1. Cholecystokinin (CCK) has been shown to diminish opioid analgesia. Here we investigate whether changes in the physiological levels of spinal CCK are responsible for the enhanced potency of spinal morphine in animals following carrageenin inflammation, as compared with normal animals. 2. Single dorsal horn nociceptive neurones were recorded in intact halothane-anaesthetized rats in the presence and absence of carrageenin-induced inflammation and comparisons were made between the two groups of animals. Inflammation was induced by the injection of 100 microliters of 2% lambda-carrageenin into the hind paw. 3. The inhibitory effect of intrathecal morphine on the C-fibre-evoked responses of the neurones was enhanced in the carrageenin-treated animals such that the effects of 0.25 microgram and 10 micrograms of morphine in normal animals were comparable to those of 0.01 microgram and 2.5 micrograms in the carrageenin animals. The effect of 0.2 mg kg-1 of the CCKB antagonist, L-365,260, on the antinociceptive potency of intrathecal morphine was examined in both groups of animals. In normal animals, L-365,260 produced a significant enhancement in the effect of morphine indicating a tonic CCK modulation in these animals, but it had no effect on the inhibitions produced by either dose of morphine in the carrageenin animals. 4. The inhibition of the C-fibre-evoked response produced by intrathecal morphine in the presence of 1 microgram of CCK was examined in both groups of animals. CCK attenuated the effects of morphine only in animals with carrageenin inflammation, having no effect on the action of morphine in normal animals. 5. The effects of both CCK and L-365,260 were therefore dependent on the inflammatory state of the animal, with each drug being active in opposite situations.6. We propose that in normal animals, morphine may produce a maximal stimulation of the release of CCK such that exogenous CCK is unable to reduce further the analgesic effects under these conditions.However, the differential effects of the agonist and antagonist in the normal and inflamed rats points to a role of CCK in the enhanced opiate actions. This enhancement of the potency of spinal morphine in inflammation is best explained by a reduction in spinal CCK release by morphine in this state.