Developmental expression patterns of Beta-ig (betaIG-H3) and its function as a cell adhesion protein.

Beta-ig is a secretory protein embodied by fasciclin I-like repeats containing sequences that might bind integrins and glycosaminoglycans in vivo. Expression of Beta-ig is responsive to Transforming Growth Factor-beta and the protein is found to be associated with extracellular matrix (ECM) molecules, implicating Beta-ig as an ECM adhesive protein of developmental processes. The spatiotemporal distribution of Beta-ig during various stages of murine development was examined and its ability to support adhesion of various cell types assessed. In situ hybridization of mouse embryos (E12.5-E18.5) indicated a prominent, distinct expression pattern for Beta-ig message in connective tissue. Beta-ig transcripts were abundantly expressed during mesenchymal cell condensation in areas of axial, craniofacial and appendicular primordial cartilage from E12.5-E14.5. Beginning at E15.5, Beta-ig transcripts appeared in collagen-rich tissues, including dura mater and corneal stroma. During E16.5-E18.5, Beta-ig transcripts were observed in proliferating chondrocytes and areas of endochondral ossification in joint and articular cartilage formation. Connective tissues expressed Beta-ig transcripts within the nasal septum and surrounding cartilage primordia, and in the pericardium, optic cup, kidney, ovary, esophagus, diaphragm, bronchi, trachea and corneal epithelium, and during cardiac valve formation. These patterns of expression indicate that Beta-ig may be involved in tissue morphogenesis. Cells derived from mesenchyme attached onto a substratum comprised of purified recombinant Beta-ig. Taken together, the results indicate that Beta-ig is expressed principally in collagen-rich tissues where it may interact with cells and ECM molecules, perhaps playing a role in tissue morphogenesis.

The extracellular matrix protein betaIG-H3 is expressed at myotendinous junctions and supports muscle cell adhesion.

Molecules of the extracellular matrix (ECM) play important roles in the development and maintenance of myotendinous junctions (MTJs), specialized regions of muscle to bone union. In this report we provide evidence that skeletal muscle cells synthesize the collagen- and fibronectin-binding ECM protein betaIG-H3 and that betaIG-H3 is localized to MTJs. In situ hybridization experiments revealed that during E16.5-E18.5 of murine development, betaIG-H3 RNA transcripts were expressed where developing skeletal muscle fibers contact primordial cartilage and bone. Immunohistochemical analysis verified that the betaIG-H3 protein itself localized distinctively at MTJs, and ultrastructural analysis suggested that betaIG-H3 associates with extracellular fibers and the surface of cells. In vitro, recombinant betaIG-H3 functioned as an adhesion substratum for skeletal muscle cells. Adhesion was significantly reduced by anti-integrin alpha7 and beta1 antibodies, suggesting that betaIG-H3 binds to skeletal muscle cells via alpha7beta1 integrin. Localization of betaIG-H3 to the termini of skeletal muscle fibers and the binding of betaIG-H3 to cells and to molecules of the ECM suggests that betaIG-H3 may play an organizational and structural role in developing MTJs, linking skeletal muscle to components of the ECM.