缺氧缺糖对培养海马神经细胞中一氧化氮和钙离子的影响

在缺血性脑损伤中 ,NO起着重要作用。研究了原代培养的海马神经细胞中 ,缺氧缺糖对NO合成的影响。利用激光共聚焦显微镜和荧光指示剂 ,对胞内钙离子和NO的变化进行实时检测 ,并用HPLC检测了缺氧缺糖导致的谷氨酸释放。结果表明 ,缺氧缺糖引起胞内钙离子浓度升高和NO合成增加。经过 2 0min缺氧缺糖处理后 ,胞外谷氨酸的浓度比对照组高出约10 0 %。N 甲基 D 天冬氨酸 (N methyl D aspartate,NMDA)的拮抗剂MK 80 1对缺氧缺糖引起的细胞内钙离子和NO的升高有明显抑制作用。去除细胞外液的钙离子和加入钙调蛋白抑制剂三氟拉嗪都可以抑制缺氧缺糖引起的NO升高。以上结果提示 ,缺氧缺糖引起神经细胞NO合成增加 ,这种合成受谷氨酸释放 ,胞内钙离子浓度和钙调蛋白的调控。

The Influence of Oxygen-Glucose Deprivation on Nitric Oxide and Intracellular Ca 2 in Cultured Hippocampal Neurons

Nitric oxide (NO) was speculated to play an important role in the pathophysiology of cerebral ischemia. In this study, the effect of oxygen-glucose deprivation (OGD) on the cellular production of NO was investigated in cultured hippocampal neurons. Intracellular Ca 2 was also detected as its closely relationship with NO. The generation of NO and changes in intracellular Ca 2 were evaluated using confocal laser scanning microscopy with diaminofluorescein diacetate (DAF-2 DA), an NO probe, and Fluo-3, a Ca 2 probe respectively. Extracellular glutamate level was also measured by HPLC with fluorescence detection. Results showed that OGD induced an increase in NO production and intracellular Ca 2 concentration ( Ca 2 ] i ), the rise of DAF-2 and Fluo-3 fluorescence intensity was about 160% and 270% respectively; an increase of about 100% in glutamate level was observed after 20 min of OGD. NMDA inhibitor MK-801 significantly reduced the OGD-induced elevation of Ca 2 ] i and NO, DAF-2 and Fluo-3 fluorescence intensity uptake was inhibited by 69% and 74% respectively. The increase in NO production was also attenuated by extracellular Ca 2 elimination and calmodulin (CaM) antagonist trifluoperazine dose-dependently. These results indicated that NO production increased during oxygen-glucose deprivation, and was greatly modulated by glutamate release, intracellular Ca 2 change and Ca 2 -CaM pathway.