Abstract
Cadherins control intercellular adhesion in most metazoans. In vertebrates, intercellular adhesion differs considerably between cadherins of type-I and type-II, predominantly due to their different extracellular regions. Yet, intercellular adhesion critically depends on actomyosin contractility, in which the role of the cadherin extracellular region is unclear. Here, we dissect the roles of the Extracellular Cadherin (EC) Ig-like domains by expressing chimeric E-cadherin with E-cadherin and cadherin-7 Ig-like domains in cells naturally devoid of cadherins. Using cell-cell separation, cortical tension measurement, tissue stretching and migration assays, we show that distinct EC repeats in the extracellular region of cadherins differentially modulate epithelial sheet integrity, cell-cell separation forces, and cell cortical tension with the Cdc42 pathway, which further differentially regulate epithelial tensile strength, ductility, and ultimately collective migration. Interestingly, dissipative processes rather than static adhesion energy mostly dominate cell-cell separation forces. We provide a framework for the emergence of epithelial phenotypes from cell mechanical properties dependent on EC outside-in signaling.
Highlights
Intercellular adhesion plays an important role in the development and maintenance of multicellular organisms [1,2,3]
Whereas all three regions of cadherins are essential for normal function, the extracellular cadherin (EC) region dictates differences in cell-cell separation forces (SFs)—a metric used as a proxy for intercellular adhesion energy [8] —between type-I and type-II cadherin-expressing cell pairs [6]
We examined the colocalization of junctional cadherins with catenins and vinculin by immunofluorescence labelling (Fig 1d)
Summary
Intercellular adhesion plays an important role in the development and maintenance of multicellular organisms [1,2,3]. Classical cadherins typically have an extracellular region comprising five EC repeats (EC1-5), a single transmembrane region and a cytoplasmic region [4, 5]. E-cadherin (type-I) engenders robust intercellular adhesion, as seen in the epithelium, whereas cadherin-7 (type-II) is associated with much weaker adhesion, such as that in the mesenchyme [6, 7]. This phenotypic difference may be attributed to the cadherin extracellular region. Whereas all three regions of cadherins are essential for normal function, the EC region dictates differences in cell-cell separation forces (SFs)—a metric used as a proxy for intercellular adhesion energy [8] —between type-I and type-II cadherin-expressing cell pairs [6]
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