Crystal Structure of the cis-Dimer of Nectin-1: implications for the architecture of cell-cell junctions

In multicellular organisms, cells are interconnected by cell adhesion molecules. Nectins are immunoglobulin (Ig)-like cell adhesion molecules that mediate homotypic and heterotypic cell-cell adhesion, playing key roles in tissue organization. To mediate cell-cell adhesion, nectin molecules dimerize...

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Bibliographic Details
Published in:The Journal of biological chemistry 2011-04, Vol.286 (14), p.12659-12669
Main Authors: Narita, Hirotaka, Yamamoto, Yasunori, Suzuki, Mamoru, Miyazaki, Naoyuki, Yoshida, Asuka, Kawai, Katsuhisa, Iwasaki, Kenji, Nakagawa, Atsushi, Takai, Yoshimi, Sakisaka, Toshiaki
Format: Article
Language:English
Subjects:
Animals
Cell Adhesion Molecules - chemistry
Cell Adhesion Molecules - genetics
Cell Adhesion Molecules - metabolism
Cell Aggregation - genetics
Cell Aggregation - physiology
Cell Biology
Cell Line
Chromatography, Gel
Crystallography, X-Ray
Humans
Hydrogen Bonding
Intercellular Junctions - genetics
Intercellular Junctions - metabolism
Mice
Microscopy, Fluorescence
Nectins
Neurofilament Proteins - genetics
Neurofilament Proteins - metabolism
Protein Binding
Protein Multimerization - genetics
Protein Multimerization - physiology
Protein Structure, Secondary
Ultracentrifugation
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Summary:In multicellular organisms, cells are interconnected by cell adhesion molecules. Nectins are immunoglobulin (Ig)-like cell adhesion molecules that mediate homotypic and heterotypic cell-cell adhesion, playing key roles in tissue organization. To mediate cell-cell adhesion, nectin molecules dimerize in cis on the surface of the same cell, followed by trans-dimerization of the cis-dimers between the neighboring cells. Previous cell biological studies deduced that the first Ig-like domain of nectin and the second Ig-like domain are involved in trans-dimerization and cis-dimerization, respectively. However, to understand better the steps involved in nectin adhesion, the structural basis for the dimerization of nectin must be determined. In this study, we determined the first crystal structure of the entire extracellular region of nectin-1. In the crystal, nectin-1 formed a V-shaped homophilic dimer through the first Ig-like domain. Structure-based site-directed mutagenesis of the first Ig-like domain identified four essential residues that are involved in the homophilic dimerization. Upon mutating the four residues, nectin-1 significantly decreased cis-dimerization on the surface of cultured cells and abolished the homophilic and heterophilic adhesion activities. These results indicate that, in contrast with the previous notion, our structure represents a cis-dimer. Thus, our findings clearly reveal the structural basis for the cis-dimerization of nectins through the first Ig-like domains.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M110.197368