The pharmacological effects of two novel N-methyl-D-aspartate (NMDA) receptor glycine site antagonists, L-701,324 and L-695,902 were examined on whole-cell voltage-clamped cells and compared to a prototypic antagonist, 7-chlorokynurenic acid. Both L-701,324 and L-695,902 non-competitively antagonised NMDA responses elicited in rat cultured cortical neurones, this was shown to be due to a competitive interaction at the glycine co-agonist site on the receptor complex (Kb values: 19 nM and 2.6 microM, respectively). Inhibition curves for the antagonism of responses to combined applications of NMDA and glycine showed that both antagonists were devoid of any intrinsic activity i.e. "full" antagonists and were, therefore, capable of completely abolishing inward currents. Despite this fact, both of these novel antagonists apparently modulated glutamate affinity for its recognition site-a property hitherto associated only with glycine site partial agonists. Human recombinant NMDA receptors comprising NR1a/NR2A and NR1a/NR2B subunits expressed in mouse fibroblast cells were also used to determine whether L-701,324 and L-695,902 were capable of discriminating between subtypes of NMDA receptor. Inhibition curves to each antagonist showed no difference in affinity for either of these subunit assemblies (mK1 values L-701,324 = 0.005 microM on both assemblies; L-695,902 = 4.37 and 3.7 microM on NR1a/NR2A and NR1a/NR2B, respectively). Kinetic analysis of the off-rates of antagonism with L-701,324 revealed that the high affinity of this compound compared to 7-chlorokynurenic acid were attributable to an exceptionally slow dissociation of the antagonist from the receptor.