Upon plating on basement membrane Matrigel, NIH3T3 cells formed an anastomosing network of cord-like structures, inhibitable by anti-␣61 integrin antibodies. For NIH3T3 cells transfected with human CD151 protein, the formation of a cord-like network was also inhibitable by anti-CD151 antibodies. Furthermore, CD151 and ␣61 were physically associated within NIH3T3 cells. On removal of the short 8-amino acid C-terminal CD151 tail (by deletion or exchange), exogenous CD151 exerted a dominant negative effect, as it almost completely suppressed ␣61-dependent cell network formation and NIH3T3 cell spreading on laminin-1 (an ␣61 ligand). Importantly, mutant CD151 retained ␣61 association and did not alter ␣61-mediated cell adhesion to Matrigel. In conclusion, the CD151-␣61 integrin complex acts as a functional unit that markedly influences cellular morphogenesis, with the CD151 tail being of particular importance in determining the "outside-in" functions of ␣61-integrin that follow ligand engagement. Also, antibodies to ␣61 and CD151 inhibited formation of endothelial cell cord-like networks, thus pointing to possible relevance of CD151-␣61 complexes during angiogenesis.
INTRODUCTIONStudies of integrin-dependent adhesion, migration, and signaling have focused largely on integrin ligand binding sites (Plow et al., 2000) and on cytoplasmic domains (Liu et al., 2000). Cytoplasmic domain perturbations alter ligand binding ("inside-out" signaling) and ligand binding triggers long-range alterations in cytoplasmic domain interactions ("outside-in" signaling). Integrin functions are modulated also by lateral associations with other transmembrane proteins (Hemler, 1998;Woods and Couchman, 2000). As shown here, outside-in signaling through ␣61 integrin is markedly influenced by its lateral association with CD151, a transmembrane-4 superfamily (TM4SF, tetraspanin) protein.Tetraspanin proteins contain two extracellular loops, four hydrophobic transmembrane domains, and two short cytoplasmic tails. Tetraspanins regulate membrane fusion, trafficking, cell motility, and tumor metastasis (Wright and Tomlinson, 1994;. Tetraspanins form multimolecular complexes with many other transmembrane proteins, including integrins (Hemler et al., 1996;Hemler, 1998). Despite several reports of tetraspanin-protein complexes, only a few have documented functional relevance. For example, results from CD81-null mice support the relevance of CD81-CD19 association Miyazaki et al., 1997;Tsitsikov et al., 1997), CD9 influences the activity of associated HB-EGF (Iwamoto et al., 1994), and antibodies to CD81 and CD151 inhibit the functions of associated integrins (Domanico et al., 1997;Yánez-Mó et al., 1998;Yauch et al., 1998;Stipp and Hemler, 2000). Notably, anti-CD81 and anti-CD151 antibodies inhibited neurite outgrowth only when associated ␣31 integrin was engaged with ligand (Stipp and Hemler, 2000).Among tetraspanin complexes, the CD151-␣31 integrin complex has unusually high stoichiometry, proximity, and stability. A specific site in CD151'...
