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红藻氨酸作用后海马神经元胞膜表面的超微结构的原子力显微镜观察
引用本文:刘智良 徐如祥 张英鸽 张飒 蒋霞 张德添 杨怡 姜晓丹 邹雨汐 杜谋选. 红藻氨酸作用后海马神经元胞膜表面的超微结构的原子力显微镜观察[J]. 第一军医大学学报, 2003, 23(7): 659-662
作者姓名:刘智良 徐如祥 张英鸽 张飒 蒋霞 张德添 杨怡 姜晓丹 邹雨汐 杜谋选
作者单位:[1]第一军医大学珠江医院神经外科广东广州510282 [2]军事医学科学院毒理药理研究所 [3]军事医学科学院国家生物医学分析中心北京100850
摘    要:目的 观察原代培养神经元在红藻氨酸(KA)作用下细胞表面形态的三维构像变化。方法 利用原子力显微镜(AFM)对大鼠海马神经元经不同浓度的KA(25和250μmol/L,50和100nmol/L)分别作用10min和100min后的表面结构进行纳米级水平扫描和观测。结果 正常海马神经元表面光滑,起伏均匀、规律;KA作用后神经元呈退行性改变,表现为胞体肿胀,胞膜表面粗糙,出现隆起和“孔洞”样结构,并且其变化程度分别与作用时问和KA浓度呈量-效关系。结论 KA对海马神经元毒性作用后胞膜表面超微结构所产生的明显变化,可借助AFM清晰观察,并定量分析。

关 键 词:红藻氨酸 海马神经元 胞膜表面 超微结构 原子力显微镜观察

Ultrastructrural observation of the membrane surface of kainic acid-treated hippocampal neurons by atomic force microscopy.
Zhi-liang Liu,Ru-xiang Xu,Ying-ge Zhang,Sa Zhang,Xia Jiang,De-tian Zhang,Yi Yang,Xiao-dan Jiang,Yu-xi Zou,Mou-xuan Du. Ultrastructrural observation of the membrane surface of kainic acid-treated hippocampal neurons by atomic force microscopy.[J]. Journal of First Military Medical University, 2003, 23(7): 659-662
Authors:Zhi-liang Liu  Ru-xiang Xu  Ying-ge Zhang  Sa Zhang  Xia Jiang  De-tian Zhang  Yi Yang  Xiao-dan Jiang  Yu-xi Zou  Mou-xuan Du
Affiliation:Department of Neurosurgery, Zhujiang Hospital, First Military Medical University, Guangzhou 510282, China. zl-liu@163.net
Abstract:OBJECTIVE: To observe the three-dimensional morphological changes on the membrane surface of primary cultured rat hippocampal neurons in response to kainic acid (KA) exposure. METHODS: After isolation and primary culture, Wistar rat hippocampal neurons were treated with KA at the concentrations of 0, 25, and 250 micromol/L for different durations (10 and 100 min) to observe the subsequent changes in the membrane surface structure of the neurons by nano-scale scanning with an atomic force microscope (AFM). RESULTS: Normal neurons displayed smooth membrane surface with even and regular undulation, while the neurons treated with KA, in contrast, presented degenerative changes characterized by cell swelling and coarse membrane surface with processes and holes. As the treatment was prolonged and KA concentration increased, the changes became more evident. CONCLUSION: As a result of the toxic effect of KA, the membrane surface ultrastructure of rat hippocampal neurons undergo obvious changes, which can be clearly observed and quantitatively analyzed by means of AFM.
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