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穹隆-海马伞切断对大鼠脑内不同部位胆碱乙酰化转移酶表达的影响 被引量:3

EFFECTS OF FIMBRIA/FORNIX TRANSECTION ON EXPRESSION OF CHOLINE ACETYLTRANSFERASE IN DIFFERENT SECTIONS OF RAT BRAIN
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摘要 ①目的 观察穹隆 海马伞切断对大鼠脑内不同部位胆碱乙酰化转移酶 (ChAT)表达的影响 ,探讨与学习、记忆相关的机制。②方法 成年健康雌性Wistar大鼠 ,随机分为穹隆 海马伞切断模型组和假手术组 ,各 5只。在脑立体定位仪上切断双侧穹窿 海马伞 ,建立动物模型。假手术组除不切断海马伞外 ,其余步骤同模型组。ChAT免疫细胞化学染色。观察海马CA1区、皮质区、杏仁复合体区、基底前脑Meynert核等部位ChAT阳性细胞表达变化。③结果 假手术组大脑各观察区有基础水平的ChAT表达。模型组大脑海马CA1区皮质、大脑皮质区、杏仁复合体区以及Meynert核区ChAT阳性细胞数明显减少 ,与假手术组比较差异有显著性 (t =7.713~17.16 6 ,P <0 .0 1)。④结论 穹隆 海马伞切断大鼠脑内多部位ChAT表达减少可能是学习、记忆障碍原因之一。 ObjectiveTo observe the effects of fimbria/fornix transection on the expression of choline acetyltransferase(ChAT) in different sections of rat brain and discuss correlative mechanism on learning and memory. MethodsHealthy female Wistar rats were randomly divided into the model group and the control group with five rats in each group. The rats were placed on a stereotaxic apparatus to set animal models with fimbria/fornix transection. In the control group no fimbria/fornix transection was performed. After staining of ChAT immunocytes with immunohistochemical method, the expression of the ChAT masculine cells were observed in the hippocampi CA1, cortex, amygdala, and Meynert nucleus. ResultsThe basic level expression of ChAT was observed in each section of the brains in the control group. In the model group, the ChAT masculine cells decreased significantly than those in the control group in the hippocampi CA1, cortex, amygdala, and Meynert nucleus (t=7.713-17.166, P<0.01). ConclusionFimbria/fornix transection can decrease the expression of ChAT in many sections of the brain, which might result in memory disturbance. [
作者 银建军 郭宗君 杜芳
机构地区 济宁市第一人民医院神经内科 青岛大学医学院脑血管病研究所
出处 《齐鲁医学杂志》 2004年第1期24-26,共3页 Medical Journal of Qilu
基金 山东省科技厅科研基金资助项目 (0 0 3 13 0 110 ) 青岛市科技局科研基金资助项目 (SG970 2 40 3 )
关键词 穹隆 海马伞 大鼠 胆碱乙酰化转移酶 表达 fornix fimbria hippocampi choline acetyltransferase rats, Wistar
分类号 R741.02 [医药卫生—神经病学与精神病学]
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参考文献6

  • 1Scott A, Lyness SA, Zarow C, et al. Neuron loss in key cholinergic and aminergic nuclei in Alzheimer disease: a meta-analysis[J]. Neurobiology Aging, 2003, 24: 1.
  • 2Ute K, Bigl V, Eschrich K, et al. Deafferentation of the septo-hippocampal pathway in rats as a model of the metabolic events in Alzheimers disease[J]. Int J Devl Neuroscience, 2001,19: 263.
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同被引文献37

  • 1章子贵,杜红燕,陆汉新.小鼠的记忆与脑内突触结构参数变化的相关性[J].心理学报,1995,27(3):317-321. 被引量:15
  • 2[2]Paxinos G, Watson C. The rat brain in sterrotaxic coordinated. 2nd ed. Australia: academic press Australia 1988:23 - 38
  • 3[3]Ute K, Bigl V, Eschrich K, et al. Deafferentation of the septo-hippocampal pathway in rats as a model of the metabolic events in Alzheimer' s disease. Int J Devl Neuroscience 2001; 19:263
  • 4[5]Mufson EJ, Ginsberg SD, Ikonomovic MD, et al. Human cholinergic basal forebrain: chemoanatomy and neurologic dysfunction. J Chem Neuroanat 2003; 26(4): 233 - 42
  • 5[6]Blusztajn JK, Berse B. The cholinergic neuronal phenotype in Alzheimer' s disease. Metab Brain Dis 2000; 15 (1): 45 - 64
  • 6[9]Sharma HS. Neurotrophic factors attenuate microvascular permeability disturbances and axonal injury following trauma to the rat spinal cord. Acta NeurochirSuppl2003;86:383 -8
  • 7[10]Gilmore JH, Jarskog LF, Vadlamudi S. Maternal infection regulates BDNF and NGF expression in fetal and neonatal brain and maternal-fetal unit of the rat. J Neuroinmunol 2003:138(1-2) :49 -55
  • 8Lyness SA, Zarow C, Chui HC. Neuron loss in key cholinergic and aminergic nuclei in Alzheimer disease: a meta-analysis. Neurobiol Aging, 2003, 24:1-23.
  • 9Krugel U, Bigl V, Eschrich K, et al. Deafferentation of the septo-hippocampal pathway in rats as a model of the metabolic events in Alzheimer's disease. Int J Dev Neurosci, 2001, 19:263-277.
  • 10He Y, Yao Z, Gu Y,et al. Nerve growth factor promotes collateral sprouting of cholinergic fibers in the septohippocampal cholinergic system of aged rats with fimbria transection. Brain Res, 1992, 586:27-35.

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齐鲁医学杂志
2004年 第1期

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