Plakins are involved in the regulation of centrosome position in polarized epithelial cells

IF 2.4 4区生物学 Q4 CELL BIOLOGY

Biology of the Cell Pub Date : 2024-06-08 DOI:10.1111/boc.202400048

Juliana Geay, Yoran Margaron, David Gentien, Fabien Reyal, Alain Puisieux, Laurent Blanchoin, Laurent Guyon, Manuel Théry

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引用次数: 0

Abstract

Background Information

The control of epithelial cell polarity is key to their function. Its dysregulation is a major cause of tissue transformation. In polarized epithelial cells,the centrosome is off-centred toward the apical pole. This asymmetry determines the main orientation of the microtubule network and intra-cellular traffic. However, the mechanism regulating centrosome positioning at the apical pole of polarized epithelial cells is still poorly undertood.

Results

In this study we used transcriptomic data from breast cancer cells to identify molecular changes associated with the different stages of tumour transformation. We correlated these changes with variations in centrosome position or with cell progression along the epithelial-to-mesenchymal transition (EMT), a process that involves centrosome repositioning. We found that low levels of epiplakin, desmoplakin and periplakin correlated with centrosome mispositioning in cells that had progressed through EMT or tissue transformation. We further tested the causal role of these plakins in the regulation of centrosome position by knocking down their expression in a non-tumorigenic breast epithelial cell line (MCF10A). The downregulation of periplakin reduced the length of intercellular junction, which was not affected by the downregulation of epiplakin or desmoplakin. However, down-regulating any of them disrupted centrosome polarisation towards the junction without affecting microtubule stability.

Conclusions

Altogether, these results demonstrated that epiplakin, desmoplakin and periplakin are involved in the maintenance of the peripheral position of the centrosome close to inter-cellular junctions. They also revealed that these plakins are downregulated during EMT and breast cancer progression, which are both associated with centrosome mispositioning.

Significance

These results revealed that the down-regulation of plakins and the consequential centrosome mispositioning are key signatures of disorganised cytoskeleton networks, inter-cellular junction weakening, shape deregulation and the loss of polarity in breast cancer cells. These metrics could further be used as a new readouts for early phases of tumoral development.

Abstract Image

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Plakins 参与了极化上皮细胞中心体位置的调节。

背景信息：上皮细胞极性的控制是其功能的关键。极性失调是组织变革的主要原因。在极化的上皮细胞中，中心体偏离中心，朝向顶极。这种不对称性决定了微管网络和细胞内交通的主要方向。然而，对极化上皮细胞顶端中心体定位的调控机制还知之甚少：在这项研究中，我们利用乳腺癌细胞的转录组数据确定了与肿瘤转化的不同阶段相关的分子变化。我们将这些变化与中心体位置的变化或细胞在上皮细胞向间质细胞转变（EMT）过程中的进展联系起来，EMT 是一个涉及中心体重新定位的过程。我们发现，在经历了 EMT 或组织转化的细胞中，低水平的 epiplakin、desmoplakin 和 periplakin 与中心体错位有关。我们通过在非致瘤性乳腺上皮细胞系（MCF10A）中敲除这些蛋白的表达，进一步检测了这些蛋白在中心体位置调控中的因果作用。下调periplakin会减少细胞间接合点的长度，而下调epiplakin或desmoplakin则不会影响细胞间接合点的长度。然而，下调其中任何一种都会破坏中心体向交界处的极化，而不会影响微管的稳定性：总之，这些结果表明，外端粒蛋白、去端粒蛋白和周端粒蛋白参与维持靠近细胞间连接的中心体的外周位置。他们还发现，在EMT和乳腺癌进展过程中，这些plakin被下调，而EMT和乳腺癌进展都与中心体位置错误有关：这些结果表明，plakins 的下调和随之而来的中心体错位是乳腺癌细胞中细胞骨架网络混乱、细胞间连接减弱、形状失调和极性丧失的关键标志。这些指标可进一步用作肿瘤发展早期阶段的新读数。

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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来源期刊

Biology of the Cell 生物-细胞生物学

CiteScore

5.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The journal publishes original research articles and reviews on all aspects of cellular, molecular and structural biology, developmental biology, cell physiology and evolution. It will publish articles or reviews contributing to the understanding of the elementary biochemical and biophysical principles of live matter organization from the molecular, cellular and tissues scales and organisms. This includes contributions directed towards understanding biochemical and biophysical mechanisms, structure-function relationships with respect to basic cell and tissue functions, development, development/evolution relationship, morphogenesis, stem cell biology, cell biology of disease, plant cell biology, as well as contributions directed toward understanding integrated processes at the organelles, cell and tissue levels. Contributions using approaches such as high resolution imaging, live imaging, quantitative cell biology and integrated biology; as well as those using innovative genetic and epigenetic technologies, ex-vivo tissue engineering, cellular, tissue and integrated functional analysis, and quantitative biology and modeling to demonstrate original biological principles are encouraged.