Anh Phuong Le scite author profile

Singapore# These authors contributed equally to this work. SummaryThe control of tissue growth, which is a key to maintain the protective barrier function of the epithelium, depends on the balance between cell division and cell extrusion rates [1,2]. Cells within confluent epithelial layers undergo cell extrusion, which relies on cell-cell interactions [3] and actomyosin contractility [4,5]. Although it has been reported that cell extrusion is also dependent on cell density [6,7], the contribution of tissue mechanics, which is tightly regulated by cell density [8][9][10][11][12], to cell extrusion is still poorly understood. By measuring the multi-cellular dynamics and traction forces, we show that changes in epithelial packing density lead to the emergence of distinct modes of cell extrusion. In confluent epithelia with low cell density, cell extrusion is mainly driven by the lamellipodia-based crawling mechanism in the neighbor nondying cells in connection with large-scale collective movements. As cell density increases, cell motion is shown to slow down and the role of a supra-cellular actomyosin cable formation and its contraction in the neighboring cells becomes the preponderant mechanism to locally promote cell

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Force-dependent binding of vinculin to α-catenin regulates cell–cell contact stability and collective cell behavior

Seddiki

Narayana

Strale

et al. 2018

MBoC

109

112

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JLP Associates with Kinesin Light Chain 1 through a Novel Leucine Zipper-like Domain

Nguyen¹,

Lee²,

et al. 2005

Journal of Biological Chemistry

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Scaffolding proteins exist in eukaryotes to properly assemble signaling proteins into specific multimeric functional complexes. JLP is a novel leucine zipper protein belonging to a family of scaffolding proteins that assemble JNK signaling modules. JLP is a proline-rich protein that contains two leucine zipper domains and a highly conserved C-terminal domain. We have identified kinesin light chain 1 (KLC1) as a binding partner for the second leucine zipper domain of JLP using yeast twohybrid screening. The interaction domain of KLC1 was mapped to its tetratripeptide repeat, which contains a novel leucine zipper-like domain that is crucial for the interaction with JLP. Mutations of Leu-280, Leu-287, Val-294, and Leu-301 within this domain of KLC1 disrupted its ability to associate with JLP. Immunofluorescence studies showed that JLP and KLC1 co-localized in the cytoplasm and that the localization of JLP was dependent on its second leucine zipper. Ectopic expression of a dominant negative form of KLC1 resulted in the mislocalization of endogenous JLP. Moreover, the association between JLP and KLC1 occurred in vivo and was important in the formation of ternary complex with JNK1. These results identify a novel protein-protein interaction between KLC1 and JLP that involves leucine zipper-like domains and support the role of motor proteins in the spatial regulation of signaling modules.

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Regulation of epithelial cell organization by tuning cell–substrate adhesion

Ravasio

Saw

et al. 2015

Integr. Biol.

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Collective migration of cells is of fundamental importance for a number of biological functions such as tissue development and regeneration, wound healing and cancer metastasis. The movement of cell groups consisting of multiple cells connected by cell-cell junctions depends on both extracellular and intercellular contacts. Epithelial cell assemblies are thus regulated by a cross-talk between cell-substrate and cell-cell interactions. Here, we investigated the onset of collective migration in groups of cells as they expand from a few cells into large colonies as a function of extracellular matrix (ECM) protein coating. By varying the amount of ECM presented to the cells, we observe that the mode of colony expansion, as well as their overall geometry, is strongly dependent on substrate adhesiveness. On high ECM protein coated surfaces, cells at the edges of the colonies are well spread exhibiting large outward-pointing protrusive activity, whereas cellular colonies display more circular and convex shapes on less adhesive surfaces. Actin structures at the edge of the colonies also show different organizations with the formation of lamellipodial structures on highly adhesive surfaces and a pluricellular actin cable on less adhesive ones. The analysis of traction forces and cell velocities within the cellular assemblies confirm these results. By increasing ECM protein density, cells exert higher traction forces together with a higher outward motility at the edges. Furthermore, tuning cell-cell adhesion of epithelial cells modified the mode of expansion of the colonies. Finally, we used a recently developed computational model to recapitulate the emergent experimental behaviors of expanding cell colonies and extract that the main effect of the different cell-substrate interactions is on the ability of edge cells to form outward lamellipodia-driven motility. Overall, our data suggest that switching behaviors of epithelial cell assemblies result in a tug-of-war between friction forces at the cell-substrate interface and cell-cell interactions.

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Anh Phuong Le

Epithelial Cell Packing Induces Distinct Modes of Cell Extrusions

Force-dependent binding of vinculin to α-catenin regulates cell–cell contact stability and collective cell behavior

JLP Associates with Kinesin Light Chain 1 through a Novel Leucine Zipper-like Domain

Regulation of epithelial cell organization by tuning cell–substrate adhesion

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