Syngeneic monoclonal antibodies to B16 melanoma viral antigens

Four stable IgM monoclonal antibody-producing hybridomas were generated by fusing mouse myeloma cells with spleen lymphocytes from C57BL/6 mice hyperimmunized against the syngeneic B16 melanoma. All four monoclonal antibodies (R31/15, R37/4, R37/6, and R37/7), in common with polyclonal antiserum from immunized mice, recognized antigens on the same complex of related cell surface molecules specified by endogenous AKR-type murine leukemia virus, designated the B16-gp/70/80/85 antigen complex. Reactivity with this antigen complex was demonstrated by radioimmunoprecipitation. Specificity for viral Mr 70,000 glycoprotein-related antigens was indicated by absorption of antibody activity by endogenous AKR virus and by inhibition of antibody binding to B16 melanoma cells by monospecific antiserum to murine leukemia virus Mr 70,000 glycoprotein. Neither polyclonal nor monoclonal antibodies recognized antigens on fish, guinea pig, swine, or human melanoma cell lines. Polyclonal antiserum reacted with several other mouse melanomas and with certain mouse lymphoma lines induced by, or harboring, endogenous murine leukemia viruses, but the monoclonal antibodies were unreactive except for recognition of antigens on Harding-Passey mouse melanoma cells by antibody R37/4 and on RL male 1 mouse lymphoma cells by antibody R37/7. Only monoclonal R37/7 was cytotoxic for cultured B16 melanoma cells in an antibody- and complement-dependent assay with guinea pig complement, although all antibodies were cytotoxic with rabbit complement. In reflecting the predominant humoral immune response to the B16 melanoma detected in syngeneic mice during tumor growth, these monoclonal antibodies will permit experimental amplification of that response to help determine how that immunity influences tumor growth and metastatic dissemination.     

Nerve growth factor effects on human and mouse melanoma cell invasion and heparanase production

The role of growth factor networks in regulating the progression of human melanocytes towards tumorigenicity and ultimately the malignant phenotype is poorly understood. In particular, the autocrine and paracrine influences that modulate cellular invasion and extracellular matrix degradative enzymes of melanoma cells remain undefined at the molecular level. We report here that nerve growth factor (NGF) can modify some metastasis-associated cellular properties of human and mouse melanoma cells. Treatment of early-passage human metastatic melanoma cells (MeWo) or their variants (3S5, 70W) with biologically active 2.5S NGF resulted in (a) delayed density-dependent inhibition of melanoma cell growth; (b) increased in vitro invasion through a reconstituted basement membrane; and (c) time- and dose-dependent induction of heparanase, a heparan-sulfate-specific endo-β-D-glucuronidase associated with human melanoma metastasis. These effects of NGF were most marked in the 70W brain-colonizing cells (70W > MeWo > 3S5). The NGF enhancement of heparanase secretion was not species-specific, since it was also observed in murine B16 melanoma cells; the highest NGF stimulation of heparanase was found in brain-colonizing murine B16-B15b variant (B16-B15b > B16-BL6, B16-F10, B16-F1). NGF also increased the invasive capacity of the human 70W and murine B16-B15b sublines in a chemoinvasion assay performed with filters coated with purified heparan sulfate proteoglycan (HSPG). The enhancement of chemotactic response and heparanase production was detected at NGF concentrations sufficient to fully saturate both low- and high-affinity NGF receptors (NGFR), the neurotrophin receptor (p75) and the trkA gene product, respectively. The results suggest that, in addition to the effects of NGF on cellular development and differentiation within the peripheral and central nervous systems, NGF can exert changes in the invasive properties of neuroectoderm-derived melanoma cells.     

Tumor metastasis-associated heparanase (heparan sulfate endoglycosidase) activity in human melanoma cells

We discovered previously a tumor metastasis-associated heparan sulfate (HS)-degrading endoglycosidase in mouse melanoma cells that is a unique endo-beta-glucuronidase (heparanase) capable of specifically cleaving HS at intrachain sites (Nakajima et al., J. Biol. Chem., 259 (1984) 2283. Using unmodified- and chemically modified-HS and heparin substrates we demonstrate that human Hs939 and mouse B16 melanoma cells possess a HS-degrading endoglycosidase of similar specificity. Melanoma heparanase showed high activity against N-desulfated N-acetylated HS, and we therefore synthesized a solid-phase heparanase substrate crosslinking partially N-desulfated N-[14C] acetylated HS to agarose gel beads via one covalent linkage. Using this solid-phase substrate 15 human malignant melanoma cell lines were assayed for heparanase activity. All of the melanoma cells tested had heparanase activity, and almost all possessed activities comparable or greater than that of the murine B16-F1 melanoma line. Human A375 melanoma variants of high lung metastatic potential in athymic nude mice had significantly higher heparanase activities than did A375 parental cells of low metastatic potential.     

Phenotypic diversity of murine B16 melanoma detected by anti-B16 monoclonal antibodies

A panel of monoclonal antibodies (MoAbs), produced against the murine B16 melanoma, has been used to characterize its phenotypic diversity. Six MoAbs that did not bind to primary cultures of kidney, brain or liver, spleen cells, thymocytes, 3T3 fibroblasts, melanin, or transferrin receptors were selected for further evaluation. Five MoAbs, which recognized surface antigens expressed on parental B16 cells and the B16-F1, B16-F10, B16-F10 FLR, and B16-BL6 sublines, did not appear to cross-react with each other, suggesting that they identified antigenically distinct epitopes. Four MoAbs, designated as IB16-2, IB16-4, IB16-8, and IB16-10, recognized B16 surface antigens that were variably expressed over short periods of time. This variable expression was independent of the cell cycle and was characteristic of four B16 sublines. Two of these MoAbs, both of the IgG2b isotype, fixed rabbit and guinea pig complement and were cytolytic in the presence of rabbit complement. One MoAb, designated IB16-6, recognized a surface antigen consistently expressed on greater than 90% of cells of both the parental tumor and the sublines. This MoAb bound to several murine and one human melanoma cell line, but not to other histopathological types of tumors or normal tissues. The cellular antigen that this antibody recognized was not detected in the cytoplasm, did not modulate in the presence of IB16-6, and was sensitive to trypsin, pronase, alcohols, acetone, and detergents, thereby suggesting that it was a protein. Our data are among the first that directly show the extent of phenotypic diversity of the B16 melanoma and sublines that have been derived from it.     

Immunoselection of GRP94/endoplasmin from a KNRK cell-specific λGTLL library using antibodies directed against a putative heparanase amino-terminal peptide

Induction of an invasive phenotype by metastatic tumour cells results in part from inappropriate expression of extracellular matrix-degrading enzymes normally involved in embryonic morphogenesis, tissue remodelling, angiogenesis and wound healing. Such enzymes include endoglycosidases that degrade heparan sulfate (HS) in endothelial basement membrane, as well as better characterized proteases. Heparanase, an endo-β-D-glucuronidase initially detected in B16 melanoma cells, has been described as a M_r 96 000 glycoprotein with pl of 5.2, and has been immunolocalized to the cell surface and cytoplasm. We have utilized a polyacrylamide-gel-based HS degradation assay to demonstrate that KNRK, a rat kidney fibroblast cell line transformed by v-K-ras, exhibits HS-degrading activity similar to that of B16F10 mouse melanoma cells. To immuno-select heparanase-expressing clones from a KNRK-cell-specific λgtII cDNA library, we have also prepared a rabbit anti-serum directed against a putative amino-terminal peptide of B16F10 cellular heparanase. Lysogens from one clone expressed a β-galactosidase fusion protein whose staining with peptide anti-serum was inhibited by competition with excess peptide. Dideoxy-mediated sequencing of the insert termini of this reco.mbinant revealed that it represents a rat homologue of M_r94,000 glucose-regulated protein (GRP94/endoplasmin), a molecular chaperone that contains the exact amino-terminal sequence previously attributed to heparanase. Our results call into question the specificity of this peptide sequence, as well as previous immunolocalization studies of heparanase carried out using such anti-sera.     

Inhibition of heparanase activity and tumor metastasis by laminarin sulfate and synthetic phosphorothioate oligodeoxynucleotides.

Heparanase activity correlates with the metastatic potential of tumor cells. Moreover, the anti-metastatic effect of non-anti-coagulant species of heparin and certain sulfated polysaccharides was attributed to their heparanase-inhibiting activity. We investigated the effect of a chemically sulfated polysaccharide (laminarin), consisting primarily of beta-1,3 glucan (sodium laminarin), and of synthetic phosphorothioate oligodeoxynucleotides, primarily phosphorothioate homopolymer of cytidine (SdC28), on heparanase activity and tumor metastasis. Investigation of the ability of tumor cells to degrade heparan sulfate in intact extracellular matrix revealed that heparanase activity expressed by B16-BL6 mouse melanoma cells and 13762 MAT rat mammary adenocarcinoma cells was effectively inhibited by LS (50% inhibition at 0.2-1 microgram/ml), but there was no inhibition by sodium laminarin up to a concentration of 50 microgram/ml. Complete inhibition of the melanoma heparanase was obtained in the presence of 0.1 microM SdC28. A single i.p. injection of laminarin sulfate, but not of sodium laminarin, before i.v. inoculation of the melanoma or breast-carcinoma cells inhibited the extent of lung colonization by the tumor cells by 80 to 90%. Similar inhibition was exerted by 0.1 microM SdC28. At the effective concentrations, both compounds had a small effect on proliferation of the tumor cells and on growth of the primary tumors in vivo. These results further emphasize the involvement of heparanase in tumor metastasis and the potential clinical application of diverse heparanase-inhibiting molecules such as sulfated polysaccharides and synthetic polyanionic molecules.     

The intracellular association of B700 and B50 murine melanoma antigens and their role in tumor rejection

B700 and B50 are melanoma-specific antigens originally isolated from B16 murine melanoma. B700, which elicits a strong tumor rejection response, is present on all murine melanomas tested to date. We now demonstrate the presence of B50 in the other murine melanomas and find that the 2 molecules are non-covalently complexed with each other within the cells. We also show that hosts immunized with intact, irradiated melanoma cells produce antibodies that specifically recognize the B700 and B50 tumor antigens. These results suggest that B50 may also participate in the host response to melanoma growth.     

Biochemical regulation of adenylate cyclase in murine melanoma clones with different metastatic properties

The regulation of adenylate cyclase in murine melanoma tumor cell clones with different metastatic capacities has been studied in intact cells and isolated membrane preparations. Analysis of the responses of intact cells from a number of B16 melanoma clones revealed that treatment with melanocyte-stimulating hormone (MSH) or the diterpene, forskolin, produced significantly greater accumulation of intracellular cyclic adenosine 3',5' monophosphate (cAMP) in strongly metastatic clones than in weakly metastatic tumor cell clones. In contrast, in isolated membranes from the same panel of clones, the extent of activation by forskolin but not by MSH correlated with metastatic capacity. Sodium fluoride and 5'-guanyl-beta-gamma-imidodiphosphate [Gpp(NH)p] also stimulated adenylate cyclase in isolated membranes but the extent of activation did not correlate with the metastatic behavior of the donor cells. A combination of forskolin and Gpp(NH)p proved to be a sensitive prospective indicator for identifying differences in the metastatic capabilities of individual B16 melanoma clones. Adenylate cyclase in membrane preparations from strongly metastatic B16 clones displayed synergistic activation but stimulation of the enzyme from weakly metastatic clones was less than additive. To test the generality of these findings, similar investigations were performed on B16-BL6 melanoma cells, a highly invasive subline of the B16 melanoma, and the K1735, an ultraviolet-light-induced murine melanoma arising in a different mouse strain (C3H). Consistent with their high metastatic potential, clones derived from the B16-BL6 melanoma displayed elevated levels of hormonally-stimulated adenylate cyclase, thereby confirming, for this tumor system, a close association between hormonal responsiveness and metastatic capacity. In contrast, K1735 melanoma cell clones exhibited significant interclonal variation in adenylate cyclase activity and metastatic performance, but no consistent relationship between the two traits was detected. Differences in the regulation and/or the intrinsic catalytic capacity of adenylate cyclase may account, at least in part, for the variation in hormonal responsiveness observed among B16 clones with distinct metastatic properties and suggest that cAMP-dependent molecular processes may be required for the expression of B16 melanoma experimental metastatic potential.(ABSTRACT TRUNCATED AT 400 WORDS)     

Melanoma cell adhesion to basement membrane mediated by integrin-related complexes

During invasion and metastasis, tumor cells use a variety of surface adhesion receptors to attach to and invade basement membranes and interstitial stroma. We examined the role of the cell surface integrin-like complex in the attachment of the invasive murine B16-BL6 melanoma cell line to basement membrane. Polyclonal antibodies prepared against integrin-related complexes isolated from hamster BHK cells (anti-ECMR) or mouse erythroleukemia cells (anti-mouse FnR) inhibited the attachment of B16 cells to complex basement membrane matrices and to substrates coated with purified extracellular matrix components (fibronectin, laminin, and type IV collagen). The expression of integrin-like receptors on the surface of B16 cells was confirmed by selective immunoprecipitation of radiolabeled and solubilized membrane proteins with the antibodies. Both antibodies also reacted with an integrin-related fibronectin-binding receptor complex purified by ligand affinity chromatography on fibronectin-Sepharose columns. The anti-integrin antibodies failed to react with the Mr 68,000 laminin-binding protein, suggesting that their inhibition of cell attachment to laminin and complex basement membrane was not due to contaminating antibodies against the Mr 68,000 laminin receptor. The results indicate that the integrin receptor complexes on B16-BL6 cells either interact directly with a diverse set of extracellular-matrix-associated components or somehow modulate the activity and function of other receptors. Thus integrins may have an important role in tumor cell invasion of tissue barriers.     

Structure, expression and chromosome mapping of MLZE, a novel gene which is preferentially expressed in metastatic melanoma cells.

We isolated a novel gene, termed MLZE, from a B16-BL6 cDNA library after subtraction of B16-F10 mRNA. Expression levels of mouse MLZE (mMLZE) increased in accordance with metastatic ability of B16 melanoma sublines. Human homolog of mMlze (hMlze) contained one leucine zipper structure and two potential nuclear localizing signals. Northern blot analysis of multiple human tissues showed that hMLZE was expressed primarily in trachea and spleen. We mapped the hMLZE gene (by fluorescence in situ hybridization) to 8q24.1 - 2, which contains the c-myc gene and is often amplified in malignant melanoma. Immunohistochemistry revealed that the number of hMlze-positive cases was significantly larger in Clark levels III, IV and V melanomas (6 / 11 = 55%) than in Clark levels I and II melanomas (2 / 15 = 13%). In two cases of hMlze-positive melanomas, the strength of hMlze staining increased substantially in the deep component of the tumor. Considering that melanomas above Clark level II are more metastatic than those below Clark level III, these findings suggested that MLZE is one of the genes whose expression is upregulated during the course of acquisition of metastatic potential in melanoma cells.     

Structure, Expression and Chromosome Mapping of MLZE, a Novel Gene Which Is Preferentially Expressed in Metastatic Melanoma Cells

We isolated a novel gene, termed MLZE , from a B16-BL6 cDNA library after subtraction of B16-F10 mRNA. Expression levels of mouse MLZE (mMLZE ) increased in accordance with metastatic ability of B16 melanoma sublines. Human homolog of mMlze (hMlze) contained one leucine zipper structure and two potential nuclear localizing signals. Northern blot analysis of multiple human tissues showed that h MLZE was expressed primarily in trachea and spleen. We mapped the h MLZE gene (by fluorescence in situ hybridization) to 8q24.1-2, which contains the c-myc gene and is often amplified in malignant melanoma. Immunohistochemistry revealed that the number of hMlze-positive cases was significantly larger in Clark levels III, IV and V melanomas (6/11=55%) than in Clark levels I and II melanomas (2/15=13%). In two cases of hMlze-positive melanomas, the strength of hMlze staining increased substantially in the deep component of the tumor. Considering that melanomas above Clark level II are more metastatic than those below Clark level III, these findings suggested that MLZE is one of the genes whose expression is upregulated during the course of acquisition of metastatic potential in melanoma cells.     

Use of nude mouse xenografts as preclinical screens. Characterization of xenograft-derived melanoma cell lines

Cell lines derived from human melanoma xenografts were characterized for surface markers, karyotype abnormalities, and in vitro drug sensitivity. Xenografts were established using metastatic explants from untreated patients and passaged in nude mice. Cell lines were readily established from melanoma xenografts, and formed colonies when plated in semisolid media. The lines expressed human melanoma-associated and other surface antigens, human lactate dehydrogenase (LDH) isoenzymes, and contained only human chromosomes. They failed to express murine histocompatibility determinants and were negative for murine viruses by mouse antibody production assay. Karyotypes showed abnormalities of chromosomes 3, 6, and 7 similar to other melanomas. In vitro chemosensitivity profiles were compared using cell line and xenograft colony-forming assays. Values were similar for the original xenografts and their cell lines. Xenograft-derived human melanoma lines resemble other melanoma cell lines and primary melanomas with respect to surface antigens and karyotype abnormalities, and are appropriate models for studying in vitro drug sensitivity. When used as a model for transition from solid tumor to cell line, these studies suggest cell lines closely mirror in vitro chemosensitivities of parent tumor cells. However, occasional, unpredictable changes in sensitivity to some drugs occurs during this transition.     

Malignant melanoma: cross-reacting (common) tumor rejection antigens

The expression of tumor-associated transplantation antigens (TATA) by 3 different murine melanomas was examined. A comparison was made between different modes of inducing tumor-rejection activity, including immunization with irradiated cells from tissue culture lines, with irradiated cells from solid tumor lines, and with viable cells growing in footpads (followed by amputation). Melanoma cell lines examined included the spontaneous B16 melanoma, the ultraviolet-light-induced K1735 melanoma, and the dimethylbenzanthracene-induced JB/RH melanoma. The data presented demonstrate that not only do all 3 melanoma lines studied express cell surface antigens sufficient to elicit immune response which result in tumor-rejection activity, but that these antigens show crossreactivity among the 3 melanoma lines studied. The specificity of the TATA appear to be restricted to the melanomas, since crossreactivity was not observed with 2 different fibrosarcoma cell lines, or with 2 sarcoma cell lines. In addition, it was found that both the JB/RH and K1735 melanoma cells release (or shed) cell surface antigens which can elicit tumor rejection activity, and that these antigens can be extracted with aqueous butanol, as has been demonstrated with B16 melanoma.     

Reduced Invasive and Metastatic Potentials of KAI1-transfected Melanoma Cells

KAI1 is a metastasis suppressor gene for human prostate cancer. To reveal the effect of KAI1 on the in vivo metastasis of tumors other than prostatic cancer, we transfected a human KAI1 cDNA into highly metastatic B16-BL6 murine melanoma cells and established stable transfectant clones with different expression levels of KAI1 message. The following results were obtained with the use of those transfectants. (1) Cell aggregation assay revealed a significantly enhanced Ca²⁺-independent aggregation of B16-BL6 cells by KAI1 cDNA transfection compared with mock transfectants ( P <0.01). (2) The in vivo phagokinetic activity and invasive ability of KAI1 transfectants were clearly decreased as compared with those of mock transfectants ( P <0.01). There was no significant effect of KAI1 expression on the in vitro or in vivo proliferation of B16-BL6 cells. (3) Lung colony formation of intravenously injected KAI1 transfectants in nude mice was significantly reduced as compared with mock transfectants or parental B16-BL6 cells ( P <0.01). These data suggest that KAI1 expression gives rise to the suppression of invasive and metastatic potentials of B16-BL6 cells.     

Modulation of B16 melanoma antigen expression by lymphokines and dimethyl sulfoxide

We have developed two monoclonal antibodies, designated 152 E12 D7 and 153 C7 A6, which have reactivity with cell surface antigens expressed on the B16 mouse melanoma. These monoclonal antibodies are produced by hybridomas resulting from the fusion of splenocytes taken from C57BL/6 mice bearing the B16-F10 tumor. The monoclonal antibodies are of the immunoglobulin M class and have been shown to react with three variants of the B16 and another mouse melanoma but no normal murine tissues. Exposure of B16 melanoma cells to a concanavalin A stimulated spleen cell mixed lymphokine preparation (LK) and to dimethyl sulfoxide (DMSO) enhanced the expression of the cell surface antigens recognized by these monoclonal antibodies. The cultures stimulated with LK or DMSO contained a greater proportion of cells expressing the antigens recognized by monoclonal antibodies 152 E12 D7 and 153 C7 A6 than did unstimulated controls. In addition to increasing the proportion of antigen-positive cells, the antigen expression per cell, as measured by fluorescence intensity, was substantially increased following exposure to LK and DMSO. The effects of treatment with LK or DMSO were apparent after 24 h exposure but did not persist after the agent was removed from the cultures, suggesting that the enhancement of antigen expression was a transient event rather than a permanent differentiation of the melanoma cells.     

Heparanase induces vascular endothelial growth factor expression: correlation with p38 phosphorylation levels and Src activation

Heparanase is an endo-beta-D-glucuronidase involved in cleavage of heparan sulfate moieties and hence participates in extracellular matrix (ECM) degradation and remodeling. Traditionally, heparanase activity was correlated with the metastatic potential of a variety of tumor-derived cell types. Cloning of the heparanase gene indicated that heparanase expression is up-regulated in a variety of primary human tumors. In some cases, heparanase up-regulation correlated with increased tumor vascularity, an angiogenic feature that could be recapitulated in a number of in vitro and in vivo models. The mechanism by which heparanase enhances angiogenic responses is not entirely clear but is thought to be mediated primarily by release of ECM-resident angiogenic growth factors such as basic fibroblast growth factor and vascular endothelial growth factor (VEGF). Here, we examined the possibility that heparanase directly participates in VEGF gene regulation. We provide evidence that heparanase overexpression in human embryonic kidney 293, MDA-MB-435 human breast carcinoma, and rat C6 glioma cells resulted in a 3- to 6-fold increase in VEGF protein and mRNA levels, which correlated with elevation of p38 phosphorylation. Moreover, heparanase down-regulation in B16 mouse melanoma cells by a specific siRNA vector was accompanied by a decrease in VEGF and p38 phosphorylation levels, suggesting that VEGF gene expression is regulated by endogenous heparanase. Interestingly, a specific p38 inhibitor did not attenuate VEGF up-regulation by heparanase whereas Src inhibitors completely abrogated this effect. These results indicate, for the first time, that heparanase is actively involved in the regulation of VEGF gene expression, mediated by activation of Src family members.     

A variant actin (βm) reduces metastasis of mouse B16 melanoma

We recently reported an acidic actin co-expressed with β and γ actin in mouse B16 melanoma, whose expression was inversely correlated with the metastatic potential. The cDNA for this actin is slightly different from the hitherto recognized mouse β actin cDNA, and we designated it βm actin. In order to directly investigate the effects of βm actin on metastasis, we transfected the βm actin cDNA into a re-cloned B16-BL6 cell line which is more invasive than the highly metastatic cell line, B16-F10; we have already reported the suppressive effect of pm actin on the invasiveness of B16 F10. Here we report on the decline in the metastatic ability of βm-transfected cells. In the pm-transfected B16-BL6 cell line, we observed an increase in the organization of actin stress fibers, accompanied by a decrease in metastasis to the lung, in the invasion of collagen gels, in In vivo invasive-ness, and in cell migration on a glass plate covered with colloidal gold particles. We observed no correlation of pm actin expression either with cell attachment to Matrigel, or with type-IV collagenase expression. These results suggest that βm actin can play a role in reducing the invasiveness of mouse B16 melanoma, most probably through decreasing cell motility, which may thus result in suppression of the metastatic ability of cells.     

Opposite effects of TPA on G1/S transition and on cell size in the low metastatic B16F1 with respect to high metastatic BL6 murine melanoma cells.

Phorbol esters, known activators of c- and n-protein kinase C (PKC) isoforms, play a pivotal role in tumor promotion. In order to better understand the relationships between PKC activation, the metastatic potential and the proliferative capacity, we have analyzed the effect of 12-O-tetradecanoylphorbol-13-acetate (TPA) treatment on the proliferative as well as on the cell cycle distribution and on the cell size of low and high metastatic murine B16F1 and B16-BL6 (BL6) melanoma cells, respectively. TPA-treated B16F1 cells showed an increased proliferative capacity up to 72 h, the cytofluorimetric analysis revealing an increased number of cells in the S + G2-M phase of the cell cycle. In contrast, TPA-treated BL6 cells reached a plateau at 48 h and showed an increased cell volume in the G1 and S phases of the cell cycle, with a reduction in the percentage of cells in the S + G2-M phase. Taken together, our results indicate opposite effects of TPA treatment in murine melanoma cells of different metastatic potential. TPA could cause a block in the G1 phase of the cell cycle with enhanced cell volume in high metastatic BL6 cells. The same treatment, on the contrary, induced an increased entry into the cell cycle of low metastatic B16F1 cells, suggesting a relationship between cell proliferation and the metastatic potential of B16 murine melanoma cells. Moreover, under the present conditions, classical PKC isoforms were inactivated, suggesting the involvement of the TPA-dependent novel PKCs.     

Natural killer T cell ligand alpha-galactosylceramide inhibited lymph node metastasis of highly metastatic melanoma cells.

The role of natural killer T (NKT) cells in the prevention of multiple tumor metastasis was examined. The i.v. inoculation of a highly metastatic subline of B16-BL6 (B16-BL6-HM) melanoma cells resulted in the formation of metastatic nodules in lymph nodes in addition to lung, intrapleural cavity, and ovary. However, treatment of the mice with the NKT cell ligand alpha-galactosylceramide (alpha-GalCer) three times from 1 day after B16-BL6-HM melanoma inoculation caused a significant inhibition of multiple metastasis. Lymph node metastasis of B16-BL6-HM was almost completely blocked by alpha-GalCer treatment. This antimetastatic effect of alpha-GalCer was abolished in NKT cell-deficient mice. These results suggest that alpha-GalCer-activated NKT cells played a critical role in the prevention of lymph node metastasis of melanoma cells.     

Sulfated Hexasaccharides Attenuate Metastasis by Inhibition of P-selectin and Heparanase

Development of compounds that target both heparanase and selectins is emerging as a promising approach for cancer therapy. Selectins are vascular cell adhesion molecules that mediate tumor cell interactions with platelets, leukocytes, and the vascular endothelium. Heparanase is an endoglycosidase that degrades heparan sulfate in the tumor microenvironment, cell surfaces, and vessel wall. Acting together, these molecules facilitate tumor cell arrest, extravasation, and metastasis. Here, we report the preparation of novel semisynthetic sulfated tri mannose C-C-linked dimers (STMCs) endowed with heparanase and selectin inhibitory activity. The P-selectin specificity of the STMC was defined by the anomeric linkage of the C-C bond. This STMC hexasaccharide is an effective inhibitor of P-selectin in vivo. We show that selective inhibition of heparanase attenuates metastasis in B16-BL6 melanoma cells, expressing high levels of this endoglycosidase, but has no effect on the metastasis of MC-38 carcinoma cells that express little or no heparanase activity. P-selectin-specific STMC attenuated metastasis in both animal models, indicating that inhibition of tumor cell interaction with the vascular endothelium is critical for cancer dissemination. Thus, the small size, the stability of the C-C bond, and the chemically defined structure of the newly generated STMCs make them superior to heparin derivatives and signify STMCs as valuable candidates for further evaluation.