Peripheral inflammation enhances opioid-induced gastrointestinal motility inhibition via up-regulating spinal mu opioid receptor.

Abstract

Opioids are potent analgesics in clinical pain management but exert variable analgesia in different pain types. Opioid-induced constipation is a common side effect of opioid therapy, and whether opioids induce different gastrointestinal motility inhibitions in different pain types is unknown. In this study, we evaluated the antinociceptive effects and inhibition of upper gastrointestinal transit and colonic bead expulsion of morphine, DAMGO, and Deltorphin in mouse CFA chronic inflammatory pain, SNI chronic neuropathic pain, and carrageenan chronic inflammatory pain models. Furthermore, quantitative PCR and immunofluorescence were used to investigate the mechanisms underlying the altered inhibition. Results showed that intrathecal administration of morphine, DAMGO, and Deltorphin produced higher antinociceptive effects in the CFA and carrageenan groups than in the SNI group. Upper gastrointestinal transit inhibition was significantly enhanced in the carrageenan group by morphine and DAMGO; colonic bead expulsion inhibition was also enhanced in the CFA and carrageenan groups by morphine and DAMGO, but not in Deltorphin treatment. Additionally, mu (MOR) opioid receptor mRNA and MOR-expressing cell density in the lumbar spinal cord of CFA and carrageenan mice were increased, whereas delta opioid receptor expression remained unchanged in these groups. Finally, the pharmacological blockade of MOR completely prevented the enhanced upper gastrointestinal transit inhibition in the carrageenan group by morphine and DAMGO. Altogether, our results indicate that gastrointestinal motility inhibition induced by MOR agonists can be enhanced with upregulated spinal MOR expression in chronic inflammatory pain.