Vincenzo Castronovo

Identification of a 14-kDa laminin binding protein (HLBP14) in human melanoma cells that is identical to the 14-kDa galactoside binding lectin

The carbohydrate moieties present on laminin play a crucial role in the multiple biological activities of this basement membrane glycoprotein. We report the identification of a human laminin binding protein with an apparent molecular mass of 14 kDa on sodium dodecyl sulfate-polyacrylamide gels that was found, after purification and amino acid microsequencing, to be identical to the previously described 14-kDa galactoside binding soluble L-14 lectin. We have designated this human laminin binding protein as HLBP14. HLBP14 was purified from human melanoma cells in culture by laminin affinity chromatography and gel electroelution. We demonstrate that HLBP14 binds specifically to the poly-N-acetyllactosamine residues of murine laminin and does not bind to other glycoproteins that do not contain such structures, such as fibronectin. HLBP14 was eluted from a murine laminin column by lactose, N-acetyllactosamine, and galactose but not by other control saccharides, including glucose, fucose, mannose, and melibiose. It did not bind to laminin treated with endo-beta-galactosidase. Lactose also eluted HLBP14 off a human laminin affinity column, implying that human laminin also contains poly-N-acetyllactosamine residues. On immunoblots, polyclonal antibodies raised against HLBP14 recognized HLBP14 as well as 31- and 67-kDa molecules that are also laminin binding proteins, indicating that these proteins share common epitopes. L-14, a dimeric lactose binding lectin, is expressed in a wide variety of tissues. Although the expression of this molecule has been linked to a variety of biological events, the elucidation of its specific functions has been elusive. The observation that HLBP14, a human cancer cell laminin binding protein, is identical to L-14 strongly suggests that the functions attributed to this lectin could be mediated, at least in part, through its ability to interact with the poly-N-acetyllactosamine residues of laminin. HLBP14 could potentially play a role during tumor invasion and metastasis by modulating the interactions between cancer cells and laminin.

Malignant cell attachment to endothelium of ex vivo perfused human umbilical vein modulation by platelets plasma and fibronectin

The success of blood-born metastatic spread depends upon a key event: the tumor cell arrest and attachment to the host organ vasculature. In the present study, we have investigated interactions between several normal and cancer cell lines and vascular endothelium in a model of ex vivo perfusion of human umbilical vein. In this system, hydrodynamic parameters are monitored and endothelial cells are kept in their original environment known to modulate their phenotype. Metastatic tumor cell adhesion to the perfused endothelium was found to be significantly higher than that of normal cells tested. Platelets and soluble plasma factors including fibronectin promoted tumor cell arrest and adhesion to endothelium. Altogether our results indicate that the ex vivo perfusion of human umbilical vein allows the study of the interactions between malignant tumor cells, circulating plasma or blood cells and the endothelium during blood-born metastatic spread.

ABSENCE OF LAMININ DEPOSITION IN BREAST-CANCER AND METASTASES EXCEPT TO THE BRAIN.

Laminin, a major glycoprotein of basement membrane has been found to play significant roles during invasion and metastases. In this study, we have examined the distribution of laminin in several human brain carcinoma metastases, human breast cancers, skin and lymph node metastases of breast cancer as well as in an in vitro and an in vivo model of invasion. A laminin accumulation was demonstrated a) at the border between human metastatic carcinoma cells and surrounding neural tissue; b) at the invasive edge between MO4 cells (a highly malignant cell line which synthesizes large amounts of laminin) and host tissues of syngenic mice; c) at the front of invasion between MO4 cells and precultured heart fragments in an in vitro model of invasion. Laminin, but not type IV collagen, promoted attachment of MO4 cells. This attachment was inhibited by preincubation of laminin matrix support with (+)-catechin, a flavonoid which also prevented invasion of the precultured heart fragment in vitro. Our data demonstrate that laminin accumulates between malignant cells and host tissue in human brain metastases and in an in vitro and an in vivo model of invasion. In these later models, accumulation of laminin is the consequence, at least in part, of its biosynthesis by MO4 cells. Since laminin promotes attachment of malignant cells in vitro, increases invasiveness and metastatic activities of murine malignant cells, it is tempting to speculate that laminin synthesized by invasive cells and accumulated at the front of invasion plays a significant role in the first step of invasion.

Arrest of MCF-7 cell migration by laminin in vitro: possible mechanisms.

Laminin, a major basement membrane component, arrested the migration of MCF-7/AZ human breast adenocarcinoma cells that were not invasivein vitro. Migration of invasive MCF-7/6 cells was not affected by laminin. Both cell types expressed the 67 kD laminin receptor, at both mRNA and protein level, but did not express the α6 subunit of the VLA-6 integrin-type laminin receptor. The presence of YIGSR peptides (100 μg/ml), reported to block the interaction between laminin and its 67 kD receptor, did not change the migratory response of MCF-7/AZ or MCF-7/6 cells when meeting laminin lanes. In addition, the migration of these cell types was not affected by the presence of 17-β-estradiol (10−6 M) or all-trans retinoic acid (10−6 M), which were both reported to increase the number of 67 kD receptors. We could therefore not assign an involvement of the 67 kD receptors in migration of MCF-7 cells on laminin, nor did we find evidence that conditioned medium of MCF-7/6 cells contains factors that are able to initiate migration of MCF-7/AZ cells on laminin.