Journal article
HCN channelopathy and cardiac electrophysiologic dysfunction in genetic and acquired rat epilepsy models
KL Powell, NC Jones, JT Kennard, C Ng, V Urmaliya, S Lau, A Tran, T Zheng, E Ozturk, G Dezsi, I Megatia, LM Delbridge, D Pinault, CA Reid, PJ White, TJ O'Brien
Epilepsia | WILEY | Published : 2014
DOI: 10.1111/epi.12563
Abstract
Objective Evidence from animal and human studies indicates that epilepsy can affect cardiac function, although the molecular basis of this remains poorly understood. Hyperpolarization-activated cyclic nucleotide-gated (HCN) channels generate pacemaker activity and modulate cellular excitability in the brain and heart, with altered expression and function associated with epilepsy and cardiomyopathies. Whether HCN expression is altered in the heart in association with epilepsy has not been investigated previously. We studied cardiac electrophysiologic properties and HCN channel subunit expression in rat models of genetic generalized epilepsy (Genetic Absence Epilepsy Rats from Strasbourg, GAER..
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Grants
Awarded by NH&MRC Project Grant
Funding Acknowledgements
We wish to thank Ashleigh Hicks for technical assistance with RNA extractions and Emma Braine and Gil Rind for performing the EEG and ECG electrode implantation surgeries. This work was supported in part by a NH&MRC Project Grant to Kim Powell (#628723) and also to Christopher Reid and Terence O'Brien (#1009142).