Abstract
Cadherin receptors have a well-established role in cell–cell adhesion, cell polarization and differentiation. However, some cadherins also promote cell and tissue movement during embryonic development and tumour progression. In particular, cadherin-11 is upregulated during tumour and inflammatory cell invasion, but the mechanisms underlying cadherin-11 stimulated cell migration are still incompletely understood. Here, we show that cadherin-11 localizes to focal adhesions and promotes adhesion to fibronectin in Xenopus neural crest, a highly migratory embryonic cell population. Transfected cadherin-11 also localizes to focal adhesions in different mammalian cell lines, while endogenous cadherin-11 shows focal adhesion localization in primary human fibroblasts. In focal adhesions, cadherin-11 co-localizes with β1-integrin and paxillin and physically interacts with the fibronectin-binding proteoglycan syndecan-4. Adhesion to fibronectin mediated by cadherin-11/syndecan-4 complexes requires both the extracellular domain of syndecan-4, and the transmembrane and cytoplasmic domains of cadherin-11. These results reveal an unexpected role of a classical cadherin in cell–matrix adhesion during cell migration.
Highlights
Cadherin receptors have a well-established role in cell–cell adhesion, cell polarization and differentiation
In this study we demonstrate that cadherin-11 co-localizes with b1-integrin and paxillin to focal adhesions (FAs) in Xenopus neural crest cells (NCCs), where it promotes cell adhesion to fibronectin
We demonstrate that the extracellular domain of syndecan-4, which mediates adhesion to fibronectin, and the transmembrane as well as the cytoplasmic domain of cadherin-11 are needed for proper NCC spreading and cell–matrix adhesion
Summary
Cadherin receptors have a well-established role in cell–cell adhesion, cell polarization and differentiation. Adhesion to fibronectin mediated by cadherin-11/syndecan-4 complexes requires both the extracellular domain of syndecan-4, and the transmembrane and cytoplasmic domains of cadherin-11 These results reveal an unexpected role of a classical cadherin in cell–matrix adhesion during cell migration. In Xenopus, it was recently demonstrated that transient cadherin-11-mediated cell–cell adhesion is crucial for proper NCC cell migration in the context of contact inhibition of locomotion, an important mechanism for the directional migration of NCC14. In this study we demonstrate that cadherin-11 co-localizes with b1-integrin and paxillin to focal adhesions (FAs) in Xenopus NCC, where it promotes cell adhesion to fibronectin. We demonstrate that the extracellular domain of syndecan-4, which mediates adhesion to fibronectin, and the transmembrane as well as the cytoplasmic domain of cadherin-11 are needed for proper NCC spreading and cell–matrix adhesion
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