Characterization of microfibril-associated glycoprotein-1 (MAGP-1) domain with poro-thrombotic activity

In the last years, the main purpose of our laboratory has been to clarify the participation of the Microfibril-Associated GlycoProtein-1 (MAGP-1) in forming thrombus in photochemically-induced artery thrombosis model. It was considered that MAGP-1 does not interact directly with platelets, important component in artery thrombosis and probably MAGP-1 is interacting with a molecule which has participation in this process. In this sense, the interaction of the MAGP-1 with important molecules in the thrombus formation was studied. The MAGP-1 has the ability to interact with von Willebrand factor, as well as with fibrinogen and fibronectin. In addition, it was verified that the injection of recombinant MAGP-1 in MAGP-1-deficient mice was able to restores normal time of thrombus formation in these animals. Considering the MAGP-1 absence and its effect on the thrombi formation, it was questioned whether thrombi morphology obtained from MAGP-1-deficient mice was different from thrombi obtained from wild-type mice. Initial data suggested that the thrombi from MAGP-1-deficient mice had different structure, where platelets apparently showed their intact granules and dense bodies, suggesting an inefficient activation in the MAGP-1 absence. In this work, besides the ultra-structural analysis, more detailed studies have been made to determine which region of the MAGP-1 is responsible for the thrombogenic activity. In this sense, truncated proteins, mutated proteins and peptides, were obtained and then injected into MAGP-1-deficient mice to verify their activities. As result, we noticed that the thrombi have similar structure taking into consideration used techniques, scanning electron microscopy and transmission electron microscopy. Furthermore, in relation to MAGP-1 mapping domains studies when we inject recombinant full-length molecule either mice or bovine, the normal time occlusion was restored. The injection of carboxy-terminal region was enough to get this same result what is mainly related to an also determined peptide. Mechanisms involved in this process are unknown and will be our aim in the future studies (AU)