Abstract
Following peripheral inflammation, NMDA receptor (NMDAR) activation in spinal cord dorsal horn neurons facilitates the generation of pain in response to low threshold inputs (allodynia) and signals the phosphorylation of protein kinase C (pPKC) and extracellular signal-regulated kinase 2 (pERK2). Intraplantar complete Freund’s adjuvant (CFA) induces inflammatory nociception (allodynic pain) at 24 hours (h) with a concurrent increase in neuronal pPKCγ and pERK2 but not glial pERK2. These effects are attenuated in a spatial knockout of the NMDAR (NR1 KO) confined to SCDH neurons. Although glia and proinflammatory cytokines are implicated in the maintenance of inflammatory pain and neuronal activation, the role of NMDARs and neuronal–glial–cytokine interactions that initiate and maintain inflammatory pain are not well defined. In the maintenance phase of inflammatory pain at 96 h after CFA the NR1 KO mice are no longer protected from allodynia and the SCDH expression of pPKCγ and pERK2 are increased. At 96 h the expression of the proinflammatory cytokine, IL-1β, and pERK2 are increased in astrocytes. Intrathecal IL-1 receptor antagonist (IL-1ra), acting on neuronal IL-1 receptors, completely reverses the allodynia at 96 h after CFA. Deletion of NMDAR-dependent signaling in neurons protects against early CFA-induced allodynia. Subsequent NMDAR-independent signaling that involves neuronal expression of pPKCγ and the induction of pERK2 and IL-1β in activated astrocytes contributes to the emergence of NMDAR-independent inflammatory pain behavior at 96 h after CFA. Effective reduction of the initiation and maintenance of inflammatory pain requires targeting the neuron–astrocyte–cytokine interactions revealed in these studies.
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