Prolonged retention of estradiol by human breast cancer cells in tissue culture.

Conditions are described under which prolonged estradiol retention and estrogenic activity are observed in human breast cancer cells in tissue culture. The cells were incubated for three hr with a physiological concentration of [3H]estradiol (3 to 5 nM) and then were washed with 3 successive exchanges of medium 3, 17, and 24 or 48 hr following incubation with [3H]estradiol. The total wash period was 78 hr. The following parameters were monitored to assess the duration of estrogen action in MCF-7 human breast cancer cells in tissue culture; (a) the concentration of [3H]estradiol and [3H]estradiol metabolites in the media washes; (b) the intracellular concentration of [3H]estradiol and [3H]estradiol metabolites; and (c) the time course of estradiol-enhanced rates of radiolabeled thymidine incorporation. The [3H]estradiol concentration in the final medium wash was approximately 0.05 nM. The total intracellular concentration of tritium was about 50 nM prior to wash and 9 nM following 78 hr of wash. The intracellular concentration of specifically bound [3H]estradiol was initially 18 nM, and after 78 hr of wash, it was 2.8 nM. After 48 hr of wash, nearly all specifically bound [3H]estradiol was present in the nucleus. Following incubation of the cells with 5 nM estradiol and an identical wash procedure, estrogenic activity as measured by a stimulation of thymidine incorporation was observed throughout the 78 hr monitored. When 10(-6) M tamoxifen or 10(-7) M unlabeled estradiol was included in the medium washes, the washout of nonspecific binding was unaffected; however, specifically bound [3H]estradiol was essentially eliminated within 24 hr. When bovine serum albumin was included in the medium washes, total, nonspecific, and specific [3H]estradiol binding was reduced in a parallel and dose-dependent fashion. After 48 hr, cells washed with medium containing 3.5 or 7% bovine serum albumin contained one-tenth of the [3H]estradiol present in cells washed with medium alone. We conclude that medium exchanges alone do not effectively remove estradiol from MCF-7 cells, and suggest that estrogen retention by estrogen-responsive cells may mask in vitro assessments of such responsiveness in this and other systems. Inclusion of bovine serum albumin in the washes may alleviate this problem.

[1]  W. McGuire,et al.  Estrogen receptor. Unoccupied sites in nuclei of a breast tumor cell line. , 1977, The Journal of biological chemistry.

[2]  M. Lippman,et al.  Effects of estrone, estradiol, and estriol on hormone-responsive human breast cancer in long-term tissue culture. , 1977, Cancer research.

[3]  R. Knazek,et al.  Formation of solid human mammary carcinoma in vitro. , 1977, Journal of the National Cancer Institute.

[4]  M. Lippman,et al.  Interactions of antiestrogens with human breast cancer in long-term tissue culture. , 1976, Cancer treatment reports.

[5]  W. McGuire,et al.  Nuclear estradiol receptor in the adult rat uterus: a new exchange assay. , 1976, Biochemistry.

[6]  G. Sato,et al.  Replacement of serum by hormones permits growth of cells in a defined medium , 1976, Nature.

[7]  M. Lippman,et al.  The effects of androgens and antiandrogens on hormone-responsive human breast cancer in long-term tissue culture. , 1976, Cancer research.

[8]  S. Brooks,et al.  The steroid alcohol and estrogen sulfotransferases in rodent and human mammary tumors. , 1975, Cancer research.

[9]  J. Gorski,et al.  Techniques for monitoring the distribution of the estradiol-binding protein complex between cytoplasm and nucleus of intact cells. , 1975, Methods in enzymology.

[10]  M. Olivé,et al.  Breast tumor cell lines from pleural effusions. , 1974, Journal of the National Cancer Institute.

[11]  H. Soule,et al.  Estrogen receptor in a human cell line (MCF-7) from breast carcinoma. , 1973, The Journal of biological chemistry.

[12]  A. Bogdén,et al.  Variability of hormone concentrations and ratios in commercial sera used for tissue culture. , 1973, Journal of the National Cancer Institute.

[13]  S. Korenman,et al.  Interaction of 17 -estradiol and its specific uterine receptor. Evidence for complex kinetic and equilibrium behavior. , 1971, Biochemistry.

[14]  E. Baulieu,et al.  Interaction of uterus cytosol receptor with estradiol. Equilibrium and kinetic studies. , 1971, Biochimica et biophysica acta.

[15]  F. Bresciani,et al.  Interactions of 6,7-3H-17beta-estradiol with mammary gland and other organs of the C3H mouse in vivo. , 1969, Endocrinology.

[16]  N. Deshpande,et al.  The uptake of tritiated steroids by human breast carcinoma. , 1969, Surgery, gynecology & obstetrics.

[17]  E. Thompson,et al.  Induction of tyrosine alpha-ketoglutarate transaminase by steroid hormones in a newly established tissue culture cell line. , 1966, Proceedings of the National Academy of Sciences of the United States of America.

[18]  O. H. Lowry,et al.  Protein measurement with the Folin phenol reagent. , 1951, The Journal of biological chemistry.