Cell autonomous polarization by the planar cell polarity signaling pathway.

bioRxiv : the preprint server for biology Pub Date : 2025-01-26 DOI:10.1101/2023.09.26.559449

Alexis T Weiner, Silas Boye Nissen, Kaye Suyama, Bomsoo Cho, Gandhy Pierre-Louis, Jeffrey D Axelrod

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Abstract

Planar Cell Polarity (PCP) signaling polarizes epithelial cells in a plane orthogonal to their apical-basal axis. A core PCP signaling module segregates two distinct molecular subcomplexes to opposite sides of cells and coordinates the direction of polarization between neighboring cells. Homodimers of the atypical cadherin Flamingo are thought to scaffold these subcomplexes and are required for intercellular polarity signaling. Feedback is required for polarization, but whether feedback requires intercellular and/or intracellular pathways is unknown, and traditional genetic tools have limited utility in dissecting these mechanisms. Using novel tools, we show that cells lacking Flamingo, or bearing a homodimerization-deficient Flamingo, do polarize, indicating that functional PCP subcomplexes form and segregate cell-autonomously. We identify feedback pathways and propose a competitive binding-based asymmetry amplifying mechanism that each operate cell-autonomously. The intrinsic logic of PCP signaling is therefore more similar to that in single cell polarizing systems than was previously recognized.

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细胞自主极化通过平面细胞极性信号通路。

平面细胞极性（PCP）信号使上皮细胞在与其顶端-基底轴正交的平面中极化。核心PCP信号模块既在细胞内产生分子不对称性，又协调相邻细胞之间的极化方向。核心蛋白的两个亚复合体分离到细胞的相对两侧，形成极性轴。非典型钙粘蛋白火烈鸟的同源二聚体被认为是这些亚复合物组装的支架，也是细胞间极性信号传导所必需的。火烈鸟同源二聚体在支架和细胞间通讯中的核心作用表明，通过火烈鸟传递细胞间信号的细胞应该不会极化。我们发现，缺乏火烈鸟的细胞，或者携带不能同源二聚的截短的火烈鸟，实际上会发生极化。细胞极化需要正反馈和负反馈，在多细胞组织中，反馈可能涉及细胞内和细胞间途径。我们确定了正反馈和负反馈途径，这些途径使细胞自主运作以驱动极化。

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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