ANTINOCICEPTIVE EFFECT OF INTRATHECALLY ADMINISTERED P-2-PURINOCEPTORANTAGONISTS IN RATS

To investigate whether ATP participates in spinal nociceptive transmis sion, effects of intrathecally applied P-2-purinoceptor antagonists an d agonists in the tail-flick and the formalin test were studied in rat s. In the tail-flick assay, the P-2 antagonists suramin (12-120 mu g), Evans blue (0.1-10 mu g), Trypan blue (1-30 mu g) and Reactive blue 2 (1-30 mu g) but not pyridoxalphosphate-6-azophenyl-2',4'-disulfonic a cid (PPADS; 0.03-30 mu g) caused moderate antinociception up to a doub ling of the response latency. In contrast, the P-2 agonists alpha,beta -methylene ATP (alpha,beta-mATP, 0.3-30 mu g) and 2-methylthio-ATP (3- 30 mu g) decreased the tail-flick latency by up to about 50%. When co- injected with alpha,beta-mATP, suramin (120 mu g) or Evans blue (10 mu g) prevented the effect of alpha,beta-mATP 3 mu g but not of alpha,be ta-mATP 30 mu g. In the formalin test, pretreatment with suramin (3-90 mu g) 60 min prior to testing caused significant antinociception by d ecreasing the weighted pain intensity score by up to about 80%. alpha, beta-mATP (30 mu g), applied 30 min prior to testing, was without effe ct. The results indicate that endogenous ATP, acting through P-2-purin oceptors, may contribute to nociceptive information processing in the spinal cord.