Relationship between the pattern of cytokines secreted by microglia cells activated in vitro and T cell generation

INTRODUCTION: Microglia cells has gained great attention recently because its activation by inflammatory cytokines can promote infiltration and destruction of Central Nervous System (CNS) during some disease, mainly in the case of Multiple Sclerosis (MS). On the other hand, these cells may also express suppressor molecules such as the indoleamine-2,3-dioxygenase (IDO), able to suppress T cell proliferation. However, still little is known about its role in MS pathogenesis. Recently it has been described a new population of T cells called Th17, able to secrete high amounts of IL-17, IL-21 and GM-CSF, with a fundamental importance on MS and its murine model, EAE. In this context, the relationship between Th17 and microglia cells can provide us important data about the mechanisms involved in the establishment of CNS lesions. OBJECTIVES: This work had the objective to better elucidate the relationship between the expression of some molecules by microglia and its role T cell activation. METHODS: Through a cellular lineage knowing as C8-B4 and primary cultures of microglia obtained from CNS of adult mice C57BL6 we investigated the transcription of several genes for cytokines and membrane expression of several pattern recognition receptors. The IDO evaluation was performed after activation with LPS or rIFN-?. Its functional capacity was measured trough its action over T cell proliferation. RESULTS: Our results demonstrated that both cells have the capacity of express several immune molecules, both pro and anti-inflammatory. Among this, we observed TLR-4, TLR-2, IL-6, IL-10 and TGF-?. We also confirmed IDO expression by these cells. The blockade of such enzyme prevents the control of microglia above T CD4 lymphocytes proliferation, both in vitro and in vivo. Using the in vivo model, IDO blocker rendered a encephalomyelitis more severe. Conclusion: The results here obtained give us the certainty of microglia influence in inflammatory context, stating its capacity of modulating the immune response (AU)