Multiple second messenger systems act sequentially to mediate rolipram-induced prolongation of prostaglandin E2-induced mechanical hyperalgesia in the rat.

In this study we have evaluated the mechanisms mediating the prolonged hyperalgesia induced by administration of prostaglandin E2 plus rolipram, an inhibitor of type IV phosphodiesterase. The Randall-Selitto paw pressure device was employed to measure the effect of intradermal injection of test agents on the time course of the decrease in mechanical nociceptive threshold produced by prostaglandin E2 plus rolipram in the hairy skin of the hindpaw of the rat. The intradermal injection of prostaglandin E2 produced a dose-dependent decrease in the nociceptive threshold which lasted approximately 2 h. While rolipram alone had no significant effect on nociceptive threshold, it enhanced and prolonged (> 72 h) prostaglandin E2-induced hyperalgesia. WIPTIDE, a protein kinase A inhibitor, when administered 30 min after prostaglandin E2, or with prostaglandin E2 plus rolipram, a time when prostaglandin E2-induced hyperalgesia was at its peak, produced a significant reduction in hyperalgesia. However, at 90 or at 180 min after injection of prostaglandin E2 plus rolipram, WIPTIDE was found to be without effect. H-8, a protein kinase G inhibitor, and okadaic acid, a protein phosphatase inhibitor, when administered 30 min after prostaglandin E2, or 180 min after prostaglandin E2 plus rolipram, produced no significant effect. However, when administered 90 min after prostaglandin E2 plus rolipram, each produced a significant reduction in the hyperalgesia induced by prostaglandin E2 plus rolipram.(ABSTRACT TRUNCATED AT 250 WORDS)

Is there more than one prostaglandin E receptor subtype mediating hyperalgesia in the rat hindpaw?

Five synthetic prostaglandin E analogs (11-deoxyPGE1, 17-phenyl-ol-trinor prostaglandin E2, enisoprost, MB28767 and misoprostol) have been evaluated for their ability to produce mechanical hyperalgesia in rats. The Randall-Selitto paw withdrawal model of mechanical hyperalgesia was used. Following intradermal injections (2.5 microliters) into the dorsal surface of the hindpaw, each prostaglandin E analog produced a dose-dependent (1-1000 ng) decrease in nociceptive threshold (i.e. hyperalgesia). Hyperalgesia produced by 17-phenyl-ol-trinor prostaglandin E2 and MB28767, was inhibited by the prostaglandin E1 antagonist SC19220 (7.5 ng), while the hyperalgesia produced by 11-deoxyprostaglandin E1, enisoprost and misoprostol was not inhibited by this antagonist. Hyperalgesia produced by all five analogs was significantly attenuated or completely blocked by inhibiting stimulatory guanine nucleotide-binding regulatory protein with guanosine 5'-O-(2-thiodiphosphate), adenylyl cyclase with 2'5'-dideoxyadenosine and protein kinase A with WIPTIDE. These results suggest the presence of more than one prostaglandin E-receptor subtype, which mediate hyperalgesia, predominantly via the cAMP second messenger system, in the hindpaw of the rat.

Alpha 1-adrenoceptor-mediated sympathetically dependent mechanical hyperalgesia in the rat.

The model of rolipram (a type IV phosphodiesterase inhibitor) induced prolongation (> 3 days) of the mechanical hyperalgesia produced by the intradermal injection of prostaglandin E2 in the hairy skin of the hindpaw of the rat, measured by the Randall-Selitto paw-withdrawal test, was employed to study mechanisms involved in the contribution of the sympathetic postganglionic neuron to mechanical hyperalgesia. Lumbar surgical sympathectomy prevented rolipram-induced prolongation of prostaglandin E2 hyperalgesia. Decentralization of sympathetic postganglionic neurons innervating the hindpaw did not, however, effect rolipram-induced prolongation of prostaglandin E2 hyperalgesia. Phentolamine, an alpha-adrenoceptor antagonist, and prazosin, an alpha 1-selective adrenoceptor antagonist, when given systemically or intradermally at the site of injection of prostaglandin E2 and rolipram, blocked rolipram-induced prolongation of prostaglandin E2 hyperalgesia. Intrathecal administration of phentolamine and prazosin were, however, without effect on rolipram-induced prolongation of prostaglandin E2 hyperalgesia. Yohimbine, an alpha 2-adrenoceptor antagonist given systemically, intradermally or intrathecally also did not produce any alteration in rolipram-induced prolongation of prostaglandin E2 hyperalgesia. We propose that sympathetic postganglionic neurons are involved in rolipram-induced prolongation of prostaglandin E2 hyperalgesia and that this form of sympathetically dependent hyperalgesia, which is independent of activity in preganglionic sympathetic neurons, is mediated by a peripheral alpha 1-adrenergic mechanism.