Ben-Ze'ev A
Department of Genetics, Weizmann Institute of Science, Rehovot, Israel.
J Cell Sci Suppl. 1987;8:293-312. doi: 10.1242/jcs.1987.supplement_8.16.
As a model for investigating gene regulation in relation to cell and tissue morphogenesis, we studied the expression of the adherens junction proteins, vinculin, alpha-actinin and actin, and that of desmosomal junctions containing the desmoplakin-cytokeratin complex, in response to changes in cell contacts and configuration. In monolayer or suspension cultures of kidney epithelial cells we found high levels of synthesis of cytokeratin and desmoplakin where extensive cell-cell contacts were established. In contrast, cells in sparse monolayers had high levels of the vimentin-type intermediate filaments, but very low levels of cytokeratins and desmoplakin I. Whereas in kidney epithelial cells all cytokeratins were coordinately regulated in response to changes in culture conditions, in mammary epithelial cells a new 45 X 10(3) Mr cytokeratin was induced in dense monolayer and suspension cultures. By treating cells with TPA, intercellular junctions were rapidly disrupted and expression of cytokeratin and desmoplakin was dramatically reduced; however, vimentin expression was not affected. In mammary epithelial cells only synthesis of the 45 X 10(3) Mr cytokeratin was reduced in TPA-treated cells. Thus the synthesis of the cytokeratin-desmoplakin complex was coordinately regulated in response to changes in cell-cell contact and cell shape in a way that is compatible with the organization of these cells in vivo. The relationship between the organization and expression of adherens junction proteins and their role in the acquisition of the differentiated phenotype was studied in fibroblasts and in differentiating ovarian granulosa cells. The synthesis of vinculin in cultured fibroblasts increased dramatically when the cell culture density was high, concomitant with the establishment of extensive cell-substratum and cell-cell contacts of the adherens type. When fibroblasts were plated on substrata of varying adhesiveness, to modulate cell shape from a flat and well-spread to a poorly adherent spherical shape, there was a relationship between vinculin organization and expression: vinculin synthesis decreased dramatically in round cells. The differentiation of freshly isolated ovarian granulosa cells (as measured by production of high levels of progesterone) in response to gonadotropic hormones was followed by dramatic changes in cell shape and organization and expression of adherens junction proteins. Cell shape changed from a flat fibroblastic type to a spherical one, with a reduction in vinculin-containing plaques and the disappearance of actin-containing stress fibres.(ABSTRACT TRUNCATED AT 400 WORDS)
作为研究与细胞和组织形态发生相关的基因调控的模型,我们研究了黏附连接蛋白、纽蛋白、α-辅肌动蛋白和肌动蛋白,以及含有桥粒斑蛋白-细胞角蛋白复合物的桥粒连接蛋白,在细胞接触和形态变化时的表达情况。在肾上皮细胞的单层或悬浮培养中,我们发现,在建立了广泛的细胞间接触的地方,细胞角蛋白和桥粒斑蛋白的合成水平很高。相反,稀疏单层中的细胞波形蛋白型中间丝水平很高,但细胞角蛋白和桥粒斑蛋白I的水平很低。在肾上皮细胞中,所有细胞角蛋白都随着培养条件的变化而协同调控,而在乳腺上皮细胞中,一种新的45×10³Mr细胞角蛋白在致密单层和悬浮培养中被诱导产生。用佛波酯(TPA)处理细胞后,细胞间连接迅速被破坏,细胞角蛋白和桥粒斑蛋白的表达显著降低;然而,波形蛋白的表达不受影响。在乳腺上皮细胞中,经TPA处理的细胞中只有45×10³Mr细胞角蛋白的合成减少。因此,细胞角蛋白-桥粒斑蛋白复合物的合成随着细胞间接触和细胞形状的变化而协同调控,其方式与这些细胞在体内的组织结构相一致。我们在成纤维细胞和分化中的卵巢颗粒细胞中研究了黏附连接蛋白的组织结构与表达之间的关系,以及它们在获得分化表型中的作用。当细胞培养密度较高时,培养的成纤维细胞中纽蛋白的合成显著增加,同时伴随着广泛的细胞-基质和黏附型细胞-细胞接触的建立。当成纤维细胞接种在不同黏附性的基质上,以使细胞形状从扁平且铺展良好转变为黏附性差的球形时,纽蛋白的组织与表达之间存在一种关系:圆形细胞中纽蛋白的合成显著减少。新鲜分离的卵巢颗粒细胞在促性腺激素作用下发生分化(通过高水平孕酮的产生来衡量),随后细胞形状、组织结构以及黏附连接蛋白的表达发生显著变化。细胞形状从扁平的成纤维细胞型变为球形,含纽蛋白的斑块减少,含肌动蛋白的应力纤维消失。(摘要截选至400词)
