The CCDC22 gene plays vital roles in regulating the NF-κB pathway, an essential pathway for neuroinflammation, neurodevelopment, and epileptogenesis. Previously, variants in CCDC22 were reported to be associated with intellectual disability. This study aimed to explore the association between CCDC22 and epilepsy. Trios-based whole-exome sequencing (WES) was performed in a cohort of patients with epilepsy of unknown cause recruited from the China Epilepsy Gene 1.0 Project. Damaging effects of variants were analysed using protein modelling. Hemizygous missense CCDC22 variants were identified in three unrelated cases. These variants had no hemizygous frequencies in controls. All missense variants identified in this study were predicted to be "damaging" by multiple in silico tools and to alter the hydrogen bonds with surrounding residues and/or protein stability. The three patients presented with focal epilepsy of varying severity, including one with refractory seizures and focal cortical dysplasia (FCD) and two with seizures responding to antiseizure medicine. Notably, the variant associated with the severe phenotype was located in the coiled-coil domain and predicted to alter hydrogen bonding and protein stability, whereas the two variants associated with mild epilepsy were located outside functional domains and had moderate molecular alterations. Analysis of spatiotemporal expression indicated that CCDC22 was expressed in brain subregions with three peaks in the fetal stage, infancy, and early adulthood, especially in the fetal stage, explaining the occurrence of developmental abnormities. CCDC22 variants are potentially associated with X-linked focal epilepsy and FCD. The molecular subregional effects supported the occurrence of FCD.
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