Microglial cells, through the proinflammatory mediators play an important role in host defense and tissue repair in CNS. They contribute to pathomechanisms of Alzheimer’s and other neurodegenerative diseases. The aim of this work was to investigate modifying effects of non-activated migroglia on cholinergic neuronal SN56 cells subjected to common neuroprotective and/or neurotoxic signals. Chronic exposure to Zn or SNP caused loss of viability (30%), inhibition of pyruvate dehydrogenase (PDH) (40%), isocitrate dehydrogenase (60 and 50%) and aconitase activities as well as decrease of acetyl-CoA levels. These alterations in enzyme activities displayed strong direct correlation with depletion of acetylCoA (r=0.86, P<0.0001) and inverse correlation with cell viability (r=0.87, P<0.0001). Resveratrol, free radical scavenger, increased viability of Zn/SNP treated cholinergic cells but did not overcome suppresive effects of SNP and Zn on enzymes activities. Under same neurotoxic conditions, N9 microglial cells cultured on isoporated inserts and added to neuronal culture dishes, also overcame neurotoxic effect Zn and SNP maintaining control levels of acetyl-CoA, enzymes activites and high cell viability. These data sugest that in some specific, pathologic conditions, non-activated microglia may protect neuronal cholinergic neurons against neurotoxic insults by paracrine-like mechanism by protecting their energy metabolism. On the other hand resveratrol neuroprotection may depend on entirely different yet undefined mechanism. Supported by GUMed MN-15, MNiSW NN401029937, IP2010035370, GUMed ST-57 projects.
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