disability. This study delineates the clinical presentation in an extended cohort and investigates the molecular mechanism underlying the disorder in a Cux1+/- mouse model. Through international collaboration, we assembled the phenotypic and molecular information for 34 individuals (23 unpublished individuals). We analyze brain CUX1 expression and susceptibility to epilepsy in Cux1+/- mice. We describe 34 individuals, from which 30 were unrelated, with 26 different null and four missense variants. The leading symptoms were mild to moderate delayed speech and motor development and borderline to moderate intellectual disability. Additional symptoms were muscular hypotonia, seizures, joint laxity, and abnormalities of the forehead. In Cux1+/- mice, we found delayed growth, histologically normal brains, and increased susceptibility to seizures. In Cux1+/- brains, the expression of Cux1 transcripts was half of WT animals. Expression of CUX1 proteins was reduced, although in early postnatal animals significantly more than in adults. In summary, disease-causing CUX1 variants result in a non-syndromic phenotype of developmental delay and intellectual disability. In some individuals, this phenotype ameliorates with age, resulting in a clinical catch-up and normal IQ in adulthood. The post-transcriptional balance of CUX1 expression in the heterozygous brain at late developmental stages appears important for this favorable clinical course.
KW - Adult
KW - Animals
KW - Humans
KW - Mice
KW - Heterozygote
KW - Homeodomain Proteins/genetics
KW - Intellectual Disability/genetics
KW - Neurodevelopmental Disorders/genetics
KW - Phenotype
KW - Repressor Proteins/genetics
KW - Seizures
KW - Transcription Factors/genetics
U2 - 10.1038/s41431-023-01445-2
DO - 10.1038/s41431-023-01445-2
M3 - Journal article
C2 - 37644171
VL - 31
SP - 1251
EP - 1260
JO - European Journal of Human Genetics
JF - European Journal of Human Genetics
SN - 1018-4813
IS - 11
ER -