Potentiation of neuronal activity by tonic GluD1 current in brain slices

Abstract

Ion channel function of native delta glutamate receptors (GluDR) is incompletely understood. Previously, we and others have shown that activation of Gαq protein‐coupled receptors (GqPCR) produces a slow inward current carried by GluD1R. GluD1R also carries a tonic cation current of unknown cause. Here, using voltage‐clamp electrophysiological recordings from adult mouse brain slices containing the dorsal raphe nucleus, we find no role of ongoing G‐protein‐coupled receptor activity in generating or sustaining tonic GluD1R currents. Neither augmentation nor disruption of G protein activity affects tonic GluD1R currents, suggesting that ongoing G‐protein‐coupled receptor activity does not give rise to tonic GluD1R currents. Further, the tonic GluD1R current is unaffected by the addition of external glycine or D‐serine, which influences GluD2R current at millimolar concentrations. Instead, GqPCR‐stimulated and tonic GluD1R currents are regulated by physiological levels of external calcium. In current‐clamp recordings, block of GluD1R channels hyperpolarizes the membrane by ~7 mV at subthreshold potentials, reducing excitability. Thus, GluD1R carries a G‐protein‐independent tonic current that contributes to subthreshold neuronal excitation in the dorsal raphe nucleus.