Influence of the host microenvironment on the clonal selection of human colon carcinoma cells during primary tumor growth and metastasis (original) (raw)

References

1. Fidler IJ, 1990, Critical factors in the biology of human cancer metastasis: Twenty eighth G.H.A. Clowes Memorial Award Lecture. Cancer Res, 50, 6130–8.
   Google Scholar
2. Nowell PC, 1986, Mechanisms of tumor progression. Cancer Res, 46, 2203–7.
   Google Scholar
3. Nicolson GL, 1993, Cancer progression and growth: relationship of paracrine and autocrine growth mechanisms to organ preference of metastasis. Exp Cell Res, 204, 171–80.
   Google Scholar
4. Kerbel RS, 1990, Growth dominance of the metastatic cancer cell: cellular and molecular aspects. Adv Cancer Res, 55, 87–132.
   Google Scholar
5. Radinsky R and Culp LA, 1991, Clonal dominance of select subsets of viral Kirsten ras+-transformed 3T3 cells during tumor progression. Int J Cancer, 48, 148–59.
   Google Scholar
6. Wainscoat JS and Fey MF, 1990, Assessment of clonality in human tumors: a review. Cancer Res, 50, 1355–60.
   Google Scholar
7. Staroselsky AN, R adinsky R, Fidler IJ, et al. 1992, The use of molecular genetic markers to demonstrate the effect of organ environment on clonal dominance in a human renal-cell carcinoma grown in nude mice. Int J Cancer, 51, 1–9.
   Google Scholar
8. Korczak G, Robson I, Lamarche C, Bernstein A and Kerbel RS, 1988, Genetic tagging of tumor cells with retrovirus vector: clonal analysis of tumor growth and metastasis in vivo. Mol Cell Biol, 8, 3143–9.
   Google Scholar
9. Theodorescu D, Cornil I, Sheehan C, Man S and Kerbel RS, 1991, Dominance of metastatically competent cells in primary murine breast neoplasms is necessary for distant metastatic spread. Int J Cancer, 47, 118–23.
   Google Scholar
10. Waghorne C, Thomas M, Lagarde A, Kerbel RS and Breitman ML, 1988, Genetic evidence for progressive selection and overgrowth of primary tumors by metastatic cell subpopulations. Cancer Res, 48, 6109–14.
    Google Scholar
11. Morikawa K, Walker SM, Jessup JM and Fidler IJ, 1988, _In vivo_selection of highly metastatic cells from surgical specimens of different human colon carcinomas implanted into nude mice. Cancer Res, 48, 1943–8.
    Google Scholar
12. Morikawa K, Walker SM, Nakajima M et al. 1988, Influence of organ environment on the growth, selection, and metastasis of human colon carcinoma cells in nude mice. Cancer Res, 48, 6863–71.
    Google Scholar
13. Radinsky R, Risin S, Fan D, et al. 1994, Level and function of epidermal growth factor receptor predicts the metastatic potential of human colon carcinoma cells. Clin Cancer Res, 1, 19–32.
    Google Scholar
14. Radinsky R, Beltran PJ, Tsan R, et al. 1995, Transcriptional induction of the melanocyte-stimulating hormone receptor in brain metastases of murine K-1735 melanoma. Cancer Res, 55, 141–8.
    Google Scholar
15. Radinsky R, Fidler IJ, Price JE, et al. 1994, Terminal differentiation and apoptosis in experimental lung metastases of human osteogenic sarcoma cells by wild type p53. Oncogene, 9, 1877–83.
    Google Scholar
16. Wilmanns C, Fan D, O'Brian CA, et al. 1993, Modulation of doxorubicin sensitivity and level of Pglycoprotein expression in human colon carcinoma cells by ectopic and orthotopic environments in nude mice.Int J Oncol, 3, 413–22.
    Google Scholar
17. Dong Z, Radinsky R, Fan D, et al. 1994, Organ specific modulation of steady state _mdr_gene expression and drug resistance in murine colon carcinoma cells. J Natl Cancer Inst, 86, 913–20.
    Google Scholar
18. Radinsky R, 1995, Modulation of tumor cell gene expression and phenotype by the organ-specific metastatic environment. Cancer and Metastasis Rev, 14, 323–38.
    Google Scholar
19. Morgenstern JP and Land H, 1990, Advanced mammalian gene transfer: high titre retroviral vectors with multiple drug selection markers and a complementary helper-free packaging cell line. Nucleic Acids Res, 18, 3587–96.
    Google Scholar
20. Radinsky R, Kraemer PM, Raines MA, Kung HJ and Culp LA, 1987, Amplification and rearrangement of the Kirsten _ras_oncogene in virus-transformed BALB/c 3T3 cells during malignant tumor progression. Proc Natl Acad Sci USA, 84, 5143–7.
    Google Scholar
21. Radinsky R, Kraemer PM, Proffitt MR and Culp LA, 1988, Clonal diversity of the Kirsten _ras_oncogene during tumor progression in athymic nude mice: mechanisms of amplification and rearrangement. Cancer Res, 48, 4941–53.
    Google Scholar
22. Clarke R, Brunner N, Katz D, et al. 1989, The effects of a constitutive expression of transforming growth factor-aon the growth of MCF-7 human breast cancer cells _in vitro_and in vivo. Mol Endocr, 3, 372–80.
    Google Scholar
23. Abraham JA, Mergia A, Whang JL, et al. 0000, Nucleotide sequence of a bovine cDNA clone encoding the angiogenic protein, basic fibroblast growth factor. Science, 233, 545–8.
    Google Scholar
24. Matsushima K, Morishita K, Yochimura T, et al. 1988, Molecular cloning of a human monocyte derived neutrophil chemotactic and activating factor (MDNCF) and the induction of MDNCF by interleukin-1 and tumor necrosis factor. J Exp Med, 167, 1885–93.
    Google Scholar
25. Dean M, O'Connell P, Leppert M, et al. 1987, Three additional DNA polymorphisms in the _met_gene and D7S8 locus: use in prenatal diagnosis of cystic fibrosis. J Pediat R, 111, 490–5.
    Google Scholar
26. Galski H, Sullivan M, Willingham MC, et al. 1989, Expression of a human multidrug resistance cDNA (mdr1) in the bone marrow of transgenic mice: resistance to daunomycin-induced leukopenia. Mol Cell Biol, **9,**4357–63.
    Google Scholar
27. Plowman GD, Green JM, McDonald VL, et al. 1990, The amphiregulin gene encodes a novel epidermal growth related protein with tumor inhibitory activity. Mol Cell Biol, 10, 1969–81.
    Google Scholar
28. Zimmerman W, Ortlieb B, Friedrich R and Von Kleist S, 1987, Isolation and characterization of cDNA clones encoding the human carcinoembryonic antigen reveal a highly conserved repeating structure. Proc Natl Acad Sci USA, 84, 2960–4.
    Google Scholar
29. Southern PJ and Berg P, 1982, Transformation of mammalian cells to antibiotic resistance with a gene under control of the SV40 early region promoter. J Mol Appl Genet, 1, 327–41.
    Google Scholar
30. Fort P, Marty L, Piechaczyk M, et al. 1985, Various rat adult tissues express only one major mRNA species from the glyceraldehyde-3-phosphate-dehydrogenase multigenic family. Nucleic Acids Res, 13, 1431–42.
    Google Scholar
31. Feinberg AP and Vogelstein B, 1983, A technique for radiolabeling DNA restriction endonuclease fragments to high specific activity. Analyt Biochem, 132, 6–13.
    Google Scholar
32. Markowitz H, Molkentin SD, Gerbic K, et al. 1990, Growth stimulation by coexpression of transforming growth factor-aand epidermal growth factor receptor in normal and adenomatous human colon epithelium. J Clin Invest, 40, 356–62.
    Google Scholar
33. Flavia Di Renzo M, Olivero M, Giacomini A, et al. 1995, Overexpression and amplification of the Met/HGF receptor gene during the progression of colorectal cancer. Clin Cancer Res, 1, 147–54.
    Google Scholar
34. Nakajima M, Morikaw M, Fabra A, Bucana CD and Fidler IJ, 1990, Influence of organ environment on extracellular matrix degradative activity and metastasis of human colon carcinoma cells. J Natl Cancer Inst, 82, 1890–98.
    Google Scholar
35. Fabra A, Nakajima M, Bucana CD and Fidler IJ, 1992, Modulation of invasive phenotype of human colon carcinoma cells by fibroblast from orthotopic or ectopic organs of nude mice. Differentiation, 52, 101–10.
    Google Scholar
36. Jessup JM, Giavazzi R, Campbell D, et al. 1988, Growth potential of human colorectal carcinomas in nude mice: association with preoperative serum concentration of carcinoembryonic antigen. Cancer Res, 48, 1689–92.
    Google Scholar
37. Jessup JM, Giavazzi R, Campbell D, et al. 1989, Metastatic potential of human colorectal carcinoma implanted into nude mice: prediction of clinical outcome in patients operated upon for cure. Cancer Res, 49, 6906–10.
    Google Scholar
38. Kitadai Y, Radinsky R, Bucana C, et al., 1996, Regulation of CEA expression in human colon carcinoma cells by the organ microenvironment. Am J Pathol, 149, 1157–66.
    Google Scholar
39. Gilboa E, 1986, Retrovirus vectors and their uses in molecular biology. Bioessays, 5, 252–7.
    Google Scholar
40. Donehower LA, 1987, Research and potential clinical applications of retroviral vectors. Prog Med Virol, 34, 1–32.
    Google Scholar
41. Fidler IJ, 1984, The evolution of biological heterogeneity in metastatic neoplasms. In: Nicolson GL and Milas L, eds. Cancer Invasion and Metastasis: biologic and therapeutic aspect. New York: Raven Press, pp. 5–30.
    Google Scholar
42. Bradley SJ, Garfinkle G, Walker E, et al. 1986, Increased expression of the epidermal growth factor receptor in human colon carcinoma cells. Arch Surg, 121, 1242–7.
    Google Scholar
43. Yasui W, Sumiyoshi H, Hata J, et al. 1988, Expression of epidermal growth factor receptor in human gastric and colonic carcinomas. Cancer Res, 48, 137–41.
    Google Scholar
44. Sainsbury JRC, Needham GK, Farndon JR, Malcom AJ and Harris AL, 1987, Epidermal-growth-factor receptor status as a predictor of early recurrence and death from breast cancer. Lancet, 1, 1398–402.
    Google Scholar
45. Kitadai Y, Yasui W, Hiroshi Y, et al. 1993, Expression of amphiregulin: a novel gene of the epidermal growth factor family in human gastric carcinomas. Jpn J Cancer Res, 84, 879–84.
    Google Scholar
46. Bottaro DP, Robin JS, Falletto DL, et al. 1991, Identification of the hepatocyte growth factor receptor as the c-_met_proto-oncogene product. Science, 251, 802–4.
    Google Scholar
47. Giordano S, Zhen Z, Medico E, et al. 0000, Transfer of motogenic and invasive response to scatter factor/hepatocyte growth factor by transfection of human MET proto-oncogene. Proc Natl Acad Sci USA, 90, 640–53.
    Google Scholar

Download references