Monoclonal antibodies that prevent adhesion of B 16 melanoma cells and reduce metastases in mice: crossreaction with human tumor cells

ATG9A protects the plasma membrane from programmed and incidental permeabilization

The integral membrane protein ATG9A plays a key role in autophagy. It displays a broad intracellular distribution and is present in numerous compartments, including the plasma membrane (PM). The reasons for the distribution of ATG9A to the PM and its role at the PM are not understood. Here, we show that ATG9A organizes, in concert with IQGAP1, components of the ESCRT system and uncover cooperation between ATG9A, IQGAP1 and ESCRTs in protection from PM damage. ESCRTs and ATG9A phenocopied each other in protection against PM injury. ATG9A knockouts sensitized the PM to permeabilization by a broad spectrum of microbial and endogenous agents, including gasdermin, MLKL and the MLKL-like action of coronavirus ORF3a. Thus, ATG9A engages IQGAP1 and the ESCRT system to maintain PM integrity.

Epigallocatechin-3-gallate inhibits the invasion of human oral cancer cells and decreases the productions of matrix metalloproteinases and urokinase-plasminogen activator

BACKGROUND

Green tea polyphenols are considered beneficial to human health, especially as cancer chemopreventive agents in recent years. Epigallocatechin- 3-gallate (EGCG), the most abundant polyphenol in green tea, has been proven to suppress colonic tumorigenesis in animal and epidemiological studies, whereas its role in the oral carcinogenesis remains to be elucidated.

METHODS

Cytotoxicity, invasion, and migration assays were used to investigate the effects of human oral cancer cell line OC2 cells exposed to EGCG. To look at the precise involvement of EGCG in cancer metastasis, gelatin zymography and casein zymography were performed to evaluate the impacts of EGCG on matrix metalloproteinase (MMP)-2, MMP-9, and urokinase plasminogen activator (uPA) secretion in OC2 cells.

RESULTS

EGCG exhibited a dose-dependent inhibitory effect on the invasion and migration of OC2 cells in the absence of cytotoxicity (P < 0.05). EGCG was also found to decrease the expressions of MMP-2, MMP-9, and uPA in a concentration-dependent manner (P < 0.05).

CONCLUSION

Taken together, these results suggest that EGCG could inhibit the invasion and migration of human oral cancer cells and that the effects may partially because of the decreased productions of MMP-2, MMP-9, and uPA.

Silibinin inhibits the invasion of human lung cancer cells via decreased productions of urokinase-plasminogen activator and matrix metalloproteinase-2

Cancer metastasis, involving multiple processes and various cytophysiological changes, is a primary cause of cancer death and may complicate the clinical management, even lead to death. Silibinin is a flavonoid antioxidant and wildly used for its antihepatotoxic properties and recent studies have revealed pleiotropic anticancer and antiproliferative capabilities of silibinin. In this study, we first observed that silibinin exerted a dose- and time-dependent inhibitory effect on the invasion and motility, but hardly on the adhesion, of highly metastatic A549 cells in the absence of cytotoxicity. To look at the precise involvement of silibinin in cancer metastasis, A549 cells were treated with silibinin at various concentrations, up to 100 microM, for a defined period and then subjected to gelatin zymography, casein zymography and Western blot to investigate the impacts of silibinin on metalloproteinase-2 (MMP-2), urokinase plasminogen activator (u-PA), and tissue inhibitor of metalloproteinase-2 (TIMP-2), respectively. The results showed that a silibinin treatment may decrease the expressions of MMP-2 and u-PA in a concentration- and time-dependent manner and enhance the expression of TIMP-2. Further analysis with semi-quantitative RT-PCR showed that silibinin may regulate the expressions of MMP-2 and u-PA on the transcriptional level while on the translational or post-translational level for TIMP-2.

Apoptosis of stomach carcinoma cells induced by a human monoclonal antibody

BACKGROUND

Although stomach carcinoma is estimated to be one of the most frequent cancers worldwide, still little is known about the immunity of patients with stomach cancer. Humoral tumor immunity has been studied by isolating B cells of patients with cancer to characterize the activity of such antibodies on tumor cells. Apoptosis, programmed cell death, explains the suicide of cells by fragmentation of DNA, cell shrinkage and dilation of endoplasmatic reticulum, followed by cell fragmentation and formation of membrane vesicles called apoptotic bodies. Apoptosis serves to remove unwanted, damaged, or dangerous, e.g., precancerous cells.

METHODS

The human monoclonal antibody SC-1 was isolated from a patient with a signet ring cell carcinoma of the stomach by fusion of spleen lymphocytes to the heteromyeloma SPM4-0. The antibody was tested for growth-inhibiting effects in vitro in soft agar assays, in 3-H thymidine uptake experiments, and in a mitochondrial enzymatic activity assay. In vivo intraperitoneal tumor growth was investigated in nu-nu mice.

RESULTS

The immunoglobulin M (lambda) antibody identifies a molecule with a molecular weight of approximately 49 kilodaltons in stomach carcinoma cells. No reactivity was observed with carcinomas of other origins, melanomas, lymphomas, or normal tissue. When tested in vitro, the antibody inhibited tumor cell growth in cell culture and soft agar. In vivo growth of stomach carcinoma cells in nu-nu mice was reduced when the antibody was injected after the tumor cells. Ultrastructural and functional studies revealed that the SC-1 antibody induced apoptosis of tumor cells.

CONCLUSION

The human monoclonal antibody SC-1 described here inhibited growth of stomach carcinoma cells in vitro and in vivo by inducing apoptosis, and may, therefore, be valuable for treating patients with stomach carcinoma.

Human monoclonal antibodies from stomach carcinoma patients react with Helicobacter pylori and stimulate stomach cancer cells in vitro

BACKGROUND

In recent studies, an increased incidence of gastric adenocarcinomas was observed in patients with Helicobacter pylori infection. However, the extent to which this coincidence is caused by immunologic mechanisms is unknown.

METHODS

Two human monoclonal antibodies (MoAbs) from patients with stomach carcinoma and H. pylori-associated gastritis were isolated and established by fusion of spleen cells with the heteromyeloma HAB-1. The reactivity of these human MoAbs was investigated in functional adhesion assays and on Western blots of tissue, tumor cell, and bacterial extracts. Their stimulation and proliferation were tested by the MTT test and 3-H-thymidine incorporation tests.

RESULTS

The two monoclonal immunoglobulin-M antibodies, 103/51 and 105/79, inhibited adhesion of tumor cells. On bacterial extracts antibody 103/51 identified protein bands of 55 kilodaltons (kd) and 80 kd, and in tumor cell extracts, a specific protein of approximately about 110 kd and 140 kd. Antibody 105/79 identified a 55 kd protein in bacterial extracts and a 110 kd protein in tumor extracts. In addition, in the 3-H-thymidine incorporation and MTT assay the antibodies showed a stimulatory and growth-enhancing effect on tumor cells in vitro. A similar activity was observed in sera from patients with gastric carcinoma, indicating a physiologic role of such antibodies in vivo.

CONCLUSION

The human monoclonal antibodies described here react with H. pylori and cross-react with and stimulate gastric carcinoma cells. It is possible that the production of these antibodies is primarily stimulated by bacterial antigens which cause chronic gastritis and that they might be indirectly responsible for the recently described higher incidence of gastric cancer because of the simultaneous reaction and stimulation of tumor cells they cause.

Identification of melanoma cell surface antigens immunogenic in mice

Active immunization to B16 melanoma cells or vaccines induces anti-melanoma immune responses in syngeneic mice. The immunogenic antigens stimulating immunity to this tumor have not been identified. In this study we detected several B16 melanoma antigens immunogenic in syngeneic mice using as probes antimelanoma antibodies induced by immunization to B16 melanoma vaccines. These antigens were identified by SDS-PAGE and autoradiographic analysis of specific immunoprecipitates. They were cell-surface components with approximate molecular weights of 41, 46, 50, 75, 80, and 104 KD. All these antigens were expressed by syngeneic and xenogeneic melanomas and by some unrelated syngeneic tumors but not by normal syngeneic cells, xenogeneic melanocytes, or by B16 melanoma cells obtained from fresh tumors or grown in defined medium. The antigens were distinct from murine viral antigens expressed by B16 melanoma cells and from components of the culture medium used to grow cells for vaccine production. These results indicate that several B16 melanoma cell-surface antigens are immunogenic in syngeneic mice. Expression of these antigens appears to be related to malignant transformation as they were found on all melanomas studied, and some other cancers, but not on normal cells.

Characterization of four new gastric cancer cell lines

Four well differentiated gastric adenocarcinoma cell lines from German patients have been established from primary tumors (St 23132, St 3051) and lymph node metastases (St 2474, St 2957). The tumor cells were isolated by enzymatic or mechanical treatment. All four lines grew as solid tumors in nude mice and formed colonies in soft agar. The doubling time of the cells in culture was 25-32 h. Further characteristics of the lines were a considerable chromosomal aneuploidy, (the chromosomal numbers varying from 30-109 with many numerical and structural abnormalities), a stable keratin expression (Ck 8, 18, 19), the expression and secretion of CEA and CA-19-9 and the overexpression of c-myc. The four stomach cancer cell lines described here are not only a useful addition to the small number of existing lines, but also represent ideal tools for studying tumorigenicity of human stomach cancers in vitro and in vivo.

Electro-immortalization of B lymphocytes isolated from stomach carcinoma biopsy material

The advantages of electrofusion were used to immortalize the small number of B-cells from fresh biopsy material taken from a gastric carcinoma of a patient. Two stable human antibody secreting clones could be produced which exhibited functional activity against the autologous tumour cells (inhibition of cell adhesion and immunofluorescence staining of the membranes). This shows that a variety of hitherto inaccessible B lymphocyte populations from other human organ biopsies can be immortalised by the improved electrofusion technique.

Antibody against p58 surface antigen of RA-2 rat rhabdomyosarcoma cells inhibits their metastatic activity

Antibodies generated against the whole membrane preparation isolated from rhabdomyosarcoma RA-2 cells were shown by immunoblotting and immunoaffinity chromatography to recognize 58-kDa polypeptide, p58. The latter was confirmed to be a surface molecule in a test of radioiodination of RA-2 membrane by lodogen. The antibodies added to a suspension of RA-2 cells before their inoculation into rats decreased metastatic activity 50-fold without any noticeable influence on RA-2 proliferation level and viability. The data indicate that masking of p58 surface antigen by antibodies could make RA-2 cells unable to form experimental metastases in lung. We suggest that p58 may participate in the specific recognition by RA-2 of lung endothelial cells.

A human monoclonal antibody derived from axillary lymph nodes of a breast cancer patient reactive to a sulfated glycolipid

A human monoclonal antibody, BMMK-33G, was established by a fusion of human B-lymphoblastoid cells, HO-323, with lymphocytes of axillary lymph nodes obtained from a breast cancer patient. High-performance thin-layer chromatography (HPTLC)-immunostaining and enzyme-linked immunosorbent assay (ELISA) revealed that BMMK-33G was interestingly directed to enough sulfatide (Galactosylceramid-I2-sulfate), which is one of the sulfate ester containing glycolipids. By immunohistochemical staining, BMMK-33G intensely reacted to breast cancer, pancreatic cancer and gastric cancer. It also reacted to many normal human tissues including mammary glands, but these stainings were weaker than those for cancer. This report describes BMMK-33G, a human monoclonal antibody against sulfatide which may be very useful for studying not only tumor immunology but also autoimmune diseases.

Suppression of established pulmonary metastases by murine melanoma-specific monoclonal antibodies

The intravenous administration of melanoma-specific monoclonal antibodies (MAbs) 9B6 and T97, both of the IgG2b isotype, consistently suppressed the growth of established JB/MS murine melanoma lung metastases. This activity was not dose-dependent, lower doses of MAbs often being more suppressive than higher doses. Intravenous administration of antibodies at days 5 and 8 following challenge appeared to be optimal for suppression whereas no inhibition was seen with intravenous treatment at days 0 and 3 or at days 10 and 13. Consistent and significant inhibition was also observed using established B16F10 lung metastases but only at lower doses, whereas both MAbs were ineffective against the T92497 sarcoma in syngeneic mice. These MAbs appear to act not as direct anti-tumor agents but as host immune response regulators, since specific anti-tumor effects were abrogated in tumor-bearing hosts following pre-treatment with antibodies directed against asialo-GM1 and NK-1.1, surface markers of natural killer cells.

Sulfated glycoconjugate determinants recognized by monoclonal antibody, SG-1, correlate with the experimental metastatic ability of KHT fibrosarcoma cells

We have examined the binding and functional activity of monoclonal antibody (MAb) SG-1 that was raised by immunization against embryonal carcinoma cells and screened using KHT fibrosarcoma cells. Quantitative absorption, binding and in situ immunochemical staining assays indicate that the MAb SG-1-defined epitopes are expressed preferentially by the highly metastatic KHT35-L1 cells relative to the weakly metastatic, parental KHTp cells. Furthermore, there was a significant correlation (p less than 0.05) between the expression of MAb SG-1-defined antigen on the cells, following trypsin treatment, and their metastatic ability. Binding of MAb SG-1 to antigen was inhibited by specific sulfated polysaccharides including cerebroside sulfate (brain sulfatide), fucoidan, and dextran sulfate (500 kD) but not by heparan, chondroitin, keratan or dextran (5 kD) sulfates. Initial characterization of antigen from KHT cells indicates that the epitope of MAb SG-1 is defined by sulfated glycoconjugates containing galactose and sulfate but not N-acetylglucosamine. In the total lipid extracts of KHT35-L1 cells the antigen was detected in the delipidated protein fraction as well as in the chloroform/methanol fraction. These results suggest that the sulfated glycoconjugate determinants identified by MAb SG-1 may be relevant to the metastatic process of KHT fibrosarcoma cells.

Demonstration of B700 cross-reactive antigens on human and other animal melanomas

B700 is a melanoma-associated antigen originally detected by immunologic and biochemical criteria; it is expressed by several murine melanomas but is not detectable on any normal murine cells, or on murine nonmelanoma neoplasms. We have used antibodies raised against purified B700 to study the presentation of B700 and B700 crossreactive molecules on the surfaces of melanoma cells of various species and origins. The antibodies are shown to bind to all the melanoma cells tested, including five different murine melanoma lines (S91, JB/RH, JB/MS, K1735, and B16), three different B16 sublines (F1, F10, and BL6), three human, one hamster, and two swine melanoma cell lines. These results suggest the candidacy of B700-like molecules as "pan-melanoma" antigens.

Homing receptors and metastasis

As discussed in the preceding sections, there are several indications that the lymphocyte homing receptors involved in the normal process of lymphocyte recirculation are also relevant to the behavior of metastatic cells. Cell fusion experiments indicate that previously nonmetastatic cells can acquire metastatic capacity from fusion with normal lymphocytes. Murine T lymphomas that bear high levels of functional homing receptors can metastasize to peripheral lymphoid organs, whereas those lymphomas lacking homing receptors cannot. Virtually all lymph node metastases of lymphomas contain a high proportion of MEL-14hi cells, even if the primary tumor has been selected to be relatively deficient in these cells. Further investigations of the biology of lymphocyte homing receptors will reveal whether or not there are additional lymphocyte homing receptors and will clarify the role of lymphocyte homing receptors in metastasis. Antibodies against three lymphocyte homing receptors could therefore be useful for diagnosis and treatment of metastatic disease.

Morphological and metastatic murine melanoma variants: motility, adhesiveness, cell surface and in vivo properties

The behaviour in vivo of tight and loose variants of murine melanoma cells is further characterized. In vitro clonal morphology is reproduced on a variety of substrates. Results suggest that repeated selection of loose cells can co-select for cells with high metastatic and colonization potentials. Measurement of cell motility shows that 1G3 (loose) cells are more motile than 1G8 (tight) which are restricted to movements within clonal boundaries. Studies of adhesive properties show that loose cells are more easily detached from the substrate with trypsin or EDTA and that both cell lines attach more quickly to monolayers of loose cells than to tight ones. No gross differences are found either in attachment rates to plastic and ECM or in aggregation and disaggregation rates. Analysis of the cell surface has not revealed any differences between 1G8 and 1G3 in the sialylation of terminal galactose and N-acetylgalactosamine residues or in neuraminidase releasable sialic acid. The binding patterns of iodinated lectins to SDS-PAGE separated proteins are similar for both lines except for one 85/90 KD protein which is more abundant in 1G3 than 1G8 cells after neuraminidase treatment. The results show enhanced differences in metastatic potential of tight and loose clones after selective cloning and that there may be important differences in motility and cell-substrate interactions.

Effects of altering surface glycoprotein composition on metastatic colonisation potential of murine mammary tumour cells

This study has examined cells from naturally-occurring murine mammary tumours to ascertain whether cell surface glycoproteins play a significant role in colonisation of the lungs after intravenous inoculation. It was found that gel electrophoretic analysis of membrane extracts and lectin adsorption studies did not reveal any consistent differences in glycoprotein composition of cells from tumours which can heavily colonise the lungs relative to ones from tumours which cannot do so or to cells from pulmonary metastases. Also, alteration of structural and functional properties of surface glycoproteins by treatment with succinylated lectins or with drugs such as tunicamycin and swainsonine, which inhibit glycosylation of membrane proteins, had no specific effects on metastatic colonisation of the lungs. Tunicamycin apparently decreased capability to form experimental metastases but also diminished tumourigenicity on subcutaneous inoculation, although it did not affect tumour cell viability in vitro. This information supports earlier studies from this laboratory involving enzymic digestion of the surface of living tumour cells before inoculation and demonstrates that the pulmonary colonisation capability of these mammary tumour cells can withstand global disorganisation of membrane glycoprotein structure and composition. This implies that either the surface glycoproteins are not important in the colonisation process, or that these tumour cells have great capability for rapid repair of their surfaces. It is concluded that a clear answer to whether surface glycoprotein composition has a decisive role in pulmonary colonisation by these mammary tumour cells requires introduction of stable heritable traits into tumour cell populations by genetic manipulation.

A monoclonal antibody that blocks adhesion of Chlamydomonas mt+ gametes

During the mating reaction (fertilization) in the biflagellated alga, Chlamydomonas reinhardtii, mt+ and mt- gametes adhere to each other via their flagella and subsequently fuse to form quadriflagellated zygotes. In the studies reported here, we describe a monoclonal antibody directed against an mt+ flagellar surface molecule. The antibody blocks the adhesiveness of mt+ gametes, isolated mt+ flagella, and detergent extracts thereof. It has no effect on mt- gametes. Cyanogen bromide-activated Sepharose beads derivatized with the antibody bind only mt+ gametes; mt- gametes and mt+ and mt- vegetative cells are unreactive with the derivatized beads. The interaction of mt+ gametes with the beads is dynamic and cells continuously bind, detach, and rebind to the beads. Surprisingly, antibody-derivatized beads that have been incubated with mt+ gametes acquire the ability to bind mt- gametes. Moreover, extraction of the preincubated beads with detergents releases active mt+ adhesion molecules. The evidence suggests that binding of the antibody to the flagellar surface adhesion molecules causes their release from the flagellar surface, possibly mimicking the normal mechanism of flagellar de-adhesion.

Characterization of melanoma-associated surface antigens involved in the adhesion and motility of human melanoma cells

The functional properties of the melanoma-associated antigens detected by monoclonal antibodies (MAbs) AMF-6 and AMF-7 were investigated. These MAbs were selected previously because of their capacity to block the anti-melanoma reactivity of cytotoxic T-lymphocyte clones AMF-6 and AMF-7 detect a melanoma-associated proteoglycan (MW greater than 450-250 kDa) and a molecular complex, which under reducing conditions consists of 4 compounds of 120, 95, 29 and 25 kDa respectively. AMF-6 reacted strongly with all 30 cultured melanomas and all 41 melanomas in frozen tissue sections. Significant cross-reactivity was only observed with nevi and perineurium, whereas normal skin melanocytes were negative. AMF-7 reacted with all 25 cultured melanomas and all 34 melanomas in frozen sections. AMF-7 cross-reacted with a proportion of nevi and endothelial cells from small vessels. The antigen detected by AMF-6 and AMF-7 could not be modulated by retinoic acid or recombinant gamma-IFN, which induced or enhanced the expression of HLA-DR, HLA-DQ and Class-I MHC antigens. In addition, the antigens were not readily modulated when cells were incubated in excess amounts of AMF-6 and AMF-7. Interestingly, the antigen detected by AMF-7 was strongly associated with the adhesion and cytoplasmic spreading of melanoma cells to plastic surfaces and monolayers of vascular endothelial cells. AMF-6 did not block the adhesion of melanoma cells but delayed cytoplasmic spreading. Both AMF-6 and AMF-7 blocked fibronectin-induced chemotaxic motility and chemokinesis of melanoma cells. In addition to their membrane localization, the antigens detected by AMF-6 and AMF-7 were also abundant in extracellular adhesion plaques deposited by cultured melanoma cells. Our results indicate that the high-MW melanoma-associated proteoglycan and the antigen detected by AMF-7 are associated with adhesion and/or cytoplasmic spreading and motility of human melanoma cells, suggesting that these antigens are associated with the (hematogenic) dissemination of human melanoma. This is supported by the finding that AMF-7 stained primary tumors heterogeneously, whereas metastases were homogeneously stained.

Morphological studies on cellular detachment induced by antibody reactions directed against membrane associated antigens. An ultrastructural study

The skin explant model was used to determine the effect of antibody reactions against membrane associated antigens on normal human keratinocytes. Addition of specific allo-antibodies against HLA class I antigens induced characteristic changes in the cells on the outermost region of the explant-outgrowth. A disorganization of the filopodia of these cells occurred and the edges of the cellular border were lifted from the substratum. These signs of detachment were also found when pemphigus serum was added. In both experimental conditions the detachment of the cells was complement independent. After removing the antiserum a recovery took place, but the cells once lifted from the substratum remained recognizable as a ridge of cells. No changes were observed when the explants were incubated with antibodies against HLA class II antigens. Incubation with specific antibodies against HLA class I antigens not present on the explant had also no effect. We propose that antibody reactions against various membrane associated antigens can induce within a few hours characteristic changes of the cellular margins.

Cancer metastasis: experimental approaches, theoretical concepts, and impacts for treatment strategies

It has been the purpose of this article to describe recent advances in cancer metastasis research. Clinical realities and experimental approaches to the study of underlying basic mechanisms of metastasis formation were discussed. Wherever possible, results were reported which led to the development of theoretical concepts. Such results and concepts were finally evaluated in light of their possible impact for the design of new treatment strategies. Experimental findings from many diverse research fields were summarized with the help of tables, figures, and references. It was concluded that the process of metastasis is a dynamic event that can be described as a sequence of interrelated steps. Experimental results indicated that malignant cells that migrate and disseminate from the primary organ to distant sites and there eventually develop into metastases have to survive a series of potentially lethal interactions. Intimate tumor-host interactions were reported to take place all along the metastatic process. They were elucidated at the steps of angiogenesis, invasion, organ interaction, dormancy, tumor rejection, and tumor immune escape. The outcome of such tumor-host interactions seemed to depend on intrinsic properties of the tumor cells themselves as well as on the responsiveness of the host. Metastasis does not appear as a merely random process. Both clinical and experimental studies revealed that the whole process can be described more appropriately in terms of stochastic, sequential, and selective events, each of which is controlled and influenced by a number of mechanisms. With regard to therapeutic intervention, a selective event offers more possibilities than a random one because it is governed by rules that can be exploited experimentally. Various impacts from experimental studies for the design of antimetastatic cancer treatment strategies were discussed. Sequential steps of the metastatic cascade could become new therapy targets. Conventional empirically derived treatment modalities should become flanked by methods aimed more specifically at critical steps of cancer spread in order to prevent progression of the disease. This is where basic research on mechanisms could make significant contributions to therapy planning in the future. Furthermore, possible negative effects of surgery, radiotherapy, and adjuvant chemotherapy or immunotherapy that could result in enhancement of metastatic progression need to be critically evaluated to limit them as much as possible.(ABSTRACT TRUNCATED AT 400 WORDS)

Molecular mechanisms of cell adhesion in normal and transformed cells

Alterations in the adhesive mechanisms of cancer cells are likely to play an important role in determining the invasive or metastatic potential of these cells. An understanding of these alterations at the molecular level is now within reach, due to recent progress in the identification and characterization of several cell adhesion molecules (CAMs). Two of these molecules, the neural cell adhesion molecule N-CAM and the liver cell adhesion molecule L-CAM, are expressed on a variety of cell types from early embryos and throughout adult life, and appear to play several important roles in early inductive events, formation of specific intercellular connections, and maintenance of adult tissues. Two other molecules, the neuron-glia adhesion molecule Ng-CAM and a molecule involved in the specific adhesion of lymphocytes, appear to be more restricted in their developmental expression and function. The molecular characterization of N-CAM made possible for the first time an examination of the effects of transformation on the expression of a defined cell adhesion molecule. In both established cell lines from rat cerebellum and embryonic chick neuroepithelial cells, transformation by Rous sarcoma virus caused a large reduction in expression of N-CAM. In both cases, the N-CAM-mediated adhesion was correspondingly reduced. The neuroepithelial cells also became more highly motile after transformation. The decrease in N-CAM coupled with this increase in cell motility may significantly enhance the invasiveness of these cells. Other surface antigens have also been identified that may be involved in essential steps of invasion and metastasis. Such studies represent the initial step toward a detailed understanding of the role of CAMs in the various steps of metastasis. The accessibility of CAMs on tumor cell surfaces, and the availability of specific antibodies to these components suggests that reagents may become available in the near future that will offer new opportunities for preventing the formation of metastases.

Differential adhesion of tumor cells to capillary endothelial cells in vitro

Adhesion studies were carried out to determine the relative ability of glioma cells and ovary-derived teratoma cells to adhere to endothelial cells obtained from mouse brain capillaries (designated MBE cell line) or mouse ovaries (designated MOE cell line). The teratoma cells showed preferential adhesion to MOE cells, whereas the glioma cells showed preferential adhesion to the MBE cell line. In contrast, the glioma and teratoma cells adhered equally to L929 and 3T3 fibroblasts. A testicular teratoma with ovary-seeking properties in vivo also adhered preferentially to MOE cells, while the preference for MBE cells was shared by glioma cells with an endothelioma and a bladder tumor line. The endothelioma, interestingly, showed a marked preferential adhesion to 3T3 cells, thus distinguishing it from the glioma. The experiments demonstrate that capillary endothelial cells derived from different sources are not alike and that differences expressed at the cell surface of these cells can be distinguished by tumor cells.

Monoclonal antibodies which prevent experimental lung metastases. Interference with the adhesion of tumour cells to laminin

Cellular adhesion is important during metastasis, as metastatic cells must escape from the primary site into lymph and blood systems, there to adhere specifically to sites in distant organs. We have recently selected monoclonal antibodies which prevent adherence of B16 mouse melanoma cells to tissue culture dishes, and also markedly reduce experimental lung metastasis in mice when injected before or with the tumor cells. Here, we investigated which step in the metastatic process may be affected by the antibodies. The possible inhibitory effect of antibody on tumour cell adherence to vascular endothelial monolayers and to purified components of the underlying extracellular matrix - fibronectin, laminin and collagen type IV - was studied using in vitro assays. We found that the antibodies significantly blocked attachment to laminin, suggesting that specific basement membrane components play an important role in attracting or otherwise modifying the behaviour of metastatic tumour cells.

Molecular lesions in cancer

Newer methods of identifying biochemical events associated with cancer include recombinant DNA technology, monoclonal antibodies and improved analysis of nuclear and other cell functions to determine specific events which occur commonly in cancer cells. 'Onc-gene' products offer potential opportunities for new approaches to cancer treatment and the hope of inducing differentiation of cancer cells toward their normal counterparts. Studies on antigens which react with monoclonal antibodies offer the opportunity for 'epitope attack' which may be effected by improved drugs or by design of totally new drugs to bind to specific reactive sites. The complexity and pleiomorphism of cancer do not permit predictions as to whether these approaches will be more effective than the empirical approach to cancer treatment.