Neuropharmacology
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Both the clinical tolerability and the symptomatic effects of memantine in the treatment of Alzheimer's disease have been attributed to its moderate affinity (IC(50) around 1 microM at -70 mV) for NMDA receptor channels and associated fast, double exponential blocking/unblocking kinetics and strong voltage-dependency. Most of these biophysical data have been obtained from rodent receptors. Some substances show large species-specific differences, so using human rather than rodent receptors and tissue may highlight important differences in the effects of drugs. ⋯ Moreover, the rapid double exponential blocking kinetics (e.g. at 10 microM - onset tau(fast)=273+/-25 ms (weight 69%), onset tau(slow)=2756+/-296 ms, offset tau(fast)=415+/-82 ms (weight 38%) offset tau(slow)=5107+/-1204 ms) and partial untrapping (around 20%) previously reported for memantine on rodent receptors were confirmed for human receptors. Ketamine showed similar potency (IC(50) at -70 mV of 0.71+/-0.03 microM, Hill=0.84+/-0.02) but somewhat less pronounced voltage-dependency (delta=0.79+/-0.04), slower, single exponential kinetics (ketamine: k(on)=0.15+/-0.05 x 10(6)M(-1)s(-1), k(off)=0.22+/-0.05 s(-1)c.f. memantine following normalization k(on)=0.32+/-0.11 x 10(6)M(-1)s(-1), k(off)=0.53+/-0.10s(-1)) and was fully trapped. The present data closely match previously reported data from studies in rodent receptors and suggest that the proposed mechanism of action of memantine in Alzheimer's disease as a fast, voltage-dependent open-channel blocker of NMDA receptors can be confirmed for human NMDA receptors.