Mac-2-binding protein (M2BP) is a secreted glycoprotein suggested to have a role in host defense. It forms linear and ring-shaped oligomers, with each ring segment being composed of two monomers. We have produced recombinant human M2BP fragments comprising domains 1 and 2 (M2BP-1,2) and domains 3 and 4 (M2BP-3,4) in 293 human kidney cells to characterize structural and functional properties of M2BP. Both fragments were obtained in a native and glycosylated form, as analyzed by CD spectroscopy, trypsin susceptibility, and enzymatic deglycosylation. These results strongly suggest that both fragments are autonomous folding units. All three potential N-glycosylation sites in M2BP-1,2 and all four in M2BP-3,4 were found to be occupied. M2BP-1,2 expressed in tunicamycin-treated cells contained no glycosyl residues, indicating that O-glycosylation is not occurring. Ultracentrifugation revealed that M2BP-1,2 is homogeneously dimeric in the nanomolar range reflecting the properties of intact M2BP. Domain 2 (BTB/ POZ domain) is thus identified as the dimerization domain of M2BP, because it has been formerly shown that recombinant domain 1 is monomeric. M2BP-3,4 showed a concentration-dependent self-association, and aggregates of different size and shape were shown by electron microscopy. In contrast to this irregular aggregation of M2BP-3,4, it has been formerly shown that a fragment comprising domains 2-4 still has the ability to form ringlike structures, although the rings are protein-filled, and thus domain 2 appears to be indispensable for ring formation. Solid phase assays showed that M2BP-3,4 contains binding sites for galectin-3, nidogen, and collagens V and VI, whereas M2BP-1,2 is inactive in binding. Both fragments showed no cell adhesive activity in contrast to native M2BP, suggesting that a concerted binding action and/or multivalent interactions of rings are necessary for cell attachment.
Mac-2-binding protein (M2BP)1 is a secreted glycoprotein present in the extracellular matrix of several tissues (1) and in extracellular fluids such as serum and milk (2). Elevated levels are observed in some tumors and viral infections (3, 4). In vitro, human M2BP induces production of interleukin-1, interleukin-6, and other cytokines by blood monocytes and stimulates natural killer cell and lymphokine-activated killer cell activity (5, 6). Mouse cyclophilin C-associated protein is 69% identical to M2BP, and it seems likely that the two proteins are functional homologues. Gene-targeted cyclophilin C-associated protein-deficient mice are viable but show an up-regulation of the endotoxin and proinflammatory response (7).M2BP is extensively glycosylated and interacts with galectin-3 (former name Mac-2), and it also interacts with other extracellular proteins such as collagens IV, V, and VI, fibronectin, and nidogen (1, 2, 8, 9). M2BP binds to galectin-3 on the cell surface and induces homotypic cell aggregation (10).  1 -Integrin-mediated cell adhesion to M2BP was also demonstrated (1).Tissue extracted and recombinant M2BP for...
