Inflammatory Cytokines IL-1 and TNF- Regulate p75 Expression in CNS Neurons and Astrocytes by Distinct Cell-Type-Specific Signalling Mechanisms

Abstract

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The p75 NTR (where NTR is neurotrophin receptor) can mediate many distinct cellular functions, including cell survival and apoptosis, axonal growth and cell proliferation, depending on the cellular context. This multifunctional receptor is widely expressed in the CNS (central nervous system) during development, but its expression is restricted in the adult brain. However, p75 NTR is induced by a variety of pathophysiological insults, including seizures, lesions and degenerative disease. We have demonstrated previously that p75 NTR is induced by seizures in neurons, where it induces apoptosis, and in astrocytes, where it may regulate proliferation. In the present study, we have investigated whether the inflammatory cytokines IL (interleukin)-1 β and TNF- α (tumour necrosis factor- α ), that are commonly elevated in these pathological conditions, mediate the regulation of p75 NTR in neurons and astrocytes. We have further analysed the signal transduction pathways by which these cytokines induce p75 NTR expression in the different cell types, specifically investigating the roles of the NF- κ B (nuclear factor κ B) and p38 MAPK (mitogen-activated protein kinase) pathways. We have demonstrated that both cytokines regulate p75 NTR expression; however, the mechanisms governing this regulation are cytokine- and cell-type specific. The distinct mechanisms of cytokine-mediated p75 NTR regulation that we demonstrate in the present study may facilitate therapeutic intervention in regulation of this receptor in a cell-selective manner.