Mechanisms underlying extracellular ATP‐evoked interleukin‐6 release in mouse microglial cell line, MG‐5

Microglia play various important roles in the CNS via the synthesis of cytokines. The ATP‐evoked production of interleukin‐6 (IL‐6) and its intracellular signals were examined using a mouse microglial cell line, MG‐5. ATP, but not its metabolites, produced IL‐6 in a concentration‐dependent manner. Although ATP activated two mitogen‐activated protein kinases, i.e. p38 and extracellular signal‐regulated protein kinase, only p38 was involved in the IL‐6 induction. However, the activation of p38 was not sufficient for the IL‐6 induction because 2′‐ and 3′‐O‐(4‐benzoylbenzoyl) ATP, an agonist to P2X7 receptors, failed to produce IL‐6 despite the fact that it activated p38. Unlike in other cytokines in microglial cells, P2Y rather than P2X7 receptors seem to have a major role in the IL‐6 production by the cells. The ATP‐evoked IL‐6 production was attenuated by Gö6976, an inhibitor of Ca 2+ ‐dependent protein kinase C (PKC). The P2Y receptor responsible for these responses was insensitive to pertussis toxin (PTX) and was linked to phospholipase C. Taken together, ATP acting on PTX‐insensitive P2Y receptors activates p38 and Ca 2+ ‐dependent PKC, thereby resulting in the mRNA expression and release of IL‐6 in MG‐5. This is a novel pathway for the induction of cytokines in microglia.