Synaptic NMDA receptor channels have a low open probability

Abstract

Realistic estimates of channel-gating parameters of synaptic receptors are essential to an understanding of synaptic transmission and modulation. However, the gating of N-methyl-D-aspartate (NMDA) channels appears to differ, depending on recording conditions; thus, it remains unclear what measurements are most relevant to synaptic receptors. To further explore this discrepancy, we examined the open probability (Po) of NMDA channels in whole-cell and outside-out patch recording from cultured hippocampal neurons. Currents were evoked by rapid application of saturating concentrations of NMDA in the presence or absence of the “irreversible” open channel blocker, MK-801 ((+)-5-methyl-10,11-dihydro- 5H-dibenzo[a,d]cyclohepten-5,10-imine) . The reduction of the peak amplitude and the acceleration of the decay of the current in MK-801 were used to derive Po by fitting the current traces to a multistate kinetic model. The Po in whole cell was low (0.04), similar to that previously measured for synaptically activated NMDA channels. In contrast, ensemble average currents from outside-out patches were much more rapidly blocked in the presence of MK-801, indicative of a significantly higher Po. The Po also gradually increased with the duration of recording in both whole-cell and outside-out configurations, suggesting that channel gating is sensitive to mechanical alterations of the patch or that washout of cytoplasmic factors leads to an increase in channel open probability.