Rap1 Regulates the Formation of E-Cadherin-Based Cell-Cell Contacts

Catherine Hogan; Norberto Serpente; Patricia Cogram; Catherine Rose Hosking; Carl Uli Bialucha; Stephan M. Feller; Vania Braga; Walter Birchmeier; Yasuyuki Fujita

doi:10.1128/mcb.24.15.6690-6700.2004

Rap1 Regulates the Formation of E-Cadherin-Based Cell-Cell Contacts

Catherine Hogan(MRC Laboratory for Molecular Cell Biology), Norberto Serpente(MRC Laboratory for Molecular Cell Biology), Patricia Cogram(MRC Laboratory for Molecular Cell Biology), Catherine Rose Hosking(MRC Laboratory for Molecular Cell Biology), Carl Uli Bialucha(MRC Laboratory for Molecular Cell Biology), Stephan M. Feller(Cancer Research UK), Vania Braga(Imperial College London), Walter Birchmeier(Max Delbrück Center), Yasuyuki Fujita(MRC Laboratory for Molecular Cell Biology)

Molecular and Cellular Biology

July 14, 2004

10.1128/mcb.24.15.6690-6700.2004

Cited by 257Open Access

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Abstract

In epithelial tissues, cells are linked to their neighbors through specialized cell-cell adhesion proteins. E-cadherin is one of the most important membrane proteins for the establishment of intimate cell-cell contacts, but the molecular mechanism by which it is recruited to contact sites is largely unknown. We report here that the cytoplasmic domain of E-cadherin interacts with C3G, a guanine nucleotide exchange factor for Rap1. In epithelial cell cultures, ligation of the extracellular domain of E-cadherin enhances Rap1 activity, which in turn is necessary for the proper targeting of E-cadherin molecules to maturing cell-cell contacts. Furthermore, our data suggest that Cdc42 functions downstream of Rap1 in this process. We conclude that Rap1 plays a vital role in the establishment of E-cadherin-based cell-cell adhesion.

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