Cytoskeletal changes during adhesion and release: a comparison of human and nonhuman primate platelets.

Scanning electron microscopy Pub Date : 1986-01-01
J C Lewis, M S White, T Prater, K R Porter, R J Steele
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Abstract

The organization of cytoskeletal proteins in whole-mount adherent platelets from African green monkeys and normal human volunteers has been studied by SEM, high vacuum electron microscopy (HVEM) and conventional (120 kV) electron microscopy. We describe three distinct organizational zones, the Central Matrix, the Trabecular Zone and the Peripheral Web in spread platelets from both sources. The Central Matrix is an ill-defined superstructure of 80-100 A filaments of short length which enshrouded the granules, dense bodies, mitochondria and elements of the open-channel and dense-tubular systems. The latter, identified through the use of peroxidase cytochemistry with the whole mounts, is an anastomosing network of elongate saccules having diameters of 600-1200 A. The Trabecular Zone, which encircles the Central Matrix, contains 165, 80-100 and 30-50 A filaments in an open lattice of irregular lattice spacing. The outermost region of the cells, the Peripheral Web, is comprised of 70 A filaments organized in a honeycomb lattice with center to center spacing in the range 150-300 A. This pattern for the spread cells is not consistently observed in cells during the early stages of adhesion; therefore, correlations of SEM and TEM observations are made for the various stages of adhesion/activation.

粘附和释放过程中细胞骨架的变化:人类和非人类灵长类血小板的比较。
采用扫描电镜(SEM)、高真空电子显微镜(HVEM)和常规(120kv)电子显微镜研究了非洲绿猴和正常人全贴壁血小板中细胞骨架蛋白的组织结构。我们描述了三个不同的组织区域,中央基质,小梁区和外围网在扩散血小板从两个来源。中央基质是由80-100 A的短丝组成的不明确的上层结构,它包裹着颗粒、致密体、线粒体和开放通道和致密管系统的元素。后者,通过使用过氧化物酶细胞化学与整个支架鉴定,是一个直径为600- 1200a的细长小囊的吻合网络。小梁区围绕着中央基质,包含165、80-100和30-50 A细丝,在不规则晶格间距的开放晶格中。细胞的最外层区域,外围网,由70 A的细丝组成,排列成蜂窝状晶格,中心到中心的间距在150-300 A之间。在细胞粘附的早期阶段,扩散细胞的这种模式并不一致;因此,对粘附/活化的各个阶段进行了SEM和TEM观察的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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