Agonist Regulation of Muscarinic Acetylcholine Receptors in Rat Spinal Cord

Abstract

In vitro studies with cultured cells originating from nervous tissue have shown that chronic exposure to muscarinic agonists results in a loss of muscarinic receptors. To determine whether this type of regulation of muscarinic receptor number also occurs in vivo, we infused carbachol into the spinal cords of rats. A single carbachol injection into the lumbar spinal cord caused a significant increase in the nociceptive threshold. This effect of carbachol diminished to control levels after 12 h of repeated agonist injections every 4 h and was blocked by atropine. The desensitization to the antinociceptive effects of carbachol was associated with a loss of muscarinic receptors as determined by the binding of the muscarinic antagonist [³H]quinuclidinyl benzilate. After a 24-h exposure to carbachol given every 4 h, there was about a 60% loss of binding sites. The loss of muscarinic receptors was also blocked by atropine and was reversible. These results represent direct evidence that a muscarinic agonist can regulate receptor number in the central nervous system and suggest that this loss of receptors is associated with a desensitization to the antinociceptive effects of carbachol injected into the spinal cord.