DYNC1H1 variants associated with infant-onset epilepsy without neurodevelopmental disorders

• Published in: Seizure (London, England) Vol. 116; pp. 119 - 125
• Main Authors: Wu, Wu-Chen, Liang, Xiao-Yu, Zhang, Dong-Ming, Jin, Liang, Liu, Zhi-Gang, Zeng, Xiao-Lu, Zhai, Qiong-Xiang, Liao, Wei-Ping, He, Na, Meng, Xiang-Hong
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.03.2024
• Subjects: Biallelic variants; Cytoplasmic Dyneins - genetics; DYNC1H1 gene; Epilepsy - genetics; Epilepsy, Generalized; Genotype-phenotype correlation; Humans; Infant; Mutation; Mutation, Missense; Neurodevelopmental Disorders - genetics; Phenotype; Phenotypic variation; Phenotypic variation; Biallelic variants; Genotype-phenotype correlation; DYNC1H1 gene
• ISSN: 1059-1311; 1532-2688
• DOI: 10.1016/j.seizure.2023.10.010

•This study reports two de novo and two biallelic variants of DYNC1H1 gene in four patients with infant-onset epilepsy.•This study demonstrates that DYNC1H1 variants are potentially associated with infant-onset epilepsy without neurodevelopmental disorders, expanding the phenotypic spectrum of DYNC1H1.•Epilepsy-related DYNC1H1 variants were clustered in the dimerization and stalk domains, and the variants associated with generalised epilepsy were distributed in the stem domain.•This study suggests that the genotype and sub-molecular implications of DYNC1H1 help to explain the phenotypic variation. The DYNC1H1 variants are associated with abnormal brain morphology and neuromuscular disorders that are accompanied by epilepsy. This study aimed to explore the relationship between DYNC1H1 variants and epilepsy. Trios-based whole-exome sequencing was performed on patients with epilepsy. Previously reported epilepsy-related DYNC1H1 variants were systematically reviewed to analyse genotype-phenotype correlation. The DYNC1H1 variants were identified in four unrelated cases of infant-onset epilepsy, including two de novo and two biallelic variants. Two patients harbouring de novo missense variants located in the stem and stalk domains presented with refractory epilepsies, whereas two patients harbouring biallelic variants located in the regions between functional domains had mild epilepsy with infrequent focal seizures and favourable outcomes. One patient presented with pachygyria and neurodevelopmental abnormalities, and the other three patients presented with normal development. These variants have no or low frequencies in the Genome Aggregation Database. All the missense variants were predicted to be damaging using silico tools. Previously reported epilepsy-related variants were monoallelic variants, mainly de novo missense variants, and all the patients presented with severe epileptic phenotypes or developmental delay and malformations of cortical development. Epilepsy-related variants were clustered in the dimerization and stalk domains, and generalized epilepsy-associated variants were distributed in the stem domain. This study suggested that DYNC1H1 variants are potentially associated with infant-onset epilepsy without neurodevelopmental disorders, expanding the phenotypic spectrum of DYNC1H1. The genotype-phenotype correlation helps to understand the underlying mechanisms of phenotypic variation.