A305 THE PRONOCICEPTIVE EFFECT OF HIGH DOSE OPIOIDS ON MOUSE DRG NEURONS IS MEDIATED BY DELTA OPIOID RECEPTORS

Abstract Background Opioid drugs can be efficacious in the treatment of abdominal pain, but escalating doses of these drugs can also induce pronociceptive signalling in patients and paradoxically worsen pain. The analgesic actions of opioid drugs on dorsal root ganglia (DRG) neurons innervating the intestine are largely mediated by mu opioid receptors (MOR) but there is growing evidence that delta opioid receptors (DOR) could be important targets for pain signaling and to prevent opioid tolerance. However, it is unknown whether MOR and DOR are co-expressed on colonic DRG neurons and whether DOR play a role in pain signaling in the gut. Aims The present study examined whether exposure to low and high concentrations of the opioid receptor agonist DAMGO had differing effects on the excitability of nociceptive DRG neurons, and if so, whether these actions involved MOR and/or DOR signaling. Methods Single unit afferent recordings were obtained in situ from mouse colons to determine the effects of the MOR agonist DAMGO (100nM) and the DOR agonist DADLE (100nM) on mechanosensitive responses. To examine the effects of high and low dose opioids, nociceptive mouse DRG neurons were dissociated from control mice and incubated overnight with 10 nM or 10 µM DAMGO or media alone. Changes in neuronal excitability were recorded by measuring the rheobase using patch clamp recordings. To determine whether changes in cell excitability were mediated by MOR or DOR, neurons were incubated with the MOR antagonist CTOP (100 nM) or DOR antagonist SDM25N (1 µM) 30 min prior to the incubation with DAMGO. Results Single unit recordings from mouse colon were inhibited by both MOR and DOR agonists in 38% of afferents (3/8). Overnight incubation with 10 nM DAMGO inhibited neurons (rheobase increased by 43%, p