Is the P388 murine tumor no longer adequate as a drug discovery model? (original) (raw)
References
Frei E: The national cancer chemotherapy program. Science 217:600–606, 1982. Google Scholar
Goldin A, Schepartz SA, Venditti JM, De Vita VT, Jr: Historical development and current strategy of the National Cancer Institute drug development program. In: De Vita Jr VT, Busch H (eds) Methods in Cancer Research XVI. Academic Press, New York, NY, 1979, pp 165–245. Google Scholar
Staquet MJ, Byar DP, Green SB, Rozencweig M: Clinical predictivity of transplantable tumor systems in the selection of new drugs for solid tumors: rationale for a three-stage strategy. Cancer Treat Rep 67:753–765, 1983 Google Scholar
Venditti JM, Wesley RA, Plowman J: Current NCI preclinical antitumor screening in vivo: results of tumor panel screening, 1976–1982, and future directions. In: Garattini S, Goldin A, Hawking F (eds) Advances in Pharmacology and Chemotherapy, Vol 20. Academic Press, Orlando FL, 1984, pp 1–20. Google Scholar
Venditti JM: Preclinical drug development: rationale and methods. Seminars in Oncology 8:349–361, 1981 Google Scholar
Zubrod CG: Chemical control of cancer. Proc Nat Acad Sci USA 69:1042–2047, 1972 Google Scholar
Goldin A, Venditti JM, MacDonald JS, Muggia FM, Henney JE, De Vita VT, Jr: Current results of the screening program at the Division of Cancer Treatment, National Cancer Institute. Europ J Cancer 17:129–142, 1981 Google Scholar
Frei E: Curative cancer chemotherapy. Cancer Res 45:6523–6537, 1985 Google Scholar
Hirschberg E: Patterns of response of animal tumors to anticancer agents: a systematic analysis of the literature in experimental cancer chemotherapy — 1945–1958. Cancer Res 23:521–1084, 1963 Google Scholar
Skipper H: Drug evaluation in experimental tumor systems: potential and limitations in 1961. Cancer Chemother Rep 16:11–19, 1962 Google Scholar
Corbett TH, Roberts BJ, Leopold WR, Peckham JC, Wilkoff LJ, Griswold Jr DP, Schabel Jr FM: Induction and chemotherapeutics response of two transplantable ductal adenocarcinomas of the pancreas in C57B1/6 mice. Cancer Res 45:717–726, 1984 Google Scholar
Schabel Jr FM, Skipper HE, Trader MW, Laster WR, Griswold Jr DP, Corbett TH: Establishment of cross-resistance profiles for new agents. Cancer Treat Rep 67:905–922, 1983 Google Scholar
Corbett TH, Griswold Jr DP, Roberts BJ, Peckham JC, Schabel Jr FM: Evaluation of single agents and combinations of chemotherapeutic agents in mouse colon carcino mas. Cancer 40:2660–2680, 1977 Google Scholar
Corbett TH, Griswold Jr DP, Roberts BJ, Peckham JC, Schabel Jr FM: Biology and therapeutic response of a mouse mammary adenocarcinoma (16/C) and its potential as a model for surgical adjuvant chemotherapy. Cancer Treat Rep 62:1471–1499, 1978 Google Scholar
Venditti JM: The National Cancer Institute antitumor drug discovery program, current and future perspectives: a com mentary. Cancer Treat Rep 67:767–772, 1983 Google Scholar
Leiter J, Abbott BJ, Bourke AR, Schepartz SA, Wodinsky. Screening data from the cancer chemotherapy national service center screening laboratories. XIV. Cancer Res 23:1278–1473, 1963 Google Scholar
Venditti JM: Relevance of transplantable animal-tumor systems to the selection of new agents for clinical trial. In: Pharmacological Basis of Cancer Chemotherapy. Williams and Wilkins Co, 1975, pp 245–270
Goldin A, Serpick AA, Mantel N: Experimental screening procedures and clinical predictability value. Cancer Chemother Rep 50:173–218, 1966 Google Scholar
Griswold DP, Laster Jr WR, Snow MY, Schabel Jr FM, Skipper HE: Experimental evaluation of potential anti cancer agents. XII. Quantitative drug response of the SA180, CA755, and leukemia L1210 systems to a “standard list” of “active” and “inactive” agents. Cancer Res 23: 271–521, 1963 Google Scholar
Skipper HE, Wilcox WS, Schabel Jr FM, Laster Jr WR, Mattil L: Experimental evaluation of potential anticancer agents. X. A specific test for distinguishing false positives. Cancer Chemother Rep 29:1–62, 1963 Google Scholar
Pitot HC, Shires TK, Moyer G, Garret CT: Phenotypic variability as a manifestation of translational control. In: Busch H (ed) The Molecular Biology of Cancer. Academic Press Inc, London Ltd, 1974, pp 523–533
Corbett TH, Griswold Jr DP, Roberts BJ, Peckham JC, Schabel Jr FM: Tumor induction relationships in develop ment of transplantable cancers of the colon in mice for che motherapy assays, with a note on carcinogen structure. Cancer Res 35:2434–2439, 1975 Google Scholar
Corbett TH, Griswold Jr DP, Roberts BJ, Schabel Jr FM: Cytotoxic adjuvant therapy and the experimental model, Chapter 10. In: Stoll BA (ed) New Aspects of Breast Cancer, Vol. 4, Systemic Control of Breast Cancer. William Heinemann Medical Books Ltd, London, 1981, pp 204–243 Google Scholar
Harris H: Gene action and differentiation; malignancy. In: Cell Fusion. Harvard University Press, Cambridge MA, 1970, pp 57–59 Google Scholar
Ephrussi B: Applications of cell hybridization to the study of cancer. In: Hybridization of Somatic Cells. Princeton University Press, Princeton NJ, 1972, pp 99–109 Google Scholar
Harris H, Klein G: Malignancy of somatic cell hybrids. Nature 224:1315–1316, 1969 Google Scholar
Hill DL, Montgomery JA: Selective uptake and retention of anticancer agents by sensitive cells. Cancer Chemother Phar macol 4:221, 1980 Google Scholar
Mintz B, Fleishman RA: Teratocarcinomas and other neoplasms as developmental defects in gene expression. Adv in Cancer Res 34:211–278, 1981 Google Scholar
Johnson RD, Golden A: The clinical impact of screening and other experimental tumor studies. Cancer Treat Rev 2:1, 1975 Google Scholar
Plowman J, Narayanan VL, Dykes D, Szarvasi E, Briet P, Yoder OC, Paull KD: Flavone acetic acid (NSC 347512), a novel agent with preclinical antitumor activity against the colon adenocarcinoma 38 in mice. Cancer Treat Rep, 70: 631–635, 1986 Google Scholar
Corbett TH, Bissery M, Wozniak A, Plowman J, Polin L, Tapazoglou E, Dieckman J, Valeriote F: Activity of flavone acetic acid (NSC-347512) against solid tumors of mice. Invest New Drugs, 4:207–220, 1986 Google Scholar
Shoemaker RH, Wolpert DeFilippes MK, Kern DH, Lieber MM, Makuch RW, Melnick NR, Miller WT, Salmon SE, Simon RM, Venditti JM, Von Hoff DD: Application of a human tumor colony forming assay to new drug screening. Cancer Res 45:2145–2153, 1985 Google Scholar
Corbett TH, Leopold WR, Dykes DJ, Roberts BJ, Griswold Jr DP, Schabel Jr FM: Toxicity and anticancer activity of a new triazine antifolate (NSC 127755). Cancer Res 42: 1701–1715, 1982 Google Scholar
Geran RI, Greenberg NH, MacDonald MM, Schumacher AM, Abbott BJ: Cell culture screen, KB Protocol. 1,600. Cancer Chemother Rep 3:17, 1972 Google Scholar
Shoemaker RH, Abbott BJ, MacDonald MM, Mayo JG, Venditti JM, Wolpert DeFilippes MK: Use of the KB cell line for in vitro cytotoxicity assays. Cancer Treat Rep 67:97, 1983 Google Scholar
Schabel Jr FM: Laboratory methods for the detection and development of clinically useful anticancer drugs. In: Burchenal JH, Oettgen HF (eds) Cancer: Achievements, Chal lenges and Prospects for the 1980's. Vol 2. Grune and Stratton Inc, New York, 1981, pp 11–32 Google Scholar
Corbett TH: A selective soft agar assay for drug discovery. Proc Am Assoc for Cancer Res 25:325, 1984 Google Scholar
Corbett TH, Wozniak A, Gerpheide S, Hanka L: A selec tive two-tumor soft agar assay for drug discovery. In: In vitro and In vivo Models for Detection of New Antitumor Drugs; 14th International Congress of Chemotherapy. Hanka LJ, Kondo T, White RJ (eds) Univ of Tokyo Press, 1986, pp 5–14
Corbett TH, Valeriote FA: Rodent models in experimental chemotherapy. In: Kallman RF (ed) The Use of Rodent Tumors in Experimental Cancer Therapy. Pergamon Press, 1987, in press
Shoemaker RH: New approaches to antitumor drug screening: the human tumor-colony-formation assay. Cancer Treat Rep 70:9–12, 1986 Google Scholar