Spinal α3β2 nicotinic acetylcholine receptors tonically inhibit the transmission of nociceptive mechanical stimuli

Abstract The presence of non-α4β2, non-α7 nicotinic acetylcholine receptors (nAChR) in the rat spinal cord has been suggested previously, but the identity of these nAChRs had not been shown. Intrathecal administration of the α3β2⁎/α6β2⁎ selective α-conotoxin MII (α-CTX MII) dose- and time-dependently reduced paw withdrawal thresholds to mechanical pressure in normal rats. The pronociceptive effect of α-CTX MII was partially blocked by NMDA receptor antagonism and lost completely following ablation of C-fibers. The effect of spinal nerve ligation on α-CTX MII-induced mechanical hypersensitivity was also assessed. Sensitivity was lost in the hind paw ipsilateral to spinal nerve ligation, but maintained in the contralateral hind paw at control levels. Radioligand binding in spinal cord membranes revealed high and low affinity α-CTX MII binding sites. Spinal nerve ligation did not significantly alter α-CTX MII binding ipsilateral to ligation. Finally, no evidence for the presence of α6-containing nAChRs was identified. The results of these studies show the presence of 2 populations of α-CTX MII-sensitive nAChRs containing the α3 and β2, but not the α6, subunits in the rat spinal cord that function to inhibit the transmission of nociceptive mechanical stimuli via inhibiting the release of glutamate from C-fibers. Spinal nerve ligation produces a unilateral loss of α-CTX MII-induced mechanical hypersensitivity without altering α-CTX MII binding sites. Our data support a peripheral injury-induced loss of a cholinergic inhibitory tone at spinal α3β2⁎ nAChRs, without the loss of the receptors themselves, which may contribute to mechanical hypersensitivity following spinal nerve ligation.