Abstract
The N-methyl-D-aspartate (NMDA) receptor consists of a recognition site for NMDA, a cation-selective ion channel, and binding sites for glycine, Zn2+, and phencyclidine-like compounds. In addition, the channel can be blocked by Mg2+. We have studied the NMDA receptor using the potent and specific phencyclidine-like compound [3H]MK-801. Drugs that bind to the NMDA, glycine, Zn2+, and Mg2+ recognition sites profoundly affect both the association and the dissociation rate of [3H]MK-801. NMDA-like agonists, glycine, and Mg2+ all increase the rates of association and dissociation of [3H]MK-801, whereas the NMDA antagonists AP5 and Zn2+ decrease these rates. These data allow the construction of a model of drug interaction at the NMDA receptor that is based on the binding of MK-801 within the NMDA-operated channel. Using this model it is possible to clearly distinguish between drug action at any of the five binding sites proposed.
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