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在小鼠大脑中,对海藻酸诱导的兴奋毒性后氧化损伤和树突退变进行药理学抑制。

Pharmacologic suppression of oxidative damage and dendritic degeneration following kainic acid-induced excitotoxicity in mouse cerebrum.

作者信息

Zaja-Milatovic Snjezana, Gupta Ramesh C, Aschner Michael, Montine Thomas J, Milatovic Dejan

机构信息

Vanderbilt University Medical Center, Vanderbilt University, Nashville, TN 37232, United States.

出版信息

Neurotoxicology. 2008 Jul;29(4):621-7. doi: 10.1016/j.neuro.2008.04.009. Epub 2008 Apr 29.

Abstract

Intense seizure activity associated with status epilepticus and excitatory amino acid (EAA) imbalance initiates oxidative damage and neuronal injury in CA1 of the ventral hippocampus. We tested the hypothesis that dendritic degeneration of pyramidal neurons in the CA1 hippocampal area resulting from seizure-induced neurotoxicity is modulated by cerebral oxidative damage. Kainic acid (KA, 1 nmol/5 microl) was injected intracerebroventricularly to C57Bl/6 mice. F2-isoprostanes (F2-IsoPs) and F4-neuroprostanes (F4-NeuroPs) were used as surrogate measures of in vivo oxidative stress and biomarkers of lipid peroxidation. Nitric oxide synthase (NOS) activity was quantified by evaluating citrulline level and pyramidal neuron dendrites and spines were evaluated using rapid Golgi stains and a Neurolucida system. KA produced severe seizures in mice immediately after its administration and a significant (p<0.001) increase in F2-IsoPs, F4-NeuroPs and citrulline levels were seen 30 min following treatment. At the same time, hippocampal pyramidal neurons showed significant (p<0.001) reduction in dendritic length and spine density. In contrast, no significant change in neuronal dendrite and spine density or F2-IsoP, F4-NeuroPs and citrulline levels were found in mice pretreated with vitamin E (alpha-tocopherol, 100mg/kg, i.p.) for 3 days, or with N-tert-butyl-alpha-phenylnitrone (PBN, 200mg/kg, i.p.) or ibuprofen (inhibitors of cyclooxygenase, COX, 14 microg/ml of drinking water) for 2 weeks prior to KA treatment. These findings indicate novel interactions among free radical-induced generation of F2-IsoPs and F4-NeuroPs, nitric oxide and dendritic degeneration, closely associate oxidative damage to neuronal membranes with degeneration of the dendritic system, and point to possible interventions to limit severe damage in acute neurological disorders.

摘要

与癫痫持续状态及兴奋性氨基酸(EAA)失衡相关的强烈癫痫活动会引发腹侧海马体CA1区的氧化损伤和神经元损伤。我们检验了这样一个假说:癫痫诱导的神经毒性导致的海马体CA1区锥体神经元树突退化受脑氧化损伤的调节。向C57Bl/6小鼠脑室内注射 kainic acid(KA,1 nmol/5微升)。F2-异前列腺素(F2-IsoPs)和F4-神经前列腺素(F4-NeuroPs)被用作体内氧化应激的替代指标以及脂质过氧化的生物标志物。通过评估瓜氨酸水平来量化一氧化氮合酶(NOS)的活性,并使用快速高尔基染色法和Neurolucida系统评估锥体神经元的树突和棘突。KA给药后立即在小鼠中引发严重癫痫发作,治疗后30分钟时F2-IsoPs、F4-NeuroPs和瓜氨酸水平显著升高(p<0.001)。与此同时,海马体锥体神经元的树突长度和棘突密度显著降低(p<0.001)。相比之下,在KA治疗前用维生素E(α-生育酚,100mg/kg,腹腔注射)预处理3天,或用N-叔丁基-α-苯基硝酮(PBN,200mg/kg,腹腔注射)或布洛芬(环氧化酶COX抑制剂,饮用水中14微克/毫升)预处理2周的小鼠中,未发现神经元树突和棘突密度或F2-IsoP、F4-NeuroPs和瓜氨酸水平有显著变化。这些发现表明自由基诱导产生F2-IsoPs和F4-NeuroPs、一氧化氮与树突退化之间存在新的相互作用,将神经元膜的氧化损伤与树突系统的退化紧密联系起来,并指出了在急性神经疾病中限制严重损伤的可能干预措施。

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