Hirokawa N, Tilney L G, Fujiwara K, Heuser J E
J Cell Biol. 1982 Aug;94(2):425-43. doi: 10.1083/jcb.94.2.425.
Terminal webs prepared from mouse intestinal epithelial cells were examined by the quick-freeze, deep-etch, and rotary-replication method. The microvilli of these cells contain actin filaments that extend into the terminal web in compact bundles. Within the terminal web these bundles remain compact; few filaments are separated from the bundles and fewer still bend towards the lateral margins of the cell. Decoration with subfragment 1 (S1) of myosin confirmed that relatively few actin filaments travel horizontally in the web. Instead, between actin bundles there are complicated networks of the fibrils. Here we present two lines of evidence which suggest that myosin is one of the major cross-linkers in the terminal web. First, when brush borders are exposed to 1 mM ATP in 0.3 M KCl, they lose their normal ability to bind antimyosin antibodies as judged by immunofluorescence, and they lose the thin fibrils normally found in deep-etch replicas. Correspondingly, myosin is released into the supernatant as judged by SDS gel electrophoresis. Second, electron microscope immunocytochemistry with antimyosin antibodies followed by ferritin-conjugated second antibodies leads to ferritin deposition mainly on the fibrils at the basal part of rootlets. Deep-etching also reveals that the actin filament bundles are connected to intermediate filaments by another population of cross-linkers that are not extracted by ATP in 0.3 M KCl. From these results we conclude that myosin in the intestinal cell may not only be involved in a short range sliding-filament type of motility, but may also play a purely structural role as a long range cross-linker between microvillar rootlets.
采用快速冷冻、深度蚀刻和旋转复型法对从小鼠肠上皮细胞制备的终末网进行了检查。这些细胞的微绒毛含有肌动蛋白丝,它们以紧密的束状延伸到终末网中。在终末网内,这些束状结构保持紧密;很少有细丝从束中分离出来,更少的细丝向细胞的侧缘弯曲。用肌球蛋白亚片段1(S1)进行标记证实,终末网中水平移动的肌动蛋白丝相对较少。相反,在肌动蛋白束之间存在复杂的原纤维网络。在此,我们提供两条证据表明肌球蛋白是终末网中的主要交联剂之一。首先,当刷状缘暴露于0.3M KCl中的1mM ATP时,通过免疫荧光判断,它们失去了结合抗肌球蛋白抗体的正常能力,并且失去了在深度蚀刻复制品中通常发现的细原纤维。相应地,通过SDS凝胶电泳判断,肌球蛋白释放到上清液中。其次,用抗肌球蛋白抗体进行电子显微镜免疫细胞化学,然后用铁蛋白偶联的二抗,导致铁蛋白主要沉积在小根基部的原纤维上。深度蚀刻还显示,肌动蛋白丝束通过另一群在0.3M KCl中不被ATP提取的交联剂与中间丝相连。从这些结果我们得出结论,肠细胞中的肌球蛋白不仅可能参与短程滑动丝类型的运动,而且可能作为微绒毛小根之间的长程交联剂发挥纯粹的结构作用。