Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 22, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/ijms22062824
Keywords
voltage-gated potassium channel; K(v)1; 2; shaker; epileptic encephalopathy; epilepsy; ataxia
Funding
- Dietmar-Hopp Foundation [1DH1813319]
- Physician Scientist Program at Ruprecht Karls University Heidelberg, Faculty of Medicine
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Pathogenic variants in KCNA2 gene can lead to a range of neurological disorders with diverse clinical manifestations, including early-onset developmental and epileptic encephalopathy, intellectual disability, and movement disorders. Individuals with different types of variants may exhibit distinct clinical features, with carriers of complex and mixed channel dysfunction variants more likely to show early symptoms.
Pathogenic variants in KCNA2, encoding for the voltage-gated potassium channel K(v)1.2, have been identified as the cause for an evolving spectrum of neurological disorders. Affected individuals show early-onset developmental and epileptic encephalopathy, intellectual disability, and movement disorders resulting from cerebellar dysfunction. In addition, individuals with a milder course of epilepsy, complicated hereditary spastic paraplegia, and episodic ataxia have been reported. By analyzing phenotypic, functional, and genetic data from published reports and novel cases, we refine and further delineate phenotypic as well as functional subgroups of KCNA2-associated disorders. Carriers of variants, leading to complex and mixed channel dysfunction that are associated with a gain- and loss-of-potassium conductance, more often show early developmental abnormalities and an earlier onset of epilepsy compared to individuals with variants resulting in loss- or gain-of-function. We describe seven additional individuals harboring three known and the novel KCNA2 variants p.(Pro407Ala) and p.(Tyr417Cys). The location of variants reported here highlights the importance of the proline(405)-valine(406)-proline(407) (PVP) motif in transmembrane domain S6 as a mutational hotspot. A novel case of self-limited infantile seizures suggests a continuous clinical spectrum of KCNA2-related disorders. Our study provides further insights into the clinical spectrum, genotype-phenotype correlation, variability, and predicted functional impact of KCNA2 variants.
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