In vitro degradation of extracellular matrix by human ovarian carcinoma cells (original) (raw)
References
Barsky, S. H., Siegal, G., Jannotta, F., and Liotta, L. A., 1983, Loss of basement membrane components by invasive tumors but not by their benign counterparts. Laboratory Investigation, 49, 140–148. Google Scholar
Bergman, F., 1966, Carcinoma of the ovary: A clinicopathological study of 86 autoposied cases with special reference to mode of spread. Acta obstetrica et gynecologica Scandinavia, 45, 211–231. Google Scholar
Bernacki, R. J., Niedbala, M. J., and Korytnyk, W., 1985, Glycosidases in cancer and invasion.Cancer Metastasis Reviews, 4, 81–102. Google Scholar
Bernstein, P., 1936, Tumors of the ovary: A study of 1101 cases of operations for ovarian tumors. American Journal of Obstetrics and Gynecology, 32, 1023–1039. Google Scholar
Bogenmann, E., Mark, C., Isaacs, H., Neustein, H. B., Declerck, Y. A., Laug, W. F., and Jones, P. A., 1983, Invasive properties of primary pediatric neoplasms in vitro. Cancer Research, 43, 1176–1186. Google Scholar
Carr, I., Mcginty, F., and Norris, P., 1976, The fine structure of neoplastic invasion of liver skeletal muscle and lymphatic vessels by the Rd/3 tumor. Journal of Pathology, 118,91–99. Google Scholar
Crickard, K., Crickard, U., and Yoonessi, M., 1983, Human ovarian carcinoma cells maintained on extracellular matrix versus plastic. Cancer Research, 43, 2762–2767. Google Scholar
Crickard, K., Crickard, U., Yoonessi, M., and Caglar, H., 1986, Extracellular matrix-coated culture dishes: An in vitro model for primary human gynecologic tumors. Cancer Genetics and Cytogenetics, 19, 51–56. Google Scholar
Crickard, K., Crickard, U., Yoonessi, M., Niedbala, M. J., and Bernacki, R. J., 1986, Long-term cultures of human ovarian and endometrial cancer cells maintained on extracellular matrix. Proceedings of the American Association of Cancer Research, 27, 30. Google Scholar
Dingemanns, K. P., Roos, E., Van den Bergh Weerman, M. A., and Van de Pavert, I. V., 1978, Invasion of liver tissue by tumor cells and leukocytes: Comparative ultrastructure. Journal of the National Cancer Institute, 60, 583–598. Google Scholar
Etherington, D. L., 1977, The dissolution of insoluble bovine collagens by cathepsin B1 collagenolytic cathepsin, and pepsin: The influence of collagen type, age and chemical purity on susceptibility. Connective Tissue Research, 5, 135–145. Google Scholar
Feldman, G. B., 1975, Lymphatic obstruction in carcinomatous ascites. Cancer Research, 35, 325–332. Google Scholar
Frankfurt, O. S., 1983, Increased uptake of vital dye Hoechst 33342 during S phase in synchronized HeLa S3 cells. Cytometry, 4, 216–221. Google Scholar
Gospodarowicz, D., Bialecki, H., and Greenburg, G., 1978, Purification of fibroblast growth factor activity from bovine brain. Journal of Biological Chemistry, 253, 3736–3743. Google Scholar
Gospodarowicz, D., Greenburg, G., Foidart, J. M., and Savion, N., 1981, The production and localization of laminin in cultured vascular and corneal endothelial cells. Journal of Cellular Physiology, 107, 173–183. Google Scholar
Gospodarowicz, D., Mescher, A. L., and Birdwell, C. R., 1977, Stimulation of corneal endothelial cell proliferation in vitro by fibroblast and epidermal growth factors. Experimental Eye Research, 25, 75–89. Google Scholar
Hirabayashi, K., and Graham, J., 1970, Genesis of ascites in ovarian cancer. American Journal of Obstetrics and Gynecology, 106, 492–497. Google Scholar
Iozzo, R. V., 1985, Biology of disease. Proteoglycans: structure function and role in neoplasia. Laboratory Investigation, 53, 373–396. Google Scholar
Jones, P. A., and Declerck, Y. A., 1980, Destruction of extracellular matrices containing glycoproteins, elastin and collagen by metastatic human tumor cells. Cancer Research, 40, 3222–3227. Google Scholar
Jones, P. A., and Declerck, Y. A., 1982, Extracellular matrix destruction by invasive tumor cells. Cancer Metastasis Reviews, 1, 289–317. Google Scholar
Kramer, R. H., Vogel, K. G., and Nicolson, G. L., 1982, Solubilization and degradation of subendothelial matrix glycoproteins and proteoglycans by metastatic tumor cells. Journal of Biological Chemistry, 257, 2678–2686. Google Scholar
Laug, W. E., Declerck, Y. A., and Jones, P. A., 1983, Degradation of the subendothelial matrix by tumor cells. Cancer Research, 43, 1827–1834. Google Scholar
Liotta, L. A., Rao, C. N., and Barsky, S. H., 1983, Tumor invasion and the extracellular matrix. Laboratory Investigation, 49, 636–649. Google Scholar
Liotta, L. A., Thorgeirsson, U. P., and Garbisa, S., 1982, Role of collagenases in tumor cell invasion. Cancer Metastasis Reviews, 1, 277–288. Google Scholar
Ludatsher, R. M., Luse, S. A., and Suntzeff, V., 1967, An electron microscopic study of pulmonary tumor emboli from transplanted Morris hepatoma 5123. Cancer Research, 27, 1939–1952. Google Scholar
Nevo, Z., Gonzalez, R., and Gospodarowicz, D., 1984, Extracellular matrix proteoglycans produced by cultured bovine corneal endothelial cells. Connective Tissue Research, 13, 45–57. Google Scholar
Nicolson, G., 1982, Metastatic tumor cell attachment and invasion assay utilizing vascular endothelial cell monolayers. Journal of Histochemistry and Cytochemistry, 30, 214–220. Google Scholar
Niedbala, M. J., Crickard, K., and Bernacki, R. J., 1985, Interaction of human ovarian tumor cells with human mesothelial cells grown on extracellular matrix: an in vitro model system for studying tumor cell adhesion and invasion. Experimental Cell Research, 160, 499–513. Google Scholar
Niedbala, M. J., Crickard, K., and Bernacki, R. J., 1985, Interactions of human ovarian and endometrial carcinoma cells with extracellular matrix: An in vitro model to study tumor cell invasion. Proceedings of the American Association for Cancer Research, 26, 55. Google Scholar
Pauli, B. U., Schwartz, D. E., Thonar, E. J. M., and Kuettner, K. E., 1983, Tumor invasion and host extracellular matrix. Cancer Metastasis Reviews, 2, 129–152. Google Scholar
Pavelic, K., Bulbul, M. A., Slocum, H. K., Pavelic, Z. P., Rustum, Y. M., Niedbala, M. J., and Bernacki, R. J., 1986, Growth of urological tumors on extracellular matrix as a model for in vitro cultivation of primary human tumor explants. Cancer Research, 46, 3653–3662. Google Scholar
Sacks, P. G., Wansor, K. J., and Parsons, D. F., 1984, Organ-cultured epithelial tissue as an in vitro model for invasion: quantitation and high voltage electron microscopy of tumor cell attachment. Cancer Research, 44, 3063–3074. Google Scholar
Sheela, S., and Barrett, J. C., 1982, In vitro degradation of radiolabelled, intact basement membrane mediated by cellular plasminogen activator. Carcinogenesis, 3, 363–369. Google Scholar
Siegal, G.P., Barsky, S. H., Terranova, V. P., and Liotta, L. A., 1981, Stages of neoplastic transformation of human breast tissue as monitored by dissolution of basement membrane components. Invasion and Metastasis, 1, 54–65. Google Scholar
Sloane, B. F., and Honk, K. V., 1984, Cysteine proteinases and metastasis. Cancer Metastasis Reviews, 3, 249–263. Google Scholar
Strauli, R., In-Albon, A., and Haemmerli, G., 1983, Morphological studies on V2 carcinoma invasion and tumor-associated connective tissue changes in the rabbit mesentery. Cancer Research, 43, 5403–5410. Google Scholar
Taylor, I. W., 1980, A rapid single-step staining technique for DNA analysis by microfluorometry. Journal of Histochemistry and Cytochemistry, 28, 1021–1024. Google Scholar
Tseng, S. C. G., Savion, N., Gospodarowicz, D., and Stern, R., 1981, Characterization of collagens synthesized by cultured bovine corneal endothelial cells. Journal of Biological Chemistry, 256, 3361–3365. Google Scholar