Oncogene-induced basement membrane invasiveness in human mammary epithelial cells (original) (raw)

References

1. Clark R, Stampfer MR, Milley R,et al. 1988, Transformation of human mammary epithelial cells by oncogenic retroviruses.Cancer Res,48, 4689–94.
   Google Scholar
2. Stampfer MR and Bartley JC, 1988, Human mammary epithelial cells in culture: differentiation and transformation. In: Lippman ME and Dickson RB, eds.Breast Cancer: cellular and molecular biology, pp. 1–24. Norwell, MA: Kluwer Academic Publishers.
   Google Scholar
3. Valverius EM, Ciardiello F, Heldin N-E,et al. 1990, Stromal influences on transformation of human mammary epithelial cells overexpressing c-myc and SV40T.J Cell Physiol,145, 207–16.
   Google Scholar
4. Pierce JH, Arnstein P, DiMarco E,et al. 1991, Oncogenic potential of_erb_B-2 in human mammary epithelial cells.Oncogene,6, 1189–94.
   Google Scholar
5. Hill RP, 1987, In: Tannock IF and Hill RP, eds.The Basic Science of Oncology, pp. 160–75. New York: Pergamon Press.
   Google Scholar
6. Schirrmacher V, 1985, Cancer metastasis: experimental approaches, theoretical concepts and impacts for treatment strategies.Adv Cancer Res,43, 1–73.
   Google Scholar
7. Liotta LA, 1986, Tumor invasion and metastasis-role of the extracellular matrix.Cancer Res,46, 1–7.
   Google Scholar
8. Wewer UM, Liotta LA, Jaye M,et al. 1986, Altered levels of laminin receptor mRNA in various human carcinoma cells that have different abilities to bind laminin.Proc Natl Acad Sci, USA,83, 7137–41.
   Google Scholar
9. Wewer UM, Taraboletti G, Sobel ME, Albrechtsen LR and Liotta LA, 1988, Role of laminin receptor in tumor cell migration.Cancer Res,47, 5691–8.
   Google Scholar
10. Albelda SM and Buck CA, 1990, Integrins and other cell adhesion molecules.FASEB J,4, 2868–80.
    Google Scholar
11. Stetler-Stevensen WG, 1990, Type IV collagenases in tumor invasion and metastasis.Cancer Metastasis Rev,9, 289–303.
    Google Scholar
12. Goldberg GI and Eisen AZ, 1990, Extracellular matrix metalloproteinases in tumor invasion and metastasis. In: Lippman ME and Dickson RB, eds.Breast Cancer, pp. 421–40. Norwell, MA: Kluwer Academic Publishers.
    Google Scholar
13. Albini A, Iwamoto Y, Kleinman HK,et al. 1987, A rapid_in vitro_ assay for quantitating the invasive potential of tumor cells.Cancer Res,47, 3239–45.
    Google Scholar
14. Thompson EW, Paik S, Brunner N,et al. 1992, Association of increased basement membrane-invasiveness with absence of estrogen receptor and expression of vimentin in human breast cancer cell lines.J Cell Physiol,150, 534–44.
    Google Scholar
15. Bae S-G, Arand G, Parvasant P, Azzam H and Thompson EW, 1993, Molecular and cellular analysis of basement membrane invasion by human breast cancer cells in matrigel-based_in vitro_ assays.Breast Cancer Res Treat,24, 241–55.
    Google Scholar
16. Liotta LA, Steeg PS and Stetler-Stevenson WG, 1991, Cancer metastasis and angiogenesis: an imbalance of positive and negative regulation.Cell,64, 327–36.
    Google Scholar
17. Thiery J-P, Boyer B, Tucker G, Gavrilovic J and Valles AM, 1988, Adhesion mechanisms in embryogenesis and in cancer invasion and metastasis.Ciba Found Symp,141, 48–74.
    Google Scholar
18. Boyer B and Thiery JP, 1989, Epithelial cell adhesion mechanisms.J Membrane Biol,112, 97–108.
    Google Scholar
19. Sommers CL, Thompson EW, Torri J,et al. 1991, Absence of cell adhesion molecule uvomorulin expression in invasive human breast cancer cell lines.Cell Growth Differ,2, 365–72.
    Google Scholar
20. Stampfer MR, 1985, Isolation and growth of human mammary epithelial cells.J Tissue Culture Meth,9, 107–16.
    Google Scholar
21. Kleinman HK, McGarvey ML, Liotta LA,et al. 1982, Isolation and characterization of type IV procollagen, laminin and heparan sulfate proteoglycan from the EHS sarcoma.Biochemistry,24, 6188–93.
    Google Scholar
22. Kleinman HK, McGarvey ML, Hassell JR,et al. 1986, Basement membrane complexes with biological activity.Biochemistry,25, 312–18.
    Google Scholar
23. Albini A, Graf JG, Kitten GT,et al. 1986, 17_β_-Estradiol regulates and v-Ha-ras transfection constitutively enhances MCF-7 breast cancer cell interactions with basement membrane.Proc Natl Acad Sci, USA,83, 8182–6.
    Google Scholar
24. Thompson EW, Lippman ME and Dickson RB, 1991, Regulation of basement membrane invasiveness in human breast cancer model systems.Molec Cell Endocr,82, C203–8.
    Google Scholar
25. Thompson EW, Brunner N, Torri J,et al. 1993, The invasive and metastatic properties of hormoneindependent and hormone-responsive variants of MCF-7 human cancer cells.Clin Expl Metastasis,11, 15–26.
    Google Scholar
26. Kueng W, Sibler WK and Eppenberger U, 1989, Quantification of cells cultured on 96 well plates.Analyt Biochem,182, 16–19.
    Google Scholar
27. Heussen C and Dowdle EB, 1980, Electrophoretic analysis of plasminogen activators in polyacrylamide gels containing sodium dodecyl sulfate and copolymerized substrates.Analyt Biochem,102, 196–202.
    Google Scholar
28. Vestweber D and Kemler R, 1984, Rabbit antiserum against a purified surface glycoprotein decompacts mouse preimplantation embryos and reacts with specific adult tissues.Expl Cell Res,152, 169–78.
    Google Scholar
29. Sommers CL, Walker-Jones D, Heckford SE,et al. 1989, Vimentin rather than keratin expression in some hormone-independent breast cancer cell lines and in oncogene-transformed mammary epithelial cells.Cancer Res,49, 4258–63.
    Google Scholar
30. Ochieng J, Basolo F, Albini A,et al. 1991, Increased invasive, chemotactic and locomotive abilities of c-Ha-_ras_-transformed human breast epithelial cells.Invasion Metastasis,11, 38–47.
    Google Scholar
31. Brown PD, Levy AT, Margulies IM, Liotta LA and Stetler-Stevensen WG, 1990, Independent expression and cellular processing of Mr 72,000 type IV collagenase and interstitial collagenase in human tumorigenic cell lines.Cancer Res,50, 6184–91.
    Google Scholar
32. Frandsen TL, Boysen BE, Jirus S,et al. 1992, Experimental models for the study of human cancer cell invasion and metastasis.Fibrinolysis,6, Suppl. 4, 71–6.
    Google Scholar
33. Stampfer MR, Hallowes R and Hackett AJ, 1980, Growth of normal human mammary cells in culture.In Vitro,16, 531–7.
    Google Scholar
34. Barbacid M, 1987,Ras genes.Ann Rev Biochem,56, 779–827.
    Google Scholar
35. Bonfil DR, Reddell RR, Ura H,et al. 1989, Invasive and metastatic potential of a v-Ha-_ras_-transformed human bronchial epithelial cell line.J Natl Cancer Inst,81, 587–94.
    Google Scholar
36. Ura H, Bonfil RD, Reich R,et al. 1989, Expression of type IV collagenase and procollagen genes and its correlation with the tumorigenic, invasive, and metastatic abilities of oncogene-transformed human bronchial epithelial cells.Cancer Res,49, 4615–21.
    Google Scholar
37. Thorgeirsson UP, Liotta LA, Kalebic T,et al. 1982, Effect of natural protease inhibitors and a chemoattractant on tumor cell invasion_in vitro_.J Natl Cancer Inst,69, 1049–57.
    Google Scholar
38. Thorgeirsson UP, Terpeenniemi-Hujanen T, Williams JE,et al. 1985, NIH/3T3 cells transfected with human tumor DNA containing activated_ras_ oncogenes express the metastatic phenotype in nude mice.Molec Cell Biol,5, 259–62.
    Google Scholar
39. Bartek J, Bartkova J, Kyprianou N,et al. 1991, Efficient immortalization of luminal epithelial cells from human mammary gland by introduction of simian virus 40 large tumor antigen with a recombinant retrovirus.Proc Natl Acad Sci, USA,88, 3520–4.
    Google Scholar
40. Sommers CL, Papageorge A, Wilding G and Gelmann EP, 1990, Growth properties and tumorigenesis of MCF-7 cells transfected with isogenic mutants of_ras_ H.Cancer Res,50, 67–71.
    Google Scholar
41. Van Roy F, Mareel M, Vleminckx K,et al. 1990, Hormone sensitivity_in vitro_ and_in vivo_ of v-_ras_-transfected MCF-7 cell derivatives.Int J Cancer,46, 522–32.
    Google Scholar
42. Muschel RJ, Williams JE, Lowy DR and Liotta LA, 1985, Harvey_ras_ induction of metastatic potential depends upon oncogene activation and type of recipient cell.Am J Pathol,121, 1–8.
    Google Scholar
43. Taylor-Papadimitriou J, Stampfer MR, Bartek J, Lane EB and Lewis A, 1989, Keratin expression in human mammary epithelial cells cultured from normal and malignant tissue: relation to_in vivo_ phenotypes and influences of medium.J Cell Sci,94, 403–13.
    Google Scholar
44. Nicolson GL, Gallick GE, Sphon WH, Lembo TM and Tainsky MA, 1992, Transfection of activated c-H-ras EJ/pSV2neo genes into rat mammary cells: rapid stimulation of clonal diversification of spontaneous metastatic and cell surface properties.Oncogene,7, 1127–35.
    Google Scholar
45. Weinberg RA, 1985, The action of oncogenes in the cytoplasm and nucleus.Science,230, 770–6.
    Google Scholar
46. Collier LE, Wilhelm SM, Eisen AZ,et al. 1988, H-ras oncogene-transformed human bronchial epithelial cells (TBE-1) secrete a single metalloprotease capable of degrading basement membrane collagen.J Biol Chem,263, 6579–87.
    Google Scholar
47. Greenhalgh DA and Yuspa SH, 1988, Malignant conversion of murine squamous papilloma cell lines by transfection with the_fos_ oncogene.Molec Carcinogenesis,1, 134–43.
    Google Scholar
48. Monteagudo C, Merino MJ, San-Juan J, Liotta LA and Stetler-Stevensen WG, 1990, Immunohistochemical distribution of type IV collagenase in normal, benign, and malignant breast tissue.Am J Pathol,136, 585–92.
    Google Scholar
49. Daidone MG, Silvestrini R, D'Errico A,et al. 1991, Laminin receptors, collagenase IV and prognosis in node-negative breast cancers.Int J Cancer,48, 529–32.
    Google Scholar
50. D'Errico A, Garbisa S, Liotta LA,et al. 1991, Augmentation of type IV collagenase, laminin receptor, and Ki67 proliferation antigen associated with human colon, gastric, and breast carcinoma progression.Modern Pathol,4, 239–46.
    Google Scholar
51. Hoyhta M, Barnes R, Croswell T,et al. 1991, Immunohistochemical demonstration of collagenase type IV (72 kDa) in 140 cases of ductal carcinoma of the breast.Proc Am Ass Cancer Res,32, 66 (abstract).
    Google Scholar
52. Brown PD, Bloxidge RE, Anderson E and Howell A, 1993, Expression of activated gelatinase in human invasive breast carcinoma.Clin Exp Metastasis,11, 183–9.
    Google Scholar
53. Davies B, Miles DW, Hepperfield LC,et al. 1993, Activity of type IV collagenases in benign and malignant breast disease.Br J Cancer,67, 1126–31.
    Google Scholar
54. Zucker S, Lysik R, Zarrabi MH and Moll U, 1993, Mr 92,000 type IV collagenase is increased in plasma of patients with colon and breast cancer.Cancer Res,53, 140–6.
    Google Scholar
55. Ballin M, Mackay AR, Hartzler JL,et al 1991,Ras levels and metalloproteinase activity in normal versus neoplastic rat mammary tissues.Clin Exp Metastasis,9, 179–89.
    Google Scholar
56. Yu D, Hamada J, Zhang H, Nicolson GL and Hung M-C, 1992, Mechanisms of c-_erb_B2/neu oncogeneinduced metastasis and repression of metastatic properties by adenovirus 5 E1A gene products.Oncogene,7, 2263–70.
    Google Scholar
57. Nakajima M, Welch DR, Wynn DM, Tsuruo T and Nicolson GL, 1993, Serum and plasma Mr 92,000 progelatinase levels correlate with spontaneous metastasis of rat 13762NF mammary adenocarcinoma.Cancer Res,53, 5802–7.
    Google Scholar
58. Yamagata S, Tanaka R, Ito Y and Shimizu S, 1989, Gelatinases of murine metastatic tumor cells.Biochem Biophys Res Commun,158, 228–34.
    Google Scholar
59. Librach CL, Werb Z, Fitzgerald ML,et al. 1991, 92-kD type IV collagenase mediates invasion of human cytotrophoblasts.J Cell Biol,113, 437–49.
    Google Scholar
60. Yagel S, Parhar RS, Jeffrey JJ and Lala PK, 1988, Normal nonmetastatic human trophoblast cells share_in vitro_ invasive properties of malignant cells.J Cell Physiol,136, 455–62.
    Google Scholar
61. Wilhelm SM, Collier IE, Marmer BL,et al. 1989, SV40-transformed human lung fibroblasts secrete a 92 kDa type IV collagenase which is identical to that secreted by normal human macrophages.J Biol Chem,264, 17213–21.
    Google Scholar
62. Cattoretti G, Andreola S, Clemente C, D'Amato I and Rilke F, 1988, Vimentin and p53 expression on epidermal growth factor receptor-positive, oestrogen receptor-negative breast carcinomas.Br J Cancer,57, 353–7.
    Google Scholar
63. Raymond WA and Leong AS-Y, 1989, Co-expression of cytokeratin and vimentin intermediate filament proteins in benign and neoplastic breast epithelium.J Pathol,157, 299–306.
    Google Scholar
64. Raymond WA and Leong AS-Y, 1989, Vimentin-a new prognostic parameter in breast carcinoma?J Pathol,158, 107–14.
    Google Scholar
65. Domagala W, Lasota J, Bartowiak J, Weber K and Osborne M, 1990, Vimentin is preferentially expressed in human breast carcinomas with low estrogen receptor and high Ki67 growth fraction.Am J Pathol,136, 219–27.
    Google Scholar
66. Domagala W, Leszek W, Lasota J, Weber K and Osborne M, 1990, Vimentin is preferentially expressed in high grade ductal and medullary, but not in lobular breast carcinomas.Am J Pathol,137, 1059–64.
    Google Scholar
67. Oka H, Shiozaki H, Kobayashi K,et al. 1993, Expression of E-cadherin cell adhesion molecule in human breast cancer tissues and its relationship to metastases.Cancer Res,53, 1696–701.
    Google Scholar
68. Gavrilovic J, Moens G, Thiery J-P and Jouanneau J, 1990, Expression of transfected transforming growth factor_α_ induces a motile fibroblast-like phenotype with extracellular matrix-degrading potential in a rat bladder carcinoma cell line.Cell Regulation,1, 1003–14.
    Google Scholar
69. Jouanneau J, Gavrilovic J, Caruelle D,et al. 1991, Secreted or nonsecreted forms of acidic fibroblast growth factor produced by transfected epithelial cells influence cell morphology, motility, and invasive potential.Proc Natl Acad Sci, USA,88, 2893–7.
    Google Scholar

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