Substance P and NMDA receptors mediate a slow nociceptive ventral root potential in neonatal rat spinal cord.

Substance P and glutamate actions have separately been implicated in the generation of nociceptive-related slow ventral root potentials (slow VRPs). We report that slow VRPs are dependent on both substance P and NMDA receptor-mediated neurotransmission. Slow VRPs of 10-40 s duration were evoked by electrically stimulating a lumbar dorsal root and recorded at the corresponding ipsilateral ventral root in spinal cords isolated from 1- to 5-day-old rats; the monosynaptic reflex was also recorded. The NMDA receptor antagonist APV (5-20 microM) and the substance P antagonist spantide (10-20 microM) both reversibly depressed the slow VRP without affecting the monosynaptic reflex; spantide and APV applied together nearly abolished the slow VRP. The quisqualate-kainate receptor antagonist CNQX (1-5 microM) reduced the monosynaptic reflex and an early component of the slow VRP. A slow VRP could be elicited by brief (0.1-1.0 s) focal applications of either substance P (2-20 microM) or NMDA (10 microM), and also by CGRP (2-20 microM). Substance P-evoked and NMDA-evoked responses were blocked by their respective antagonists spantide and APV. Each was also cross-sensitive to the other antagonist. Both excitatory amino acids, acting on an NMDA receptor, and substance P, acting on a tachykinin receptor, thus appear to be involved in generating this slow potential. Both NMDA and tachykinin receptors are necessary to generate a full response.