alpha-Neup5Ac-(2--3)-beta-D-Galp-(1--4)-[alpha-L-Fucp-(1--3)]-D-GlcpNAc and Melanoma

During their passage through the circulatory system, tumor cells undergo extensive interactions with various host cells including endothelial cells. The capacity of tumor cells to form metastasis is related to their ability to interact with and extravasate through endothelial cell layers, which involves multiple adhesive interactions between tumor cells and endothelium (EC). Thus it is essential to identify the adhesive receptors on the endothelial and melanoma surface that mediate those specific adhesive interactions. P-selectin and E-selectin have been reported as adhesion molecules that mediate the cell-cell interaction of endothelial cells and melanoma cells. However, not all melanoma cells express ligands for selectins. In this study, we elucidated the molecular constituents involved in the endothelial adhesion and extravasation of sialyl-Lewis(x/a)-negative melanoma cell lines under flow in the presence and absence of polymorphonuclear neutrophils (PMNs). Results show the interactions of alpha(4)beta(1) (VLA-4) on sialyl-Lewis(x/a)-negative melanoma cells and vascular adhesion molecule (VCAM-1) on inflamed EC supported melanoma adhesion to and subsequent extravasation through the EC in low shear flow. These findings provide clear evidence for a direct role of the VLA-4/VCAM-1 pathway in melanoma cell adhesion to and extravasation through the vascular endothelium in a shear flow. PMNs facilitated melanoma cell extravasation under both low and high shear conditions via the involvement of distinct molecular mechanisms. In the low shear regime, beta(2)-integrins were sufficient to enhance melanoma cell extravasation, whereas in the high shear regime, selectin ligands and beta(2)-integrins on PMNs were necessary for facilitating the melanoma extravasation process.

Topics: CA-19-9 Antigen; CD18 Antigens; Cell Adhesion; Cell Line, Tumor; Cell Movement; Endothelial Cells; Humans; Integrin alpha4beta1; Melanoma; Neoplasm Metastasis; Neutrophils; Oligosaccharides; Selectins; Sialyl Lewis X Antigen; Stress, Mechanical; Vascular Cell Adhesion Molecule-1

Unfractionated heparin reduces metastasis in many murine models. Multiple mechanisms are proposed, particularly anticoagulation and/or inhibition of P-selectin and L-selectin. However, the doses used are not clinically tolerable and other heparins are now commonly used. We studied metastasis inhibition by clinically relevant levels of various heparins and investigated the structural basis for selectin inhibition differences.. Five clinically approved heparins were evaluated for inhibition of P-selectin and L-selectin binding to carcinoma cells. Pharmacokinetic studies determined optimal dosing for clinically relevant anticoagulant levels in mice. Experimental metastasis assays using carcinoma and melanoma cells investigated effects of a single injection of various heparins. Heparins were compared for structural relationships to selectin inhibition.. One (Tinzaparin) of three low molecular weight heparins showed increased selectin inhibitory activity, and the synthetic pentasaccharide, Fondaparinux, showed none when normalized to anticoagulant activity. Experimental metastasis models showed attenuation with unfractionated heparin and Tinzaparin, but not Fondaparinux, at clinically relevant anticoagulation levels. Tinzaparin has a small population of high molecular weight fragments not present in other low molecular weight heparins, enriched for selectin inhibitory activity.. Heparin can attenuate metastasis at clinically relevant doses, likely by inhibiting selectins. Equivalent anticoagulation alone with Fondaparinux is ineffective. Clinically approved heparins have differing abilities to inhibit selectins, likely explained by size distribution. It should be possible to size fractionate heparins and inhibit selectins at concentrations that do not have a large effect on coagulation. Caution is also raised about the current preference for smaller heparins. Despite equivalent anticoagulation, hitherto unsuspected benefits of selectin inhibition in various clinical circumstances may be unwittingly discarded.

Topics: Animals; Anticoagulants; Cell Line, Tumor; Disaccharides; Factor Xa; Fibrinolytic Agents; Fondaparinux; Heparin; Heparin, Low-Molecular-Weight; Kinetics; L-Selectin; Melanoma; Mice; Mice, Inbred C57BL; Neoplasm Metastasis; Oligosaccharides; P-Selectin; Polysaccharides; Protein Binding; Selectins; Sialyl Lewis X Antigen; Temperature; Thrombosis; Time Factors; Tinzaparin

Four newly developed monoclonal antibodies (MAbs) are characterized using flowcytometry, enzyme-linked immunoadsorbent assay (ELISA), immunoprecipitation and Western blots, carbohydrate epitope mapping, glycosidase cleavage, and competition binding assays. Their effects on selectin binding to myeloid cells was tested. These MAbs react only with myeloid cells. MAbs CI-1, BU60, and HIM95 recognize epitopes expressed by CD11/CD18 (beta2) integrins, while HI247 and CSLEX1 do not. The epitopes require Lewis x [Galbeta1-4 (Fucalpha1-3)GlcNAc] based on reactivity with oligosaccharide-polyacrylamide-biotin or oligosaccharide-BSA conjugates. MAb HI247 recognizes a related structure, sialyl-Lewis x, NeuAcalpha2-3GaLbeta1-4(Fucalpha1-3)GlcNAc. The three MAbs against Lewis x show some minor differences in their reactivity such as recognizing their antigens on CD11/CD18 integrins after endo-beta-galactosidase treatment and recognizing free Lewis x. The hydroxyl group on C-3 of the terminal galactose is important for recognition by MAb CI-1, BU60, and HIM95 as its substitution with sulfo group of sialic acid abolishes the binding of these MAbs. The C-3 sialic acid is crucial for the binding of MAb HI247. Its replacement by sulphate or its cleavage by sialidase eliminates recognition by this MAb. MAbs HI247 and CSLEX-1 did not react in ELISA with immobilized CD11/CD18, suggesting that the majority of sialyl Lewis x on CD11/CD18 molecules may have sialic acid 6-linked rather than 3-linked to galactose. Unexpectedly, MAb BU60 inhibited binding of P-selectin mu chain chimera to HL-60 or U937 cells, while CI-1, HIM95 and three other defined anti-Lewis x MAbs (6C7, M6-1 and LeuM1) did not. MAb HI247 inhibited binding of both E- and P-selectin chimeras to these cell lines more effectively than several characterized MAbs (CSLEX-1, FH6, HECA-452) to sialyl Lewis x and related oligosaccharides. Certain combinations of these anticarbohydrate MAbs had additive inhibitory effects on selectin binding, suggesting a potential application of these new MAbs in cell adhesion/migration and tumor metastasis studies.

Topics: Animals; Antibodies, Monoclonal; Binding, Competitive; CD18 Antigens; Cell Line; E-Selectin; HL-60 Cells; Humans; In Vitro Techniques; Melanoma; Mice; Oligosaccharides; P-Selectin; Selectins; Sialyl Lewis X Antigen

Sialyl Lewis(x) (sLe(x)) and sialyl Lewis(a) (sLe(a)), the endothelial-selectin ligands involved in extravasation of neutrophils and carcinomas, have been identified in human melanoma. This study explored the following issue: If these ligands are immunogenic tumor-differentiation antigens, they would be potential targets for immunotherapy because of their putative roles in extravasation and metastasis.. Using a cell-suspension enzyme-linked immunosorbent assay (ELISA), the expression of sLe(x) and sLe(a) on the surface of normal melanocytes, melanoma cells from biopsies, and cell lines (M10-v, M24, and M101) constituting melanoma cell vaccine (MCV) were quantitated. Melanoma patients were immunized with the MCV expressing these antigens. Sera of normal individuals, sera of patients, and sera that adsorbed to sLe(x) and sLe(a) were titrated for anti-sLe antibodies by ELISA to verify the immunogenicity of the ligands.. The normal melanocytes did not express sLe(x) and poorly expressed sLe(a). Melanoma cells from tumor biopsies and MCV lines expressed both sLe(x) and sLe(a). Sialyl Le(x) was associated with glycoprotein(s) in M10-v, and sLe(a) occurred as a glycolipid moiety in M24. MCV recipients developed high titers for immunoglobulin (Ig)M but not IgG to both ligands. IgM titers to these ligands were low in normal subjects. In some of the preimmune sera of patients, the titers were threefold above normal. Six of 13 MCV recipients developed at least a twofold increase in anti-sLe titers above preimmune level after the second or third immunization. Adsorption studies suggested that both ligands were immunogenic.. The melanoma-associated sLe(x) and sLe(a) are immunogenic neoplasm-differentiation antigens and are therefore potential targets for passive and active specific immunotherapy in the treatment of melanoma.

Topics: Animals; Antibodies, Neoplasm; Antigens, Differentiation; Antigens, Neoplasm; Biopsy; CA-19-9 Antigen; Cancer Vaccines; Cell Transformation, Neoplastic; Endothelium, Vascular; Gangliosides; Humans; Ligands; Melanocytes; Melanoma; Mice; Oligosaccharides; Selectins; Sialyl Lewis X Antigen; Tumor Cells, Cultured

Twelve established human melanoma lines were screened for surface expression of the carbohydrate antigens Lewisa (Lea), sialyl Lewisa (SLea), dimeric sialyl Lewisa (diSLea), sialyl LewisX (SLex) and dimeric sialyl LewisX (diSLeX). None of the lines expressed SLex, but 11/12 were positive for diSLeX and 7/12 were positive for SLea. Although both diSLeX and SLea have been reported to bind to E-selectin, none of the melanoma lines exhibited E-selectin-dependent adhesion to activated human umbilical vein endothelial cells (HUVECs). Three melanoma lines infected with a retroviral vector carrying the cDNA for the human Lewis fucosyltransferase (FucT-III) subsequently expressed SLeX at their cell surface and exhibited E-selectin-dependent adhesion to activated HUVECs. Treatment of these transduced cells with inhibitors of O-linked or N-linked protein glycosylation significantly inhibited E-selectin-mediated adhesion, though fluorescence-activated cell sorter analysis indicated no decrease in cell surface expression of SLeX, Slea or diSLeX. This suggests that the majority of SLeX/SLea-type glycans endogenously produced by human melanoma cells are not protein-associated and do not mediate E-selectin-dependent adhesion. These results support the hypothesis that E-selectin-dependent adhesion requires presentation of SLeX-type moieties on appropriate glycoproteins.

Topics: Carbohydrate Sequence; Cell Adhesion; DNA, Complementary; E-Selectin; Endothelium, Vascular; Fucosyltransferases; Glycosylation; Humans; In Vitro Techniques; Lewis X Antigen; Ligands; Melanoma; Molecular Sequence Data; Oligosaccharides; Sialyl Lewis X Antigen; Transfection; Tumor Cells, Cultured