A54 DELTA OPIOID RECEPTOR SIGNALING MEDIATES OPIOID INDUCED TOLERANCE AND HYPERALGESIA IN COLONIC SENSORY NERVES

Abstract

Abstract Background While opioid drugs are widely used for treating abdominal pain, prolonged exposure to opioids can induce tolerance and paradoxically increase pain. We previously showed in colonic afferent nerves that chronic morphine treatment causes tolerance and paradoxical hyperalgesia, however the mechanisms are unknown. Aims To evaluate the role of delta opioid receptor (DOR) signaling in opioid induced tolerance and hyperalgesia in colonic nerves during chronic morphine exposure. Methods C57BL/6 mice were injected (i.p.) twice daily for 7 days with escalating doses of morphine (10, 20, 30 mg/kg for the first 3 days, then 40mg/kg on 4th to 7th day); a subset of mice were also injected with 2.5 mg/kg naltrindole (NTI), a DOR antagonist. The analgesic response in vivo was monitored daily using the tail-flick test. To assess the effect of chronic morphine exposure, mice were euthanized on day 8, and the dorsal root ganglia (DRGs) and colons were harvested. Isolated DRG neurons were incubated with 1μM morphine (30 min) and neuronal excitability was determined by measuring the rheobase (amount of current required to elicit an action potential) using perforated patch clamp. To assess changes in colonic afferent nerve excitability, ex vivo afferent nerve recordings were obtained from flat-sheet colon preparations to determine the effects of 1μM morphine (10 min perfusion) on mechanosensitivity by probing with 1g von Frey hair. Results The tail flick test showed that the DOR antagonist NTI inhibited (30%) the maximal antinociceptive effect of morphine and reduced morphine tolerance. In patch clamp recordings, 1μM morphine paradoxically increased the excitability of small DRG neurons from morphine mice (rheobase decreased 28%; p<0.05, 2-way ANOVA), whereas this excitatory effect was absent on neurons from NTI+morphine mice. Acute application of 1μM morphine had no effect on afferent nerve responses to probing in morphine mice (14.9 vs 16.7 Hz; p=ns, paired t test, n=15) whereas it inhibited the afferent nerve response to probing in NTI+morphine mice (15.2 vs 9.9 Hz; p<0.001, paired t test, n=16). Furthermore, most single units from morphine mice had an increased response to probing following acute morphine application (7/15 vs 2/16 units excited), whereas most units form NTI-morphine mice were inhibited (14/16 vs. 3/15 units inhibited, P<0.001, Chi-square). Conclusions These findings suggest that DOR signaling plays a significant role in the development of opioid tolerance and hyperalgesia in colonic afferent nerves induced by chronic morphine treatment. Thus, antagonists of DOR may help to mitigate these side effects induced by opioids. Funding Agencies CCC