Control of Heterotypic Fibril Formation by Collagen V Is Determined by Chain Stoichiometry

Although the collagen V heterotrimer is known to be involved in the control of fibril assembly, the role of the homotrimer in fibrillar organization has not yet been examined. Here, the production of substantial amounts of recombinant collagen V homotrimer has allowed a detailed study of its role in homotypic and heterotypic fibril formation. After removal of terminal regions by pepsin digestion, both the collagen V heterotrimer and homotrimer formed thin homotypic fibrils, thus showing that diameter limitation is at least in part an intrinsic property of the collagen V triple helix. When mixed with collagen I, however, various complementary approaches indicated that the collagen V heterotrimer and homotrimer exerted different effects in heterotypic fibril formation. Unlike the heterotrimer, which was buried in the fibril interior, the homotrimer was localized as thin filamentous structures at the surface of wide collagen I fibrils and did not regulate fibril assembly. Its localization at the fibril surface suggests that the homotrimer can act as a molecular linker between collagen fibrils or macromolecules in the extracellular matrix or both. Thus, depending on their respective distribution in tissues, the different collagen V isoforms might fulfill specific biological functions.