Establishment of the circumferential actin filament network is a prerequisite for localization of the cadherin-catenin complex in epithelial cells.

M P Quinlan, J L Hyatt
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Abstract

With the adhesion molecules, the actin cytoskeleton controls cell-cell and cell-substrate interactions and participates in transmembrane signaling. The relationships between actin and adhesion complexes at the sites of adhesion have been well documented. Here we investigate by a series of studies whether a relationship exists between actin organization and the localization and function of the components of the cadherin-catenin complex (CCC) that participates in the cell-cell adherens junction. Reversible actin depolymerization reversibly affects the peripheral distribution of CCCs. Mutations in adenovirus E1A and the small GTPase rac1, but not Ha-ras, disrupt the circumferential, cortical actin filament (CAF) network and the targeting of CCC components to the cell surface. Disruption of actin stress fibers or microtubules does not interfere with CCC localization and function. Constitutive loss of the apical cortical actin ring results in epithelial cells in which components of the CCCs are found only in intracellular vesicles and never at the surface. A kinetic analysis of the de novo appearance of the CAF network and the CCCs at the cell surface was also conducted. When F-actin was dissolved, surface CCC components were internalized. Reestablishment of CAFs required about 4 h, during which time E-cadherin and alpha-catenin were found first in a juxtanuclear location and then in intracellular vesicles or post-Golgi carriers, similar to what was observed in cells expressing mutant E1A or rac1. Thus, disruption of preexisting CCCs resulted in their internalization and recycling to the Golgi. It was only after the regeneration of the filamentous actin ring beneath the cell surface that peripheral localization of CCCs was observed. A similar result was observed with dominant negative rac1. These data suggest that the status of cortical actin is assessed and transduced and thereby regulates the transport and delivery of cadherin and catenins to the cell surface.

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环形肌动蛋白丝网络的建立是上皮细胞中钙粘蛋白-连环蛋白复合物定位的先决条件。
与粘附分子一起,肌动蛋白细胞骨架控制细胞与细胞和细胞-底物的相互作用并参与跨膜信号传导。肌动蛋白和黏附复合物在黏附部位之间的关系已经被很好地记录下来。在这里,我们通过一系列研究来探讨肌动蛋白组织与参与细胞-细胞粘附连接的钙粘蛋白-连环蛋白复合物(CCC)组分的定位和功能之间是否存在关系。可逆肌动蛋白解聚可逆地影响CCCs的外周分布。腺病毒E1A和小GTPase rac1的突变,而不是Ha-ras的突变,破坏了周向的皮质肌动蛋白丝(CAF)网络和CCC组分对细胞表面的靶向。肌动蛋白应力纤维或微管的破坏不会干扰CCC的定位和功能。顶端皮质肌动蛋白环的组成性缺失导致上皮细胞中CCCs的成分只存在于细胞内的囊泡中,而不在细胞表面。对CAF网络和细胞表面CCCs的重新出现进行了动力学分析。当f -肌动蛋白溶解时,表面CCC成分被内化。CAFs的重建大约需要4小时,在此期间,E-cadherin和α -catenin首先出现在核旁位置,然后出现在细胞内囊泡或后高尔基载体中,这与表达突变体E1A或rac1的细胞中观察到的情况相似。因此,先前存在的CCCs的破坏导致了它们的内化和再循环到高尔基体。只有在细胞表面下的丝状肌动蛋白环再生后,才能观察到CCCs的外周定位。显性阴性rac1也有类似的结果。这些数据表明,皮质肌动蛋白的状态被评估和转导,从而调节钙粘蛋白和连环蛋白向细胞表面的运输和传递。
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