Attachment and invasion of high- and low-metastatic clones of RCT sarcoma in a three-dimensional culture system (original) (raw)
References
Albini, A., Iwamoto, Y., Kleinman, H. K., Martin, G. R., Aaronson, S. A., Kozlowski, J. M., andMcEwan, R. N., 1987, A rapid_in vitro_ assay for quantitating the invasive potential of tumor cells.Cancer Research,47, 3239–3245. PubMed Google Scholar
Arita, K., Chigira, M., Watanabe, H., Udagawa, E., andMachinami, R., 1983, The basic character of Gunma clone-4 in the experimental study of metastasis (in Japanese).Journal of the Japanese Orthopaedic Association,50, 1847–1857. Google Scholar
Cresson, D. H., Beckman, Jr. W. C., Tidwell, R. R., Gerantz, J. D., andSiegal, G. P., 1986,In vitro inhibition of human sarcoma cells' invasive ability by bis(5-amidino-2-benzimidazolyl)methane a novel estroprotease inhibitor.American Journal of Pathology,123, 46–56. PubMed Google Scholar
De Brabander, M. J., Van de Veire, R. M. L., Aerts, F. E. M., Borger, M., andJanssen, P. A. J., 1976, The effects of methyl[5-(2-thienylcarbonyl)-1H-benzimidazol-2-yl]carbamate, (R17934; NSC 238159), a new synthetic antitumoral drug interfering with microtubules, on mammalian cells cultured_in vitro_.Cancer Research,36, 905–916. PubMed Google Scholar
Easty, D. M., andEasty, G. C., 1974, Measurement of the ability of cells to infiltrate normal tissues_in vitro_.British Journal of Cancer,29, 36–49. PubMed Google Scholar
Fidler, I. J., 1973, Selection of successive tumor lines for metastasis.Nature,242, 148–149. PubMed Google Scholar
Hart, I. R., andFidler, I. J., 1978, An_in vitro_ quantitative assay for tumor invasion.Cancer Research,38, 3218–3224. PubMed Google Scholar
Hoebeke, J., Van Nijen, G., andDe Brabander, M., 1976, Interaction of oncodazole (R17934), a new anti-tumoral drug, with rat brain tubulin.Biochemical and Biophysical Research Communications,69, 319–324. PubMed Google Scholar
Ishikawa, H., 1989, Cell polarity and cytoskeleton (in Japanese).Protein, Nucleic Acid and Enzyme,34, 1742–1748. Google Scholar
Kalebic, T., Williams, J. E., Kao-Shan, C.-S., Kravitz, B., Locklear, K., Siegal, G. P., Liotta, L. A., Sobel, M. E., andSteeg, P. S., 1988, A novel method for selection of invasive tumor cells: derivation and characterization of highly metastatic K1735 melanoma cell lines based on_in vitro_ and_in vivo_ invasive capacity.Clinical and Experimental Metastasis,6, 301–318. PubMed Google Scholar
Liotta, L. A., 1984, Tumor invasion and metastases: Role of the basement membrane.American Journal of Pathology,117, 339–348. PubMed Google Scholar
Mareel, M. M. K., andDe Brabander, M. J., 1978, Effect of microtubule inhibitors on malignant invasion_in vitro_.Journal of the National Cancer Institute,61, 787–792. PubMed Google Scholar
Mareel, M., Kint, J., andMeyvisch, C., 1979, Methods of study of the invasion of malignant C3H-mouse fibroblast into chick heart_in vitro_.Virchows Archiv B, Cell Pathology,30, 95–111. Google Scholar
Mareel, M. M., Bruyneel, E., andStorme, G., 1980, Attachment of mouse fibrosarcoma cells to precultured fragments of embryonic chick heart.Virchows Archiv B, Cell Pathology,34, 85–97. Google Scholar
Mareel, M. M. K., 1982, The use of embryo organ cultures to study invasion_in vitro_.Tumour Invasion and Metastasis, edited by L. A. Liotta and I. R. Hart (The Hague, Boston: Martinus and Nijhoff), pp. 207–230. Google Scholar
Mareel, M. M., andDe Mets, M., 1984, Effect of microtubule inhibitors on invasion and on related activities of tumor cells.International Review of Cytology,90, 125–168. PubMed Google Scholar
Matsui, H., 1986, Experimental study on prophylactic whole lung irradiation for the metastases of murine RCT sarcoma with special reference to the effectiveness and the side effects.Journal of the Japan Society for Cancer Therapy,21, 786–796. Google Scholar
Matsui, H., Tatezaki, S., Tsuji, H., andOchiai, H., 1989, Isolation and characterization of low- and high-metastatic clones from murine RCT (Radiological, Chiba, and Toyama) sarcoma.Journal of Cancer Research and Clinical Oncology,115, 9–16. PubMed Google Scholar
Matsui, H., andTatezaki, S., 1989, Characteristics of high- and low-metastatic clones isolated from murine undifferentiated sarcoma (RCT sarcoma) (in Japanese).Journal of the Japanese Orthopaedic Association,63, 1513–1519. PubMed Google Scholar
Meyvisch, C., Storme, G. A., Bruyneel, E., andMareel, M. 1983, Invasiveness and tumorigenicity of MO4 mouse fibrosarcoma cells pretreated with microtubule inhibitors.Clinical and Experimental Metastasis,1, 17–28. PubMed Google Scholar
Osborn, M., andWeber, K., 1977, The display of microtubules in transformed cells.Cell,12, 561–571. PubMed Google Scholar
Poste, G., Doll, J., Hart, I. R., andFidler, I. J., 1980,In vitro selection of B16 melanoma variants with enhanced tissue invasive properties.Cancer Research,40, 1636–1644. PubMed Google Scholar
Russo, R. G., Thorgeirsson, U., andLiotta, L. A., 1982,In vitro quantitative assay of invasion using human amnion.Tumour Invasion and Metastasis, edited by L. A. Liotta and I. R. Hart (The Hague, Boston: Martinus and Nijhoff) pp. 173–187. Google Scholar
Sobue, K., 1989, Cell adhesion and cytoskeleton (in Japanese).Metabolism and Disease,26, 199–207. Google Scholar
Sutherland, R. M., McCredie, J. A., andInch, W. R., 1971, Growth of multicell spheroids in tissue culture as a model of nodular carcinomas.Journal of the National Cancer Institute,46, 113–117. PubMed Google Scholar
Sutherland, R., Carlsson, J., Durand, R., andYuhas, J., 1981, Spheroids in cancer research.Cancer Research,41, 2980–2984 (Abstract). Google Scholar
Takeuchi, S., 1989, Role of microfilaments and microtubules in morphogenesis of multicellular animals (in Japanese).Protein Nucleic Acid and Enzyme,34, 1749–1756. Google Scholar
Tatezaki, S., andTsuji, H., 1981, Experimental study on the preoperative therapy of malignant musculo-skeletal tumors (in Japanese).Journal of the Japan Society for Cancer Therapy,16, 194–195 (Abstract). Google Scholar
Thorgeirsson, U. P., Turpeenniemi-Hujanen, T., Neckers, L. M., Johnson, D. W., andLiotta, L. A., 1984, Protein synthesis but not DNA synthesis is required for tumor cell invasion_in vitro_.Invasion and Metastasis,4, 73–83. Google Scholar
Waller, C. A., Braun, M., andSchirrmacher, V., 1986, Quantitative analysis of cancer invasion_in vitro_: comparison of two new assays and of tumor sublines with different metastatic capacity.Clinical and Experimental Metastasis,4, 73–89. PubMed Google Scholar
Weber, K., 1975, Specific visualization of tubulin containing structures by immuno-fluorescence microscopy: cytoplasmic microtubules, vinblastine induced paracrystal and mitotic figures.Microtubule and Microtubule Inhibitors, edited by M. Borgers and M. de Brabander (Amsterdam: North-Holland), pp. 313–327. Google Scholar
Yuhas, J. K., Li, A. P., Martinez, A. O., andLadman, A. J., 1977, A simplified method for production and growth of multicellular tumor spheroids.Cancer Research,37, 3639–3643. PubMed Google Scholar