Interactions of intermediate filaments with cell structures

Electron microscopy reviews Pub Date : 1990-01-01 DOI:10.1016/0892-0354(90)90017-M

M. Carmo-Fonseca , J.F. David-Ferreira

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引用次数: 67

Abstract

Intermediate filaments (IF) are unique components of the cytoskeleton of most eukaryotic cells. Also the nuclear lamins are now recognized to be IF-like proteins, providing the nucleus with a putative skeleton for chromatin attachment. Immunofluorescence and whole-mount electron microscopic studies reveal that IF form a cytoplasmic network that surrounds the nucleus and extends to cell surface, as ‘mechanical integrators of cellular space’. It seems however unlikely that IF in the cell accomplish a merely structural role, considering the diversity of IF proteins and the complex regulation of their gene expression. In this work we primarily present electron microscopic data that points to the presence of interactions between IF and several cellular components, namely the nucleus, plasma membrane, other cytoskeletal elements, cytoplasmic organelles and ribonucleoproteins. Although the functional significance of such interactions remains to be demonstrated, assumptions like involvement of IF in information transfer or cytoskeleton-dependent control of gene expression represent attractive hypothesis for future research.

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中间丝与细胞结构的相互作用

中间丝(IF)是大多数真核细胞的细胞骨架的独特组成部分。此外，核层蛋白现在被认为是if样蛋白，为细胞核提供了一个假定的染色质附着骨架。免疫荧光和全载电镜研究表明，中频形成一个围绕细胞核并延伸到细胞表面的细胞质网络，作为“细胞空间的机械整合器”。然而，考虑到IF蛋白的多样性及其基因表达的复杂调控，IF在细胞中似乎不太可能仅仅完成结构作用。在这项工作中，我们主要提供电子显微镜数据，指出IF与几种细胞成分之间存在相互作用，即细胞核，质膜，其他细胞骨架元件，细胞质细胞器和核糖核蛋白。尽管这种相互作用的功能意义仍有待证明，但IF参与信息传递或细胞骨架依赖性基因表达控制等假设对未来的研究具有吸引力。

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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Electron microscopy reviews

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