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  • Memantine as an example of a fast, voltage-dependent, open channel N-methyl-D-aspartate receptor blocker.

Memantine as an example of a fast, voltage-dependent, open channel N-methyl-D-aspartate receptor blocker.

Methods in molecular biology (Clifton, N.J.) (2008-10-02)
Chris G Parsons, Kate Gilling
要旨

Electrophysiological techniques can be used to great effect to help determine the mechanism of action of a compound. However, many factors can compromise the resulting data and their analysis, such as the speed of solution exchange, expression of additional ion channel populations including other ligand-gated receptors and voltage-gated channels, compounds having multiple binding sites, and current desensitization and rundown. In this chapter, such problems and their solutions are discussed and illustrated using data from experiments involving the uncompetitive N-methyl-D-aspartate (NMDA) receptor antagonist memantine. Memantine differs from many other NMDA receptor channel blockers in that it is well tolerated and does not cause psychotomimetic effects at therapeutic doses. Various electrophysiological parameters of NMDA-induced current blockade by memantine have been proposed to be important in determining therapeutic tolerability, potency, onset and offset kinetics, and voltage dependency. These were all measured using whole cell patch-clamp techniques using hippocampal neurons. Full results are shown here for memantine, and these are summarized and compared with those from similar experiments with other NMDA channel blockers. The interpretation of these results is discussed, as are theories concerning the tolerability of NMDA channel blockers, with the aim of illustrating how electrophysiological data can be used to form and support a physiological hypothesis.