Department of Biochemistry, University of Illinois at Urbana-Champaign, Champaign, IL 61801, USA.
Department of Materials Science and Engineering, Johns Hopkins University, Baltimore, MD, USA.
Curr Biol. 2021 Jul 26;31(14):3017-3027.e7. doi: 10.1016/j.cub.2021.04.061. Epub 2021 May 20.
Cadherins are essential adhesion proteins that regulate tissue cohesion and paracellular permeability by assembling dense adhesion plaques at cell-to-cell contacts. Adherens junctions are central to a wide range of tissue functions; identifying protein interactions that potentiate their assembly and regulation has been the focus of research for over 2 decades. Here, we present evidence for a new, unexpected mechanism of cadherin oligomerization on cells. Fully quantified spectral imaging fluorescence resonance energy transfer (FSI-FRET) and fluorescence intensity fluctuation (FIF) measurements directly demonstrate that E-cadherin forms constitutive lateral (cis) dimers at the plasma membrane. Results further show that binding of the cytosolic protein p120ctn binding to the intracellular region is required for constitutive E-cadherin dimerization. This finding differs from a model that attributes lateral (cis) cadherin oligomerization solely to extracellular domain interactions. The present, novel findings are further supported by studies of E-cadherin mutants that uncouple p120ctn binding or with cells in which p120ctn was knocked out using CRISPR-Cas9. Quantitative affinity measurements further demonstrate that uncoupling p120ctn binding reduces the cadherin trans binding affinity and cell adhesion. These findings transform the current model of cadherin assembly at cell surfaces and identify the core building blocks of cadherin-mediated intercellular adhesions. They also identify a new role for p120ctn and reconcile findings that implicate both the extracellular and intracellular cadherin domains in cadherin clustering and intercellular cohesion.
钙黏蛋白是细胞间黏附的重要黏附蛋白,通过在细胞间接触处组装致密的黏附斑来调节组织的黏附和旁细胞通透性。黏附连接对于广泛的组织功能至关重要;鉴定能够增强其组装和调节的蛋白质相互作用一直是 20 多年来研究的重点。在这里,我们提出了钙黏蛋白在细胞上发生新的、意想不到的寡聚化机制的证据。全定量光谱成像荧光共振能量转移(FSI-FRET)和荧光强度波动(FIF)测量直接证明 E-钙黏蛋白在质膜上形成组成型的侧向(顺式)二聚体。结果进一步表明,细胞质蛋白 p120ctn 结合到细胞内区域的结合对于组成型 E-钙黏蛋白二聚化是必需的。这一发现与一种将侧向(顺式)钙黏蛋白寡聚化归因于细胞外结构域相互作用的模型不同。进一步支持本研究的是对分离 p120ctn 结合或使用 CRISPR-Cas9 敲除细胞中 p120ctn 的 E-钙黏蛋白突变体的研究。定量亲和力测量进一步证明,分离 p120ctn 结合会降低钙黏蛋白的跨膜结合亲和力和细胞黏附。这些发现改变了细胞表面钙黏蛋白组装的当前模型,并确定了钙黏蛋白介导的细胞间黏附的核心构建块。它们还确定了 p120ctn 的新作用,并协调了将细胞外和细胞内钙黏蛋白结构域都牵连到钙黏蛋白聚类和细胞间凝聚力中的发现。