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大鼠脑局灶性缺血性损伤后白质损伤的地形学和定量评估。

Topographical and quantitative assessment of white matter injury following a focal ischaemic lesion in the rat brain.

作者信息

Yam P S, Patterson J, Graham D I, Takasago T, Dewar D, McCulloch J

机构信息

Wellcome Surgical Institute and Hugh Fraser Neuroscience Laboratories, University of Glasgow, UK.

出版信息

Brain Res Brain Res Protoc. 1998 Jun;2(4):315-22. doi: 10.1016/s1385-299x(98)00005-1.

DOI:10.1016/s1385-299x(98)00005-1
PMID:9630700
Abstract

Axonal injury following cerebral ischaemia has attracted less attention than damage in grey matter. However, it is becoming increasingly recognised that axons are highly vulnerable to focal ischaemia [D. Dewar, D.A. Dawson, Changes of cytoskeletal protein immunostaining in myelinated fibre tracts after focal cerebral ischaemia in the rat, Acta. Neuropathol., 93 (1997) 71-77] [2]; [L. Pantoni, J.H. Garcia, J.A. Gutierrez, Cerebral white matter is highly vulnerable to ischemia, Stroke, 27 (1996) 1641-1647] [10]; [P. S. Yam, T. Takasago, D. Dewar, D.I. Graham, J. McCulloch, Amyloid precursor protein accumulates in white matter at the margin of a focal ischaemic lesion, Brain Res., 760 (1997) 150-157] [15]. Since white matter does not contain neuronal cell bodies or synapses it is likely that the mechanisms of injury and strategies for its protection are different from those in grey matter. In order that the effect of therapeutic intervention on the protection of axons can be assessed, a method by which axonal injury can be mapped and quantified is required. For this purpose, we investigated immunocytochemical methods using amyloid precursor protein (APP) following permanent middle cerebral artery occlusion in the rat. APP is transported by fast anterograde axonal transport [E.H. Koo, S.S. Sisodia, D.R. Archer, L.J. Martin, A. Weidemann, K. Beyreuther, P. Fischer, C.L. Masters, D.L. Price, Precursor of amyloid protein in Alzheimer disease undergoes fast anterograde axonal transport, Proc. Natl. Acad. Sci. U.S.A. 87 (1990) 1561-1565] [7] and has been shown to accumulate following a variety of insults to axons, indicative of dysfunction of axonal transport [R.N. Kalaria, S.U. Bhatti, E.A. Palatinsky, D.H. Pennington, E.R. Shelton, H.W. Chan, G. Perry, W.D. Lust, Accumulation of the beta amyloid precursor protein at sites of ischemic injury in rat brain, Neuroreport, 4 (1993) 211-214] [4]; [T. Kawarabayashi, M. Shoji, Y. Harigaya, H. Yamaguchi, S. Hirai, Expression of APP in the early stage of brain damage, Brain Res., 563 (1991) 334-338] [5]; [N. Otsuka, M. Tomonaga, K. Ikeda, Rapid appearance of beta-amyloid precursor protein immunoreactivity in damaged axons and reactive glial cells in rat brain following needle stab injury, Brain Res., 568 (1991) 335-338] [9]; [K. Shigematsu, P. L. McGeer, Accumulation of amyloid precursor protein in neurons after intraventricular injection of colchicine, Am. J. Pathol., 140 (1992) 787-794] [12]. We have been able to map the topographical relationship between APP accumulation and region of infarction using immunocytochemistry and image analysis techniques. Additionally, using a semi-quantitative scoring system, we have demonstrated that there is a relationship between the amount of APP accumulation and the volume of infarction following middle cerebral artery occlusion. These methods will be useful in the future for the assessment of therapeutic interventions on the protection of axons following ischaemic injury.

摘要

与灰质损伤相比,脑缺血后的轴突损伤受到的关注较少。然而,人们越来越认识到轴突极易受到局灶性缺血的影响[D. 杜瓦,D.A. 道森,大鼠局灶性脑缺血后有髓纤维束中细胞骨架蛋白免疫染色的变化,《神经病理学学报》,93 (1997) 71 - 77] [2];[L. 潘托尼,J.H. 加西亚,J.A. 古铁雷斯,脑白质极易受到缺血影响,《中风》,27 (1996) 1641 - 1647] [10];[P.S. Yam,T. 高笹,D. Dewar,D.I. 格雷厄姆,J. 麦卡洛,淀粉样前体蛋白在局灶性缺血性病变边缘的白质中积聚,《脑研究》,760 (1997) 150 - 157] [15]。由于白质不包含神经元细胞体或突触,损伤机制及其保护策略可能与灰质不同。为了评估治疗干预对轴突保护的效果,需要一种能够绘制和量化轴突损伤的方法。为此,我们研究了在大鼠永久性大脑中动脉闭塞后使用淀粉样前体蛋白(APP)的免疫细胞化学方法。APP通过快速顺向轴突运输进行转运[E.H. 库,S.S. 西索迪亚,D.R. 阿彻,L.J. 马丁,A. 魏德曼,K. 贝耶勒,P. 菲舍尔,C.L. 马斯特斯,D.L. 普赖斯,阿尔茨海默病淀粉样蛋白前体在轴突中进行快速顺向运输,《美国国家科学院院刊》87 (1990) 1561 - 1565] [7],并且已证明在多种轴突损伤后会积聚,这表明轴突运输功能障碍[R.N. 卡拉里亚,S.U. 巴蒂,E.A. 帕拉廷斯基,D.H. 彭宁顿,E.R. 谢尔顿,H.W. 陈,G. 佩里,W.D. 卢斯特,大鼠脑缺血损伤部位β淀粉样前体蛋白的积聚,《神经报告》,4 (1993) 211 - 214] [4];[T. 河原林,M. 庄司,Y. 有贺谷,H. 山口,S. 平井,APP在脑损伤早期的表达,《脑研究》,563 (1991) 334 - 338] [5];[N. 大冢,M. 友永,K. 池田,大鼠脑针刺损伤后受损轴突和反应性胶质细胞中β淀粉样前体蛋白免疫反应性的快速出现,《脑研究》,568 (1991) 335 - 338] [9];[K. 重松,P.L. 麦吉尔,脑室内注射秋水仙碱后神经元中淀粉样前体蛋白的积聚,《美国病理学杂志》,140 (1992) 787 - 794] [12]。我们能够使用免疫细胞化学和图像分析技术绘制APP积聚与梗死区域之间的地形关系。此外,使用半定量评分系统,我们证明了APP积聚量与大脑中动脉闭塞后梗死体积之间存在关系。这些方法未来将有助于评估缺血性损伤后对轴突保护的治疗干预效果。

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