Florey Department of Neuroscience and Mental Health - Theses
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ItemTargeting HCN4 channels in epilepsy( 2020)Epilepsy is a prevalent neurological disorder that affects around 65 million people worldwide. Despite optimal treatment with modern antiepileptic drugs, about one third of patients will continue to have seizures, along with undesirable side effects. Hyperpolarization-activated Cyclic Nucleotide-gated (HCN) channels are encoded by four genes (HCN1-4). HCN channels have four isoforms (HCN1-4) and produce HCN-mediated currents (Ih) that exhibit pacemaker properties critical for regulating the hyperexcitable neuronal activity seen during seizures. This thesis explores the impact of both pharmacological and molecular HCN channel block on seizure susceptibility and neuronal excitability. Broad-spectrum HCN channel block using ivabradine significantly reduced the seizure susceptibility of wildtype and Scn1a Dravet mice in two proconvulsant assays. Testing isoform-selective HCN channel blockers, the HCN2/1-preferring channel blocker, MEL55A, increased seizure susceptibility. Whereas, the HCN1-preferring channel blocker, MEL57A, had no effect on seizure susceptibility. The HCN4-preferring channel blocker, EC18, significantly reduced seizure susceptibility in two proconvulsant assays in vivo while displaying a safe drug profile. Furthermore, the conditional knockout of HCN4 channels in adult mice was also sufficient to significantly reduce seizure susceptibility in proconvulsant tests with minimal behavioural effects. Interestingly, EC18 showed no effect on seizure susceptibility when administered intraperitoneally to the conditional HCN4 knockout mouse model indicating seizure protection is HCN4-dependant. Moreover, electrophysiological as well as multi-electrode array (MEA) recordings indicated a significant reduction in parameters relating to neuronal excitability after treatment with the HCN4-preferring channel blocker, EC18. Together these results indicate that HCN4 channels are important mediators of neuronal network excitability suggesting they are promising anti-seizure drug targets with minimal adverse effects.