Alternagin-C binding to α2ß1 integrin controls matrix metalloprotease-9 and matrix metalloprotease-2 in breast tumor cells and endothelial cells

Background: Matrix metalloproteinases (MMPs) are key players in tumor progression, helping tumor cells to modify their microenvironment, which allows cell migration to secondary sites. The role of integrins, adhesion receptors that connect cells to the extracellular matrix, in MMP expression and activity has been previously suggested. However, the mechanisms by which integrins control MMP expression are not completely understood. Particularly, the role of α2ß1 integrin, one of the major collagen I receptors, in MMP activity and expression has not been studied. Alternagin-C (ALT-C), a glutamate-cysteine-aspartate-disintegrin from Bothrops alternatus venom, has high affinity for an α2ß1 integrin. Herein, we used ALT-C as a α2ß1 integrin ligand to study the effect of ALT-C on MMP-9 and MMP-2 expression as well as on tumor cells, fibroblats and endothelial cell migration. Methods: ALT-C was purified by two steps of gel filtration followed by anion exchange chromatography. The α2ß1, integrin binding properties of ALT-C, its dissociation constant (Kd) relative to this integrin and to collagen I (Col I) were determined by surface plasmon resonance. The effects of ALT-C (10, 40, 100 and 1000 nM) in migration assays were studied using three human cell lines: human fibroblasts, breast tumor cell line MDA-MB-231, and microvascular endothelial cells HMEC-1, considering cells found in the tumor microenvironment. ALT-C effects on MMP-9 and MMP-2 expression and activity were analyzed by quantitative PCR and gelatin zymography, respectively. Focal adhesion kinase activation was determined by western blotting. Results: Our data demonstrate that ALT-C, after binding to α2ß1 integrin, acts by two distinct mechanisms against tumor progression, depending on the cell type: in tumor cells, ALT-C decreases MMP-9 and MMP-2 contents and activity, but increases focal adhesion kinase phosphorylation and transmigration; and in endothelial cells, ALT-C inhibits MMP-2, which is necessary for tumor angiogenesis. ALT-C also upregulates c-Myc mRNA level, which is related to tumor suppression. Conclusion: These results demonstrate that α2ß1 integrin controls MMP expression and reveal this integrin as a target for the development of antiangiogenic and antimetastatic therapies.(AU)

Expression of platelet collagen receptor-glycoprotein VI fragment in E. coli and its biological activities / 中国实验血液学杂志

This study was aimed to further investigate the function of platelet collagen receptor-glycoprotein VI and to screen its specific inhibitor. The extracellular domain of platelet glycoprotein VI (GPVI) in E. coli was expressed by recombinant technology, the extracellular domain cDNA of GPVI was amplified from pBluescript KS(-)-GPVI plasmid by PCR. Proved by sequencing, the expression vector pET-20b(+)-GPVI was constructed, which was then transformed into E. coli (BL21(DE3)pLysS) and induced by IPTG. The recombinant GPVI was purified on Ni-NTA resin column and renatured in PBS containing GSH and GSSG. The anti-penta His McAb and anti-GPVI polyclonal antibody were used to identify the recombinant GPVI in Western blotting. Collagen binding test was conducted to investigate the biological activity of recombinant GPVI. The results showed that the recombinant GPVI was expressed in E. coli and successfully purified, which was confirmed to be similar to the native GPVI in Western blotting. The recombinant GPVI can bind the type I collagen in dose-dependent manner. In conclusion, the recombinant GPVI can be achieved in E. coli and restore its native characteristics after renaturation.

Isolation of a type IV collagen binding protein from human platelets.

In order to study the molecular basis of platelet interaction with collagen IV of the basement membrane separating the arterial endothelium from the underlying subendothelial connective tissue, the possibility of presence of platelet membrane protein with affinity to type IV collagen was examined by subjecting the platelet membrane extract to affinity chromatography on collagen IV-sepharose. Urea (4 M) eluate was found to contain a protein with an apparent mol. wt of 68 kDa. The radioiodinated protein was isolated and used to test its specificity. By dot blot assay on nitrocellulose disks and solid-phase assays, the 68 kDa protein was found to bind with high affinity to collagen IV. Lack of significant binding to fibronectin and laminin when compared to albumin control indicated its high specificity for collagen. The radioiodinated protein was inserted into egg yolk lecithin liposomes. While these liposomes attached to microtitre plates coated with collagen IV, there was no significant binding to fibronectin or laminin coated wells, suggesting the membrane associated character of the protein as well as its specificity for collagen. These results indicate that presence of a 68 kDa protein in platelet membrane which interacts with very high specificity to collagen IV.