Knapp L W, O'Guin W M, Sawyer R H
J Cell Biol. 1983 Dec;97(6):1788-94. doi: 10.1083/jcb.97.6.1788.
In addition to containing microtubule and microfilament systems, vertebrate epithelial cells contain an elaborate keratin intermediate-filament cytoskeleton. Little is known about its structural organization or function. Using indirect immunofluorescence microscopy with an antikeratin antiserum probe, we found that destabilization of microtubules and microfilaments with cytostatic drugs induces significant alterations in the cytoskeletal organization of keratin filaments in HeLa and fetal mouse epidermal cells. Keratin filament organization was observed to undergo a rapid (1-2 h) transition from a uniform distribution to an open lattice of keratin fibers stabilized by membrane-associated focal centers. Since addition of any one drug alone did not elicit significant organizational change in the keratin cytoskeleton, we suggest that microfilaments and microtubules have a combined role in maintaining the arrangement of keratin in these cells. Vimentin filaments, the only other intermediate-sized filaments found in HeLa cells, did not co-distribute with keratin in untreated or drug-treated cells. These findings offer a new way to approach the study of the dynamics and functional roles of the keratin cytoskeleton in epithelial cells.
除了含有微管和微丝系统外,脊椎动物上皮细胞还含有一种复杂的角蛋白中间丝细胞骨架。关于其结构组织或功能,人们了解甚少。使用抗角蛋白抗血清探针进行间接免疫荧光显微镜观察,我们发现用细胞生长抑制剂药物破坏微管和微丝会导致HeLa细胞和胎鼠表皮细胞中角蛋白丝的细胞骨架组织发生显著改变。观察到角蛋白丝的组织经历了一个快速(1 - 2小时)的转变,从均匀分布转变为由膜相关的聚焦中心稳定的角蛋白纤维开放晶格。由于单独添加任何一种药物都不会引起角蛋白细胞骨架的显著组织变化,我们认为微丝和微管在维持这些细胞中角蛋白的排列方面具有联合作用。波形蛋白丝是在HeLa细胞中发现的唯一其他中等大小的丝,在未处理或药物处理的细胞中,它与角蛋白不共分布。这些发现为研究上皮细胞中角蛋白细胞骨架的动力学和功能作用提供了一种新方法。