The in vivo relevance of the varied channel-blocking properties of uncompetitive NMDA antagonists: tests on spinal neurones

Abstract

The voltage dependence and channel-blocking kinetics of uncompetitive NMDA receptor antagonists have been well-described using in vitro techniques, but there is little evidence concerning the functional significance of these properties in vivo. We have now compared the effects of NMDA antagonists that display varied profiles of voltage-dependent block in vitro, on responses of spinal neurones in anaesthetised rats. The compounds examined were the uncompetitive channel blockers memantine, ketamine and MK-801 and, for comparison, an antagonist that acts at the strychnine-insensitive glycine binding site (MRZ 2/502). Using frequency of spike discharge as an indicator of somatic depolarisation, we have compared the effects of these antagonists on responses evoked by iontophoretic NMDA application and on synaptic responses evoked by pinch or electrical stimulation (the latter eliciting “wind-up”). The effectiveness of the antagonists was directly but variably related to the discharge frequency of the test response. The rank order of dependence on firing rate matched the rank order of voltage dependence reported in vitro, namely: memantine > ketamine > MK-801≥ MRZ 2/502. Doses that reduced responses to iontophoretic application of NMDA were less effective at reducing responses to pinch, perhaps due to the major non-NMDA component of the synaptic response. Memantine preferentially reduced “wind-up” relative to responses to pinch, whereas ketamine and MK-801 reduced both types of synaptic responses in parallel. This “filtering” by low affinity, voltage-dependent NMDA antagonists such as memantine, of non-physiological activity whilst leaving normal synaptic events relatively untouched, may contribute to their more favourable clinical profile.