Journal of neuroscience research
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We reported previously that low levels of nitric oxide (NO) induced cell death with properties of apoptosis, including chromatin fragmentation and condensation in undifferentiated PC12 pheochromocytoma cells. The present study demonstrates that cytotoxicity of low concentrations of NO is mediated by inhibition of mitochondrial cytochrome c oxidase and generation of reactive oxygen species (ROS). An NO donor, (+/-)-(E)-4-ethyl-2-[(E)-hydroxyimino]-5-nitro-3-hexenamide (NOR3) induced cell death even at low concentrations (10-100 microM), whereas peroxynitrite and a peroxynitrite generator, 3-(4-morpholinyl)-sydnonimine (SIN-1), did not have a significant effect on cell viability up to a concentration of 0.5 mM. ⋯ Furthermore, we observed that several antioxidants, such as ascorbate, glutathione (GSH), cysteine, tetrahydrobiopterin, and dithiothreitol (DTT), all effectively prevented the NOR3-induced cell death. NOR3 treatment decreased the level of total intracellular GSH, but did not affect the activities of antioxidant enzymes SOD, GSH-peroxidase (GPX), and catalase. These results suggest that cell death induced at physiologically low concentrations of NO is mediated by ROS production in mitochondria, most likely resulting from the inhibition of cytochrome c oxidase, with ROS acting as an initiator of caspase-independent cell death.
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Oxidative stress in the brain has been increasingly associated with the development of numerous human neurological diseases. Microglia, activated upon neuronal injury or inflammatory stimulation, are known to release superoxide anion (*O(2) (-)), hydrogen peroxide (H(2)O(2)), and nitric oxide (NO), thereby further contributing to oxidative neurotoxicity. The reaction of NO and *O(2) (-), forming the toxic peroxynitrite (ONOO(-)), has been proposed to play a pathogenic role in neuronal injury. ⋯ Furthermore, p38 mitogen-activated protein kinase (MAPK) activation and the cleavage of caspase-3 were observed. Conversely, inhibition of p38 MAPK and caspase-3 significantly reduced apoptotic death induced by H(2)O(2) plus SNAP. These data suggest that H(2)O(2) and NO act synergistically to induce neuronal death through apoptosis in which activation of p38 MAPK and caspase-3 is involved.
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Glutamate transporters are coupled with cystine/glutamate antiporters to supply cystine as a component of glutathione, an important antioxidant. We sought evidence that L-trans-pyrrolidine-2,4-dicarboxylate (PDC) enhances glutamate-induced neuronal damage not only via the N-methyl-D-aspartate (NMDA) receptor mediated pathway, but also through induction of oxidative stress. Cultured hippocampal cells were exposed to glutamate (100 microM) for 5 min, washed and incubated for 18 hr with PDC (200 microM). ⋯ The NMDA receptor antagonist MK-801, although partially effective in reducing PDC toxicity, slightly recovered glutathione level but did not reduce the reactive oxygen species even at a high concentration (100 microM). N-acetylcysteine, dimethylsulfoxide, alpha-phenyl-N-butyl nitrone and glutathione ethylester prevented neuronal death enhanced by PDC, but superoxide dismutase and catalase did not. Our study provides evidence that the block of glutamate uptake by PDC exerts toxicity on glutamate-pretreated neurons not only through the accumulation of extracellular glutamate and subsequent activation of the NMDA receptor but also through depletion of glutathione and generation of reactive oxygen species.
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Reactive oxygen species (ROS) can have deleterious effects for both normal aging and Alzheimer's disease (AD). We examined the hypothesis that synapses undergoing long-term potentiation (LTP) are preferentially at risk for ROS-mediated oxidative stress during aging. We observed age-dependent deficits in LTP induced by a high-frequency stimulation (HFS) protocol in the CA1 region of hippocampus from C57BL/6 mice. ⋯ However with aging, there is a significant enhancement in the levels of autophosphorylated CaMKII in H(2)O(2)-treated CA1 of older mice. Phosphorylation of RC3/neurogranin (Ng) by protein kinase C (PKC) is decreased in CA1 in response to H(2)O(2) treatment, irrespective of age. We propose that, during aging, enhanced local release of H(2)O(2) from mitochondria may induce a compensatory "ceiling" effect at synapses, so that the levels of autophosphorylated alpha CaMKII are aberrantly saturated, leading to alterations in synaptic plasticity.
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Neurogenesis is known to continue in the adult hippocampus of mammals, including humans. The present experiments were undertaken to examine the nature of developing neurons generated in the dentate gyrus of young and older rodents using immature neuronal markers such as highly polysialylated neural cell adhesion molecules (PSA-NCAM), collapsin response-mediated protein-4 (CRMP-4) and NeuroD. Most PSA-expressing cells are simultaneously positive for CRMP-4 and NeuroD in young rats. ⋯ BrdU analysis revealed that CRMP-4 is expressed for a longer period than PSA in BrdU-labeled neurons. The number of immature neurons expressing PSA, NeuroD or CRMP-4 decreased in older rodents, but no qualitative difference was found in the expression patterns of these molecular markers between young and older rodents. These results suggest not only that immunohistochemistry, using a combination of these immature and mature neuronal markers, is helpful for clarifying the developmental state of newly generated neurons, but also that newly generated neurons in young adult and older rodents have similar properties.