Activation of N ‐methyl‐D‐aspartate Receptor Inhibits Enkephalinergic Neurons in Mouse Spinal Superficial Dorsal Horn

Enkephalin (Enk)‐containing neurons are distributed at high concentration in the spinal cord superficial dorsal horn (SDH), where they play an important role in the transmission and modulation of nociceptive information. Recently, we performed physiological characterization of Enk‐containing neurons identified by green fluorescent protein fluorescence expressed under the control of the preproenkephalin gene promoter. We observed that Enk‐containing neurons in the SDH express the N ‐methyl‐D‐aspartate receptor (NMDAR) 2B (NR2B) subunit and large conductance calcium activated potassium (BK) channels. In the present experiments, we investigated the involvement of NMDAR and BK channels in the regulation of the activity of Enk‐containing neurons in the SDH. The experiments were performed in 5‐ to 8‐week‐old male ICR mice. Under ketamine/xylazine anesthesia, the lumbar spinal cord was dissected, and transverse slices were prepared. Tight‐seal whole‐cell recordings were obtained from neurons in the SDH. L‐glutamate (Glu) was applied by pressure ejection through a glass pipette placed near the recorded neurons. After the electrophysiological experiments, the recorded neurons were sampled, and single cell real‐time RT‐PCR was performed to analyze the expression profile of genes of interest in single SDH neurons. In some experiments, the left sciatic nerve was partially ligated, and mechanical allodynia was assessed by von Frey test. Puff‐applied Glu evoked an inward current at a holding potential of −70 mV. Depolarizing the holding potential to 0 mV, outward current of long duration appeared subsequent to initial inward current. The NMDAR antagonist AP‐V abolished the outward current. The NR2B‐selective NMDAR antagonist ifenprodil reduced the outward current. The outward current was also abolished by the selective BK channels antagonist iberiotoxin. Single cell real‐time RT‐PCR analysis revealed that the neurons generating the outward current showed a significant tendency to express BK channels α‐subunit mRNA, which is consistent with the pharmacological results of a BK channels antagonist. Furthermore, single SDH neurons expressing the preproenkephalin mRNA also expressed the BK channel α‐subunit, NR1, and NR2B subunit mRNAs. The expression of NR2B increased significantly in sciatic nerve‐ligated mice. Our results suggest that Ca 2+ influx through NMDAR may activate BK channels and thus inhibit Enk‐containing neurons in the SDH. NMDAR‐mediated inhibition of Enk‐containing neurons is speculated to be one of the possible cellular mechanisms of chronic pain induced by peripheral nerve injury.