Hostname: page-component-5c6d5d7d68-qks25 Total loading time: 0 Render date: 2024-08-19T02:15:25.419Z Has data issue: false hasContentIssue false
  • English
  • Français

Optimisation of antioestrogen therapy: laboratory and clinical concepts

Published online by Cambridge University Press:  05 December 2011

V. Craig Jordan
V. Craig Jordan
Affiliation:
Department of Human Oncology, University of Wisconsin Clinical Cancer Center, Madison, WI 53792, U.S.A.
Get access

Synopsis

Tamoxifen, a non-steroidal antioestrogen, is the first line endocrine therapy for breast cancer. Laboratory studies during the past decade have provided valuable clues to understand the mode of action of tamoxifen so that the drug can be used to its best advantage in the clinic. Animal models (carcinogen-induced rat mammary carcinoma models, spontaneous mouse mammary tumours, and athymic mice inoculated with hormone-dependent human breast cancer cell lines) all demonstrate that tamoxifen is a tumouristatic agent and long-term or indefinite therapy is required to prevent the appearance of tumours. However, when treatment is stopped, tumours appear spontaneously or can be encouraged to re-appear with oestrogen therapy. These data clearly support the view that adjuvant clinical trials with tamoxifen should employ an indefinite treatment policy or at least until the time of treatment failure. Several clinical trials organisations in Great Britain (CRC and Scottish trial) have recruited a significant number of premenopausal patients. However, unlike postmenopausal patients, long-term tamoxifen therapy of premenopausal women often causes an increase in circulating oestrogen. Since tamoxifen has been shown to be a competitive inhibitor of oestrogen action, strategies to reduce ovarian steroidogenesis (oophorectomy or Zodalex®) may provide an optimal environment to sustain the long-term effectiveness of adjuvant tamoxifen therapy.

Type
Research Article
Information
Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences , Volume 95: Oestrogen and the Human Breast , 1989 , pp. 239 - 246
Copyright
Copyright © Royal Society of Edinburgh 1989

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Breast Cancer Trials Committee, Scottish Cancer Trials Office (MRC) 1987. Adjuvant tamoxifen in the management of operable breast cancer: the Scottish trial. Lancet (ii), 171175.CrossRefGoogle Scholar
Buchanan, R. B., Blarney, R. W., Durrant, K. R., Howell, A., Paterson, A. G., Preece, P. E., Smith, D. C., Williams, C. J. & Wilson, R. G. 1986. A randomized comparison of tamoxifen with surgical oophorectomy in premenopausal patients with advanced breast cancer. Journal of Clinical Oncology 4, 13261330.CrossRefGoogle ScholarPubMed
Cole, M. P., Jones, C. T. A. & Todd, I. D. H. 1971. A new antioestrogenic agent in late breast cancer. British Journal of Cancer 25, 270275.CrossRefGoogle ScholarPubMed
Delozier, T., Mien, J-P., Juret, P., Vegret, C., Couette, J-E., Grai, Y., Olliver, J-M. & deRanieri, E. 1986. Adjuvant tamoxifen in post menopausal breast cancer: preliminary results of a randomized trial. Breast Cancer Research & Treatment 7, 105110.CrossRefGoogle Scholar
Emmens, C. W. 1971. Compounds exhibiting prolonged antioestrogenic and antifertility activity in mice and rats. Journal of Reproduction & Fertility 26, 175182.CrossRefGoogle ScholarPubMed
Fisher, B., Brown, A., Wolmark, N., Redmond, C., Wickerman, D. L., Wittliff, J. L., Dimitrov, N., Legault-Poisson, S., Schipper, H., Prager, D. & other NSABP investigators 1987. Prolonging tamoxifen therapy for primary breast cancer. Annals of Internal Medicine 106, 649654.CrossRefGoogle ScholarPubMed
Foulds, L. 1946. Mammary tumours in hybrid mice: growth and progress of spontaneous tumours. British Journal of Cancer 3, 345375.CrossRefGoogle Scholar
Furr, B. J. A. & Jordan, V. C. 1984. The pharmacology and clinical uses of tamoxifen. Pharmacology and Therapeutics 25, 127205.CrossRefGoogle ScholarPubMed
Gottardis, M. M. & Jordan, V. C. 1987. The antitumour actions of keoxifene and tamoxifen in the N-nitrosomethylurea-induced rat mammary carcinoma model. Cancer Research 47, 40204024.Google Scholar
Gottardis, M. M. & Jordan, V. C. 1988. Development of tamoxifen-stimulated growth of MCF-7 tumours in athymic mice after long-term antioestrogen administration Cancer Research 48, 51835187.Google ScholarPubMed
Gottardis, M. M., Robinson, S. P. & Jordan, V. C. 1988a. Estradiol-stimulated growth of MCF-7 tumours implanted in athymic mice: a model to study the tumouristatic actions of tamoxifen. Journal of Steroid Biochemistry 29, 5760.Google Scholar
Gottardis, M. M., Robinson, S. P., Satyaswaroop, P. G. & Jordan, V. C. 1988b. Contrasting actions of tamoxifen on endometrial and breast tumour growth in the athymic mouse. Cancer Research 48, 812815.Google ScholarPubMed
Groom, G. V. & Griffiths, K. 1976. Effect of the antioestrogen tamoxifen on plasma levels of luteinizing hormone, follicle stimulating hormone, prolactin, oestradiol and progesterone in normal premenopausal women. Journal of Endocrinology 70, 421428.CrossRefGoogle Scholar
Harper, M. J. K. & Walpole, A. L. 1966. Contrasting endocrine activities of cis and trans isomers in a series of substituted triphenylethylenes. Nature (London) 212, 87.CrossRefGoogle Scholar
Harper, M. J. K. & Walpole, A. L. 1967. A new derivative of triphenylethylene: effect on implantation and mode of action in rats. Journal of Reproduction and Fertility 13, 101119.CrossRefGoogle ScholarPubMed
Jordan, V. C. 1974. Antitumour activity of the antioestrogen ICI 46,474 (tamoxifen) in the dimethylbenzathracene (DMBA)-induced rat mammary carcinoma model. Journal of Steroid Biochemistry 5, 354.CrossRefGoogle Scholar
Jordan, V. C. 1975a. The antitumour effect of tamoxifen in the dimethylbenzathracene-induced mammary carcinoma model. Proceeding of a Symposium on the Hormonal Control of Breast Cancer, pp. 1117. Alderley Park, Macclesfield: ICI Pharmaceuticals Division plc.Google Scholar
Jordan, V. C. 1975b. Prolonged antioestrogenic activity of ICI 46,474 in the ovariectomized mouse. Journal of Reproduction & Fertility 42, 251258.CrossRefGoogle ScholarPubMed
Jordan, V. C. 1976. Effect of tamoxifen (ICI 46,474) on initiation and growth of DMBA-induced rat mammary carcinomata. European Journal of Cancer 12, 419424.CrossRefGoogle ScholarPubMed
Jordan, V. C. 1978. Use of the DMBA-induced rat mammary carcinoma system for the evaluation of tamoxifen treatment as a potential adjuvant therapy. Reviews in Endocrine Related Cancer (October Supplement), pp. 4955. Macclesfield: ICI Pharmaceuticals Division plc.Google Scholar
Jordan, V. C. 1984. Biochemical pharmacology of antioestrogen action. Pharmacological Reviews 36, 245276.Google Scholar
Jordan, V. C. (ed.) 1986. Oestrogen/Antioestrogen Action and Breast Cancer Therapy. Madison: University of Wisconsin Press.Google Scholar
Jordan, V. C. 1988a. The development of tamoxifen for breast cancer therapy: a tribute to the late Arthur L. Walpole. Breast Cancer Research & Treatment 11, 197210.CrossRefGoogle Scholar
Jordan, V. C. 1988b. The control of hormone-dependent breast cancer growth … are we talking about oestrogen alone? European Journal of Cancer and Clinical Oncology 24, 12451248.CrossRefGoogle Scholar
Jordan, V. C., Dix, C. J. & Allen, K. E. 1979. The effectiveness of long-term tamoxifen treatment in a laboratory model for adjuvant hormone therapy of breast cancer. In Adjuvant Therapy of Cancer II, eds Salmon, S. E. & Jones, S. E., pp. 1926. New York: Grune & Stratton.Google Scholar
Jordan, V. C., Mirecki, D. & Gottardis, M. M. 1984. Continuous tamoxifen therapy prevents the appearance of mammary tumours in a laboratory model of adjuvant therapy. In Adjuvant Therapy of Cancer IV, eds Salmon, S. E. & Jones, S. E., pp. 2733. New York: Grune & StrattonGoogle Scholar
Jordan, V. C., Fritz, N. F. & Tormey, D. C. 1987a. Endocrine effects of adjuvant chemotherapy and long-term tamoxifen administration on node positive patients with breast cancer. Cancer Research 47, 624630.Google ScholarPubMed
Jordan, V. C., Fritz, N. F. & Tormey, D. C. 1987b. Long-term adjuvant therapy with tamoxifen: effects on sex hormone binding globulin and antithrombin III. Cancer Research 47, 45174519.Google ScholarPubMed
Jordan, V. C., Gottardis, M. M. & Fritz, N. F., 1987c. Strategy for breast cancer therapy with antioestrogens. Journal of Steroid Biochemistry 27, 493498.CrossRefGoogle Scholar
Jordan, V. C., Phelps, E. & Lingren, J. U., 1987d. Effects of antioestrogens on bone in castrated and intact female rats. Breast Cancer Research & Treatment 10, 3135.CrossRefGoogle Scholar
Jordan, V. C., Martin, M. K., Mirecki, D. M. & Langan, S. 1988. The prevention of spontaneous mouse mammary cancer by prolonged antioestrogen therapy. Breast Cancer Research & Treatment 12, 110.Google Scholar
Jordan, V. C. & Allen, K. E. 1980. Evaluation of the antitumour activity of the non-steroidal antioestrogen monohydroxytamoxifen in the DMBA-induced rat mammary carcinoma model. European Journal of Cancer 16, 239251.CrossRefGoogle ScholarPubMed
Jordan, V. C. & Dowse, L. J. 1976. Tamoxifen as an antitumour agent: effect on oestrogen binding. Journal of Endocrinology 68, 297303.CrossRefGoogle ScholarPubMed
Lathrop, A. E. C. & Loeb, L. 1916. Further investigations on the origin of tumors in mice III on the part played by internal secretion in the spontaneous development of tumours. Journal of Cancer Research 1, 119.Google Scholar
Love, R. R., Mazess, R. B., Tormey, D. C., Barden, H. S., Newcomb, P. A. & Jordan, V. C. 1988. Bone mineral density in women with breast cancer treated with adjuvant tamoxifen for at least two years. Breast Cancer Research & Treatment 12, 297301.CrossRefGoogle ScholarPubMed
Nicholson, R. I., Walker, K. J., Turkes, A., Turkes, A. O., Dyas, J., Blarney, R. W., Cambell, F. C., Robinson, M. R. G. & Griffiths, K. 1984. Therapeutic significance and the mechanism of action of the LH-RH agonist ICI 118,630 in breast and prostate cancer. Journal of Steroid Biochemistry 20, 129135.CrossRefGoogle Scholar
Nicholson, R. I. & Golder, M. P., 1975. The effect of synthetic antioestrogens on the growth and biochemistry of rat mammary tumours. European Journal of Cancer 4, 571579.CrossRefGoogle Scholar
Nolvadex Adjuvant Trial Organization (NATO) 1988. Controlled trial of tamoxifen as a single adjuvant agent in the management of early breast cancer: Analysis of eight years. British Journal of Cancer 57, 608611.CrossRefGoogle Scholar
Osborne, C. K., Hobbs, F. K. & Clark, G. M. 1985. Effect of oestrogens and antioestrogens on growth of human breast cancer cells in athymic nude mice. Cancer Research 45, 584590.Google ScholarPubMed
Ravdin, P. M., Fritz, N. F., Tormey, D. C. & Jordan, V. C. 1988. Endocrine status of premenopausal node positive breast cancer patients following adjuvant chemotherapy and long-term tamoxifen. Cancer Research 48, 10261029.Google ScholarPubMed
Reddel, R. R. & Sutherland, R. L. 1984. Tamoxifen stimulation of human breast cancer cell proliferation in vitro: a possible model for tamoxifen tumour flare. European Journal of Cancer and Clinical Oncology 20, 14191424.CrossRefGoogle ScholarPubMed
Robinson, S. P., Mauel, D. A. & Jordan, V. C. 1988. Antitumour actions of toremifene in the 7, 12 dimethylbenzanthracene (DMBA) induced rat mammary tumour model. European Journal of Cancer and Clinical Oncology 24, 18171821.CrossRefGoogle Scholar
Robinson, S. P. & Jordan, V. C. 1987. Reversal of the antitumour effects of tamoxifen by progesterone in the 7, 12 dimethylbenzanthracene-induced rat mammary carcinoma model. Cancer Research 47, 53865390.Google Scholar
Rutqvist, L. E., Cedermark, B., Glas, U., Johansson, H., Nordenskjöld, B., Skoog, L., Somell, A., Theve, T., Friberg, S. & Askergrekn, J. 1987. The Stockholm trial on adjuvant tamoxifen in early breast cancer. Breast Cancer Research & Treatment 10, 255266.CrossRefGoogle ScholarPubMed
Satyaswaroop, P. G., Zaino, R. J. & Mortel, R. 1984. Estrogen-like effects of tamoxifen on human endometrial carcinoma transplanted into nude mice. Cancer Research 44, 40064010.Google ScholarPubMed
Sawka, C. A., Pritchard, K. I., Paterson, D. J. A., Thompson, D. B., Skelley, W. E., Myers, R. E., Mobbs, B. G., Malkin, A. & Meakin, J. W. 1986. Role and mechanism of action of tamoxifen in premenopausal women with metastatic breast cancer. Cancer Research 46, 31523156.Google Scholar
Terenius, L., 1970. Two modes of interaction between oestrogen and antioestrogen. Acta Endocrinologica Copenhagen 64, 4758.Google ScholarPubMed
Tormey, D. C. 1987. Long-term adjuvant therapy with tamoxifen in breast cancer: how long is long? Annals of Internal Medicine 106, 762764.CrossRefGoogle Scholar
Tormey, D. C., Rasmussen, P. & Jordan, V. C. 1987. Long-term adjuvant tamoxifen study: clinical update. Breast Cancer Research & Treatment 9, 157158.CrossRefGoogle ScholarPubMed
Tormey, D. C. & Jordan, V. C. 1984. Long-term tamoxifen adjuvant therapy in node positive breast cancer: a metabolic and pilot clinical study. Breast Cancer Research & Treatment 4, 297302.CrossRefGoogle ScholarPubMed
Van Nie, R. & Thung, P. J. 1965. Responsiveness of mouse mammary tumors to pregnancy. European Journal of Cancer 1, 4150.CrossRefGoogle ScholarPubMed
Wakeling, A. E. & Bowler, J. 1987. Steroidal pure antioestrogens. Journal of Endocrinology 112, R7–R10.CrossRefGoogle ScholarPubMed
Wallgren, A., Boral, E., Carstensen, J., Friberg, S., Glas, U., Hjalmar, M-L., Kaigas, M., Nordenskjöld, B., Skoog, L., Theve, N-O. & Wilking, N. 1984. Should adjuvant taxomifen be given for several years in breast cancer? In Adjuvant Therapy of Cancer IV, eds Jones, S. E. & Salmon, S. E., pp. 331337. New York: Grune & Stratton.Google Scholar
Wilson, A. J., Tehrani, F. & Baum, M. 1982. Adjuvant tamoxifen therapy for early breast cancer: an experimental study with reference to oestrogen and progesterone receptors. British Journal of Surgery 69, 121125.CrossRefGoogle ScholarPubMed