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Ivermectin and human glycine receptor suppression of pharmacoresistant epilepsy

$324,522R01FY2012NSNIH

University Of Utah, Salt Lake City UT

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Abstract

DESCRIPTION (provided by applicant): Modern drug-discovery research over the last two decades aimed at improving the pharmacological treatment of epileptic seizures has resulted in more than a dozen new anti- epileptic drugs (AEDs). Although these new AEDs may have reduced side effects and drug- drug interactions, the percentage of epileptic patients who continue to have seizures while treated with the new AEDs has remained at 30-40% for >20 years. In this proposal, we aim to develop a gene-therapy approach to treat pharmacoresistant epilepsy through the implementation of a novel designer receptor system that should not affect normal brain function, and therefore is less likely to have significant side-effects. This system will utilize adeno-associated viral (AAV) delivery of a modified human ¿1glycine receptor with reduced glycine sensitivity and enhanced sensitivity to the FDA-approved drug, ivermectin. Recombinant AAVs will be genetically optimized for expression in epileptic neurons and tested for efficacy in animal models of epilepsy. Ivermectin, which has minimal effects on the normal brain at the very low concentrations necessary to activate the modified receptor, will then act as an AED specifically at the site of generation of the epileptic seizures, thus suppressing epileptic seizures without affecting normal brain function. These studies are intended to lead directly to clinical trials. The use of a human receptor and an FDA approved drug should facilitate this advancement from bench side to clinical treatment so that by the end of the 4 year grant, we will have a gene transfer vector in hand that could be considered for clinical trials in pharmacoresistant epilepsy patients.

View original record on NIH RePORTER →