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The microglia-mediated inlfammatory reaction promotes neuronal damage under cerebral isch-emia/hypoxia conditions. We therefore speculated that inhibition of hypoxia-induced microglial activation may alleviate neuronal damage. To test this hypothesis, we co-cultured ginsenoside Rb1, an active component of ginseng, and cortical neurons. Ginsenoside Rb1 protected neuronal morphology and structure in a single hypoxic culture system and in a hypoxic co-culture system with microglia, and reduced neuronal apoptosis and caspase-3 production. The protective effect was observable prior to placing in co-culture. Additionally, ginsenoside Rb1 inhibited levels of tumor necrosis factor-αin a co-culture system containing activated N9 microglial cells. Ginse-noside Rb1 also signiifcantly decreased nitric oxide and superoxide production induced by N9 microglia. Our ifndings indicate that ginsenoside Rb1 attenuates damage to cerebral cortex neu-rons by downregulation of nitric oxide, superoxide, and tumor necrosis factor-αexpression in hypoxia-activated microglia.
