Abstract
Epilepsy is linked to mutations in KCNQ channels. KCNQ channels including KCNQ2 and KCNQ3 are enriched in neurons, regulating action potential generation and modulation. Here, we showed that properties of KCNQ2 channel in rat hippocampal cultured neurons are regulated by ubiquitous calcium sensor calmodulin. We analyzed calmodulin function on the KCNQ2 channel in both HEK293 cells and neurons. We used shRNAs to suppress expression of calmodulin protein. On the other hand, we used cDNA to over-express calmodulin in HEK293 and neuron cells. In wild type and mis-sense mutations of KCNQ2 proteins, calmodulin over-expression enhanced outward K+ current and decreased neuronal activity. Meanwhile, calmodulin knockdown reduced KCNQ2 current and increased neuronal activity, showing that hippocampal neuronal excitability is regulated by expression level of calmodulin protein. Our data suggest that calmodulin performs a major function in regulating KCNQ2 properties via direct binding to KCNQ2 protein, indicating that calmodulin could be a target of as gene therapy in epilepsy.