The streptococcal collagen-like proteins Scl1 and Scl2 are prokaryotic members of a large protein family with domains containing the repeating amino acid sequence (Gly-Xaa-Yaa) n that form a collagen-like triple-helical structure. Here, we test the hypothesis that Scl variant might interact with mammalian collagen-binding integrins. We show that the recombinant Scl protein p176 promotes adhesion and spreading of human lung fibroblast cells through an ␣ 2  1 integrin-mediated interaction as shown in cell adhesion inhibition assays using anti-␣ 2  1 and anti- 1 integrins monoclonal antibodies. Accordingly, C2C12 cells stably expressing ␣ 2  1 integrin as the only collagen-binding integrin show productive cell adhesion activities on p176 that can be blocked by an anti-␣ 2  1 integrin antibody. In addition, p176 promotes tyrosine phosphorylation of p125 FAK of C2C12 cells expressing ␣ 2  1 integrin, whereas parental C2C12 cells do not. Furthermore, adhesion of human lung fibroblast cells to p176 induces phosphorylation of p125 FAK , p130 CAS , and p68 Paxillin proteins. In a domain swapping experiment, we show that integrin binds to the collagenous domain of the Scl protein. Moreover, the recombinant inserted domain of the ␣ 2 integrin interacts with p176 with a relatively high affinity (K D ؍ 17 nM). Attempts to identify the integrin sites in p176 suggest that more than one site may be involved. These studies, for the first time, suggest that the collagen-like proteins of prokaryotes retained not only structural but also functional characteristics of their eukaryotic counterparts.The collagens are a family of extracellular matrix (ECM) 1 proteins that provide structural support to all multicellular animals (1). The repeating sequence Gly-Xaa-Yaa (GXY), where X is often proline and Y is often hydroxyproline, is a unique feature of the collagen polypeptides (2-4). Long tracks of repeated GXY sequences fold into left-handed polyproline type II-like chains, and three such chains cooperatively twist around a central axis to form a right-handed rope-like superhelix (2, 5-7), considered a defining feature of collagens. The collagens also contain C-and N-terminal noncollagenous domains, which often are proteolyzed during secretion from the cells (7-9). Mature collagen molecules are deposited in the ECM in the form of fibers, networks, and beaded filaments (8). One group of mammalian proteins that fulfill rudimentary host defense functions such as the complement factor C1q (9) and several mammalian lectins (10) also have collagenous domains, but they are not conventional collagens. These proteins form characteristic lollipop-like structures, where the collagenous domains form the stalks, and globular heads correspond to the noncollagenous regions. Collagen-like molecules also have been found in lower eukaryotes such as mussels, worms, and sponges (11), and collagen-like sequences have been identified from analyses of the genomes of prokaryotes (12-15).The streptococcal collagen-like proteins Scl1 and Scl2 (also know...
