Type XV collagen has a widespread distribution in human tissues, but a nearly restricted localization in basement membrane zones. The ␣1(XV) chain contains a highly interrupted collagenous region of 577 residues, and noncollagenous amino-and carboxyl-terminal domains of 530 and 256 residues, respectively. Cysteines are present in each domain and consensus sequences for O-linked glycosaminoglycans are situated in the amino terminus and in two large, noncollagenous interruptions. We now report that type XV collagen is a chondroitin sulfate proteoglycan in human tissues and cultured cells, and that the ␣ chains are covalently linked by interchain disulfide bonds only between the two cysteines in the collagenous region. Western blotting of tissue extracts revealed a diffuse smear with a mean size >400 kDa, which after chondroitinase digestion resolved into a 250-kDa band in umbilical cord, and 250-and 225-kDa bands in placenta, lung, colon, and skeletal muscle. The latter two bands were also directly visualized by alcian blue/silver staining of a purified placenta extract. In a human rhabdomyosarcoma cell line, almost all of the newly synthesized type XV collagen was secreted into the medium and upon chondroitinase digestion just the 250-kDa ␣ chain was generated. Chondroitinase plus collagenase digestion of tissue and medium proteins followed by Western blotting using domain-specific antibodies revealed a 135-kDa amino-terminal fragment containing glycosaminoglycan chains and a 27-kDa fragment representing the intact carboxyl terminus. However, a truncated carboxyl peptide of ϳ8-kDa was also evident in tissue extracts containing the 225-kDa form. Our data suggest that the 225-kDa form arises from differential carboxyl cleavage of the 250-kDa form, and could explain the ϳ19-kDa endostatin-related fragments (John, H., Preissner, K. T., Forssmann, W.-G., and Stä ndker, L. (1999) Biochemistry 38, 10217-10224), which may be liberated from the ␣1(XV) chain.
Basement membrane zones (BMZs)1 can be operationally defined as morphological entities consisting of a basement membrane plus its closely associated matrix components, which extend into or originate from the sub-basal lamina (1). The BMZ contains the molecules responsible for attaching basement membranes to their contiguous stroma and/or epithelium. Those components integral to basement membranes include type IV collagen, laminin, entactin/nidogen, and perlecan (for review, see Ref.2), whereas a plethora of other matrix proteins, glycoproteins, and proteoglycans have been assigned to the BMZ using different methods. Many of these constituents have been studied in depth biochemically and ultrastructurally, while several newer and less abundant ones are not yet well characterized. Within this latter category are three more recently discovered nonfibrillar collagens: types XV, XVIII, and XIX (3-6). Independently identified from DNA clone isolation, they are considered members of a unique collagen subclass because of their widespread distribution in BMZs of many tissues (...
