ABSTRACT
INTRODUCTION: Several compounds from a neuroscience project induced convulsions in animals, at low exposure levels via a hypothetical off-target mechanism. A set of in vitro and in vivo experiments were conducted in order to 1) identify the mechanism behind convulsions; 2) characterize the convulsions, 3) detect premonitory signs that could be monitored clinically, and 4) assess the development of tolerance after repeat dosing. METHODS: Patch clamp assays were conducted on 12 different ion channels (e.g. sodium, potassium, calcium, AMPA, NMDA, GABAA and purinergic receptors) known to be associated with seizures, to identify the off-target culprit. A multiphase study was conducted with UCB-A and UCB-B in Beagle dogs telemetered for video EEG/EMG monitoring to further characterize the convulsive pattern. First, both compounds were administered by intravenous constant infusion (dose: 5 mg/kg/h) over 2 h. Thereafter, the same dogs received a daily oral administration of UCB-A (8 mg/kg/day) for 7 days. RESULTS: Compounds inducing convulsions showed strong inhibitory activity on GABAA channels (IC50 values <10 µM), whereas compounds with partial or no inhibitory effect on these channels did not induce seizures. In EEG experiments, convulsions were preceded by premonitory clinical signs (e.g. tremors, myoclonic jerks) and morphological EEG abnormalities (e.g. sharp waves, spike and wave patterns), confirming their CNS origin. No attenuation of the seizurogenic effects was observed over the 7-day treatment period. DISCUSSION: A well-designed set of experiments including electrophysiological assays on seizure-related ion channels and EEG/EMG assessment in telemetered dogs allowed a proper seizure liability risk assessment, leading to a rapid no go decision for the two most advanced leads.
