Chronic hyperalgesic priming in the rat involves a novel interaction between cAMP and PKCɛ second messenger pathways

Abstract

Toward the goal of defining new pharmacological targets for the treatment of chronic pain conditions, in previous studies we established a model, termed ‘hyperalgesic priming,’ in which an acute inflammatory stimulus causes a long-lasting latent susceptibility to hyperalgesia induced by subsequent exposures to the inflammatory mediator, prostaglandin E 2 (PGE 2). Those investigations suggested the hypothesis that priming induces a novel linkage between the PGE 2-activated second messenger cascade and the epsilon isoform of protein kinase C (PKCɛ). In the present study, comparison of dose–response relations for hyperalgesia produced by PGE 2, forskolin, 8-Br-cAMP, or the protein kinase A (PKA) catalytic subunit, in primed versus normal animals, demonstrated that priming-induced enhancement of the PGE 2-activated second messenger cascade occurs downstream to adenylate cyclase and upstream to PKA. Therefore, PGE 2-induced hyperalgesia in the primed animal is enhanced by the recruitment of a novel cAMP/PKCɛ signaling pathway in addition to the usual cAMP/PKA pathway. These observations suggest that pharmacological disruption of the novel interaction between cAMP and PKCɛ might provide a route toward the development of highly specific methods to reverse cellular processes that underlie chronic pain states.