Abstract
The high flux rate of Ca2+ through NMDA receptor (NMDAR) channels is critical for their biological function and may depend on a Ca2+ binding site in the extracellular vestibule. We screened substitutions of hydrophilic residues exposed in the vestibule and identified a cluster of charged residues and a proline, the DRPEER motif, positioned C terminal to M3, that is unique to the NR1 subunit. Charge neutralization or conversion of residues in DRPEER altered fractional Ca2+ currents in a manner consistent with its forming a binding site for Ca2+. Similarly, in a mutant channel in which all of the negative charges are neutralized (ARPAAR), the block by extracellular Ca2+ of single-channel current amplitudes is attenuated. In these same channels, the block by extracellular Mg2+ is unaffected. DRPEER is located extracellularly, and its contribution to Ca2+ influx is distinct from that of the narrow constriction. We conclude that key residues in DRPEER, acting as an external binding site for Ca2+, along with a conserved asparagine in the M3 segment proper, contribute to the high fractional Ca2+ currents in these channels under physiological conditions. Therefore, these domains represent critical molecular determinants of NMDAR function in synaptic physiology.