Phenytoin inhibited changes in nitric oxide of rat hippocampus induced by stress

AIM: To investigate the changes in nNOS and iNOS expression of hippocampal CA3 pyramidal neurons and NO₂^-/NO₃^- level of hippocampal homogenate of rats induced by stress, and to explore the effect of phenytoin on them. METHODS: Rats were subjected to forced-swimming stress, phenytoin was administered(ip) at 30 min before stress. Using the immunohistochemistry and the computerized image technique, the expression levels of nNOS and iNOS of rat hippocampal CA3 pyramidal neurons were assayed quantitatively, and the NO₂^-/NO₃^- level of hippocampal homogenate was also measured using nitric acid deoxidize enzyme method. RESULTS: The nNOS average grey degree of hippocampal CA3 pyramidal neurons was significantly lower in stress group (155.42±3.77)than that in control group(164.54±4.62)and in stress plus phenytoin group(164.27±2.55)(P<0.01); The iNOS relative sectional area proportion of hippocampal CA3 pyramidal neuron was significantly larger in stress group(5.87%±2.90%) than that in control group (0.90％±0.89%) and in strers plus phenytoin groups (0.90%±0.88%)(P<0.01); The NO₂^-/NO₃^- level of hippocampal homogenate was significantly higher in stress group(42.75 umol/L±14.49 umol/L)than that in control group(21.23 umol/L±6.99 umol/L)and in stress plus phenytoin group(18.40 umol/L±8.11 umol/L)(P<0.01). CONCLUSION: It is suggested that the stress could induce nNOS and iNOS expression in CA3 pyramidal neurons and excessive production of NO in hippocampus of rats, which could be inhibited by phenytoin.