Mechanisms of the antitumor action of gestagens on endometrial cancer

An attempt was made to elucidate the relationship between the progestational activities and antitumor effects of various steroid hormones in vitro and in vivo. The established cell line (Ishikawa cells) of a human endometrial adenocarcinoma bearing estrogen and progesterone receptors was used in this study. Sixteen kinds of steroid hormones including progesterone, medroxyprogesterone acetate (MPA) and danazol were used in vitro. Each hormone was administered at 20 micrograms/ml continuously from the 4th day of culture and the growth curve was evaluated. The effects of progesterone, MPA and danazol at a dosage of 24 mg/kg/day for 53 days on the tumor induced in athymic nude mice with Ishikawa cells were also evaluated. Three kinds of hormones, progesterone, 16 alpha-methylprogesterone and danazol revealed cytocidal effects on the cells in vitro. There was no relationship between the progestational activity and cytocidal effect of each steroid hormone. On the other hand, no significant tumor regression was observed in vivo, but progesterone and danazol showed a tendency to suppress the growth of the tumor. These results suggest that the cytotoxic properties of progesterone may play a more important role than progestational action the cytocidal effect in vitro. It has been known that MPA had antitumor effects on DMBA-induced mammary cancer in rat and human endometrial cancer. However, MPA did not show a significant antitumor effect either in vitro or against the transplanted tumor in this study. Therefore, it was suggested that the antitumor effect of MPA is not direct action on the tumor cells, but indirect action through the interstitial cells of the target organ.     

Danazol binding to steroid receptors in human uterine endometrium

To understand the mechanism of action of danazol, the binding of danazol to multiple classes of intracellular steroid binding proteins was studied in the human uterine endometrium. Danazol bound to endometrial receptors for estrogen, progesterone, and androgen and seemed to bind to endometrial intracellular corticosteroid-binding globulin and sex-hormone-binding globulin. Danazol occupies almost all binding sites of steroids in the steroid target cells in spite of the presence of endogenous steroids. It is speculated that the binding behavior of danazol may be related to its therapeutic effect on endometriosis.     

Modulation of endometrial steroid receptors and growth regulatory genes by tamoxifen

OBJECTIVE: We investigated tamoxifen's effects on the expression of growth regulatory genes in the endometrium to identify the mechanism by which tamoxifen induces proliferation. METHODS: Using immunohistochemical techniques, we analyzed 39 endometrial specimens for expression of Ki-67, lactoferrin, transforming growth factor-alpha, tumor necrosis factor receptor-II, adrenomedullin, estrogen receptors, and progesterone receptors. Twenty specimens were obtained from postmenopausal breast cancer patients treated with tamoxifen (20 mg/day) for at least 6 months to include two endometrial adenocarcinoma specimens. Five secretory phase, three proliferative phase, and seven atrophic endometrial specimens were used as controls. In addition, four endometrial adenocarcinoma specimens were reviewed from patients not treated with tamoxifen. Intensity of immunostaining was quantified using digitized imaging techniques. RESULTS: Overexpression of both estrogen receptors and progesterone receptors, and an elevated proliferative index were the most consistent effects observed in benign endometrial specimens from tamoxifen-treated patients compared with atrophic controls (P <. 003). This staining pattern was also evident in adenocarcinomas from patients who received tamoxifen. Benign endometrium from tamoxifen-treated patients also expressed transforming growth factor-alpha, tumor necrosis factor receptor-II, lactoferrin, and adrenomedullin at levels comparable with those found in proliferative endometrial specimens. CONCLUSION: These data provide further documentation that the uterotropic effects of tamoxifen may be due, at least in part, to the induction of estrogen receptors and progesterone receptors, as well as other genes associated with the proliferative phase. Furthermore, analysis of estrogen receptors, progesterone receptors, and Ki-67 may be useful in identifying postmenopausal individuals on tamoxifen, who are at increased risk for developing endometrial cancer.     

Immunohistochemical expression of TAG-72 in normal and malignant endometrium: correlation of antigen expression with estrogen receptor and progesterone receptor levels

TAG-72 is a tumor-associated antigen that is expressed by secretory endometrium and most endometrial adenocarcinomas. We used immunohistochemical techniques to quantitate expression of TAG-72, estrogen receptor, and progesterone receptor in 21 normal endometria and 44 endometrial adenocarcinomas. In normal cycling endometrial glands, TAG-72 expression was related inversely to expression of receptors for estrogen and progesterone. This suggests that TAG-72 expression in normal endometrium may be hormonally regulated. Ninety-one percent of endometrial adenocarcinomas expressed immunohistochemically detectable TAG-72. The magnitude of TAG-72 expression did not correlate with other known prognostic factors in endometrial cancer such as histologic grade, depth of myometrial invasion, surgical stage, or steroid receptor status. The production of TAG-72 by most endometrial adenocarcinomas may represent nonspecific expression by cells that have dedifferentiated.     

Immunohistochemical study of HER-2/neu, epidermal growth factor receptor, and steroid receptor expression in normal and malignant endometrium.

HER-2/neu oncogene protein, epidermal growth factor receptor, progesterone receptor, and estrogen receptor were examined immunohistochemically in specimens of normal and neoplastic endometrium. Tissues obtained at the time of hysterectomy were snap-frozen at liquid nitrogen temperature and serially sectioned at 4 microns. Normal endometrial epithelial cells stained with anti-epidermal growth factor receptor and anti-HER-2/neu with intensities graded from 0 to 3+. Of the 49 endometrial malignancies studied, seven (14%) contained tissue exhibiting HER-2/neu staining in excess (4+) of any of the normal tissues or the other 42 cancer specimens. Expression of both HER-2/neu and steroid receptors was heterogeneous within these seven tumors. To examine this heterogeneity more closely, sections of these and other tumors were double-stained for HER-2/neu and progesterone receptor. It was found that the cells exhibiting 4+ HER-2/neu staining were progesterone receptor-negative. Conversely, cells that were progesterone receptor-positive within the same specimen exhibited HER-2/neu immunostaining equal to or less than 3+. All specimens containing 4+ HER-2/neu tissue were graded 1 or 2 adenocarcinomas, stage I. Thus, there is an inverse relationship between overexpression of HER-2/neu and progesterone receptor in endometrial cancer. On the other hand, overexpression of HER-2/neu in endometrial cancer does not seem to be related to loss of other differentiated characteristics. The prognostic value of these observations awaits continued study.     

Effects of raloxifene hydrochloride on endometrial cancer cells in vitro

OBJECTIVE: Determine effects of raloxifene hydrochloride, a selective estrogen receptor modulator (SERM), on growth and proliferation of an estrogen-responsive endometrial cancer cell line in vitro. MATERIALS AND METHODS: Studies were performed with Ishikawa endometrial adenocarcinoma cells, a well-differentiated cancer that expresses estrogen receptors and progesterone receptors. Raloxifene was purified as the hydrochloride salt. The four arms of the study were cells grown (1) without any further addition (control), (2) with estradiol only, (3) with raloxifene only, or (4) with estradiol and raloxifene. Three concentrations of estradiol (10, 100, 1000 pg/ml) and raloxifene (1, 10, 100 ng/ml) were used. After 1 week of culturing, the number of living cells for each experimental group was determined and expressed as a percentage of the control group. RESULTS: Cells treated with raloxifene 10 or 100 ng/ml alone grew significantly faster than control cells: 10 ng/ml [115.25%; SD, 11.05; 95% confidence interval (CI), 107.35-123.16; P = 0.002] and 100 ng/ml (111.14%; SD, 14.19; 95% CI, 100.98-121.29; P = 0.03). Estradiol 10 or 100 pg/ml did not stimulate cell growth, whereas cells treated with 1000 pg/ml grew significantly faster than control cells (114.69%; SD, 16.84; 95% CI, 102.65-126.74; P = 0.02). Raloxifene and estradiol together in any concentration did not affect cell growth. CONCLUSIONS: Raloxifene did not inhibit the growth of endometrial cancer cells in vitro. High concentrations even promoted cell growth. Estradiol in physiologic concentrations did not stimulate the growth of endometrial cancer cells in vitro.     

Hormonal therapy in ovarian cancer

Ovarian carcinoma continues to be the leading cause of death due to gynecological malignancy. Epidemiologic studies indicate that steroid hormones play roles in ovarian carcinogenesis. Gonadotropins, estrogen, and androgen may be causative factors, while gonadotropin-releasing hormone and progesterone may be protective factors in ovarian cancer pathogenesis. Experimental studies have shown that hormonal receptors are expressed in ovarian cancer cells and mediate the growth-stimulatory or growth-inhibitory effects of the hormones on these cells. Hormonal therapeutic agents have been evaluated in several clinical trials. Most of these trials were conducted in patients with recurrent or refractory ovarian cancer, with modest efficacy and few side effects. Better understanding of the mechanisms through which hormones affect cell growth may improve the efficacy of hormonal therapy. Molecular markers that can reliably predict major clinical outcomes should be investigated further in well-designed trials.     

Steroid-modulated proliferation of human endometrial carcinoma cell lines: any role for insulin-like growth factor signaling?

OBJECTIVES: Estrogen-stimulated proliferation of the normal and malignant human endometrium is balanced by the differentiating properties of progesterone. This study evaluated the role of insulin-like growth factor (IGF) signaling in steroid-induced modulation of endometrial cancer cell proliferation. METHODS: We used the human endometrial, estrogen-responsive ECC-1 and progesterone-responsive PRAB-36 cell lines. Proliferation studies with IGFs in combination with either estrogen or progesterone were conducted. Furthermore, the mRNA and protein expression of insulin-like growth factor-binding proteins (IGFBPs) was evaluated. RESULTS: Using the ECC-1 cell line, we observed that estrogen-induced proliferation is modulated via the IGF-receptor signaling pathway, and that IGF-1-induced stimulation of proliferation does not influence estrogen receptor signaling. Furthermore, expression of the main modulators of IGF action, the IGFBPs, was found to be regulated by estrogen and progesterone in both cell lines. IGFBP-4 was up-regulated by estrogen in the ECC-1 cell line, and IGFBP-3 and IGFBP-6 were down-regulated by progesterone in the PRAB-36 cell line. CONCLUSION: Estrogen-induced stimulation of proliferation of ECC-1 endometrial cancer cells is partly achieved via IGF signaling. Furthermore, the IGFBPs are regulated by estrogens as well as progestagens and could potentially play a role in the modulation of endometrial cancer cell proliferation.     

Estrogen and progesterone receptors and cyclooxygenase-2 expression in endometrial cancer, endometrial hyperplasia, and normal endometrium

OBJECTIVES: To determine whether cyclooxygenase-2 (COX-2) expression is seen in endometrial cancer, endometrial hyperplasia, and normal endometria and whether it correlates with expression of estrogen and progesterone receptors. METHODS: The study was a retrospective, IRB-approved analysis of biopsy samples from 14 patients with endometrial adenocarcinoma, 19 with endometrial hyperplasias, and 10 with normal endometrium. Excluded were samples from women with a history of pelvic radiation, NSAID use, or treatment with hormones during previous year. Immunohistochemical analyses were performed on formalin-fixed, paraffin-embedded tissues. Expression of COX-2, estrogen and progesterone receptors were scored according to the proportion of positive-staining cells: 1(+), <10%; 2(+), 10-50%; and 3(+), >50%. A score > or =2(+) was considered positive. Fisher's exact test and analysis of variance were used to compare proportions and continuous variables, respectively. RESULTS: Overexpression of COX-2 was seen in 4 (29%) of the endometrial cancers, 6 (32%) of the endometrial hyperplasia, and 4 (20%) of the normal endometria. These differences were not statistically significant (P = 0.90). No COX-2 expression was found in stromal tissue. Of 14 endometrial cancers, 7 (50%) expressed any COX-2, with 4 (29%) having an expression score of > or =2(+). Of 19 endometrial hyperplasias, 11 (58%) expressed any COX-2; with 6 (32%) having a score of > or =2(+). All 10 normal endometria showed only 1(+) expression. No significant differences were detected in COX-2 expression by grade or stage of cancer. Although 100% and 95% of both hyperplasia and normal endometrium samples expressed in estrogen and progesterone receptors, respectively, only 71% and 79% of endometrial cancers expressed estrogen and progesterone receptors (P = 0.01). A nonparametric trend was performed to detect a relationship, between COX-2 and estrogen receptor or progesterone receptor expression; no significant trend was found. CONCLUSIONS: In this study, the immunohistochemical analysis showed a trend toward increased COX-2 expression in endometrial cancer and hyperplasia compared to normal endometria. A larger sample size is needed to confirm these results. The increased COX-2 expression in hyperplasia may signify an early step in carcinogenesis. These findings may represent an important treatment opportunity for synergism in the hormonal therapy of endometrial cancer.     

Gestrinone (R2323) binding to steroid receptors in human uterine endometrial cytosol

To understand the mechanism of biological action of gestrinone (R2323), which has a therapeutic effect against endometriosis, the binding of gestrinone to numerous classes of intracellular steroid binding proteins was studied in the human uterine endometrium. Gestrinone bound to endometrial receptors for estrogen, progesterone and androgen, but seemed not to bind to endometrial intracellular corticosteroid-binding globulin and sex hormone-binding globulin. Gestrinone occupies all specific binding sites of steroids in the steroid target cells despite the presence of endogenous steroids. It is speculated that the binding behavior of gestrinone may be related to its therapeutic effect on endometriosis. Gestrinone's more avid affinity for estrogen receptor may be the reason for the ability to use a lower clinical dose of gestrinone.     

Distinct functional differences of human progesterone receptors A and B on gene expression and growth regulation in two endometrial carcinoma cell lines

To study the functional differences between the two progesterone receptor isoforms (hPRA and hPRB) in human endometrial cancer, two new endometrial carcinoma cell lines were created-one expressing hPRA and one expressing hPRB.A well-differentiated, hPR-negative Ishikawa cell line was stably transfected with either hPRA or hPRB cDNA. Transfected cells were selected, and two cell lines expressing approximately equal amounts of receptor were isolated-one expressing hPRA (PRA-14) and one expressing hPRB (PRB-59).Cell growth experiments revealed a growth-inhibitory response to progestins (MPA and R5020) in the PRB-59 cells but not in the PRA-14 cells. Differences in expression of genes targeted by the two isoforms were studied using a cDNA expression array technique. A different set of genes appeared to be progesterone regulated in the PRA-14 cells than in the PRB-59 cells. None of the genes were regulated by both hPRA and hPRB. Insulin-like growth factor binding protein 3 expression was studied in more detail as an example of a gene regulated in PRB-59 cells but not in PRA-14 cells.We established a new model to study functional differences between the two hPR isoforms in human endometrial carcinoma cells. This model revealed distinctive differences in target gene regulation between the two hPR isoforms. Moreover, antiproliferative actions of progesterone on human endometrial cancer cells could be observed only in the PRB-expressing cell line.     

Molecular tools to reestablish progestin control of endometrial cancer cell proliferation

OBJECTIVE: Endometrial cancers often arise in a setting of estrogen stimulation unopposed by the differentiating effects of progesterone. Our laboratory and others have previously shown that progesterone receptor down-regulation or perturbation of progesterone receptor isoform A or B expression is associated with the development of poorly differentiated endometrial cancers that are not growth inhibited by progestins. The purpose of these studies was to reestablish high progesterone receptor isoform A and B gene expressions in such endometrial cancer cells and to examine the effects of progestin treatment on cell growth and metastatic potential after this transformation. STUDY DESIGN: To induce high levels of expression of the progesterone receptor isoforms in KLE and Hec50 endometrial cancer cells, adenoviral vectors encoding the genes for progesterone receptor isoforms A and B were created. The characteristic ability of cancer cells to grow independently of anchorage to the surrounding solid matrix was measured by counting colony formation on soft agar for 8 to 14 days. Cell proliferation in response to a time course of progestin treatment was tested with flow cytometry. RESULTS: After treatment with a control vector without a progesterone receptor--encoding insert, no effect of progestin treatment on cell proliferation was found; after treatment with vectors encoding progesterone receptor isoform A or B, however, progestin treatment resulted in significant inhibition of cell growth. The anchorage-independent cell growth on soft agar assay showed that by 8 to 14 days the number of cell colonies was reduced by 50% relative to control preparations in the presence of progesterone receptor isoform A plus progestin (P <.0001, both Hec50 and KLE cell lines) and by 90% in the presence of progesterone receptor isoform B plus progestin (P <.0001, both Hec50 and KLE cell lines). Progestin treatment also resulted in a time-dependent reduction in cell proliferation as measured by flow cytometry. Although transfection with both progesterone receptor isoforms A and B reduced cell proliferation according to our assays, progesterone receptor isoform B caused a much more dramatic decrease in cell growth (P =.001, Hec50 cells; P <.0001, KLE cells). CONCLUSION: In poorly differentiated endometrial cancer cells that are resistant to progestin therapy, adenovirus-induced expressions of progesterone receptors A and B reestablish progestin control of endometrial cancer cell proliferation.     

Characterization of a human endometrial carcinoma cell line producing intraperitoneal tumor growth in immunodeficient mice

Establishment of laboratory models of gynecologic neoplasms provides an important means of studying the biologic characteristics of these tumors. We report a previously uncharacterized human endometrial adenocarcinoma cell line that produces both intraperitoneal and subcutaneous growth in nude mice. The line was derived from a poorly differentiated endometrial cancer and has been carried in continuous tissue culture for greater than 100 passages. Doubting time in culture is approximately 48 hr. Antigenic phenotyping against a panel of murine monoclonal antibodies by resetting cell surface assay on live cells or peroxidase assay on fixed cells has shown reactivity with a number of determinants, including MH99, MT334, MQ49, and the blood group antigens F3, 118, and 41–83. Cytogenetically, the line displays an aneuploid human karyotype with several chromosomal rearrangements and deletions. When injected intraperitoneally into nude mice, animals develop intraperitoneal nodules and ascites and succumb with wasting in 30–40 days. The intraperitoneal tumor has been passaged multiple times in nude mice by direct transfer of ascites. Subcutaneous injection of tumor cells produces nodules that grow at a reproducible rate. By light and electron microscopy, the nude mouse tumor is a poorly differentiated adenocarcinoma, similar to the original patient's tumor. It expresses both estrogen and progesterone receptors. CA 125 is not elevated in the serum of animals with tumor implants. The line appears to be cisplatin sensitive as determined by rates of growth of subcutaneous nodules. This cell line may be useful in studying the in vitro and in vivo properties of human endometrial carcinoma.     

Results of assays of estrogen, progesterone and androgen receptors in stage I and II adenocarcinoma of the endometrium]

The prognosis for adenocarcinoma of the endometrium is dependent on the findings of the histopathological assessment of the tumor. In a retrospective study of patients treated in initially by surgery, the estrogen and progesterone receptors were assayed 89 times and the androgen receptors 64 times. No statistically significant correlation was found between any of these receptors and the degree of structural differentiation or degree of infiltration of the myometrium. The absence of any one of these receptors had no negative impact on the overall survival nor on recurrence-free survival. The same was true for the 9 tumors which were devoid of both estrogen and progesterone receptors. In the authors' experience, the results of these hormone assays did not provide any further information on which to base the prognosis of endometrial cancers.     

Serum hormone and steroid hormone receptor levels during luteal-phase and long-term treatment with danazol

This study was designed to clarify the effects of danazol on levels of serum luteinizing hormone (LH), follicle-stimulating hormone (FSH), prolactin, progesterone (P), and 17 beta-estradiol and endometrial steroid receptors (for estrogen [ER], progestin [PR], and androgen [AR] ) during luteal-phase and long-term treatment. These levels were compared with midluteal-phase levels for a histologically in-phase endometrium. Danazol given during the luteal phase to patients with in-phase endometrium decreased endometrial steroid receptor levels (total ER and total PR), and decreased serum P, LH, and FSH levels. Ten of the 17 patients treated (59%) still had in-phase endometrium. Danazol (400 mg/day) given for 1 month or more to patients with pelvic endometriosis increased serum LH and FSH levels within the normal range and endometrial total ER and PR levels. It appears that the effects of short-term and long-term treatment with danazol on serum hormone and endometrial steroid receptor levels differ.     

Establishment of a new human endometrial adenocarcinoma cell line, Ishikawa cells, containing estrogen and progesterone receptors

A new human endometrial adenocarcinoma cell line, Ishikawa cells, was established from an endometrial adenocarcinoma from a 39-year-old woman and has been maintained in vitro for more than 3 years. The cells were found to form a monolayer in a mosaic fashion and to tend to pile up. Population doubling time was calculated to be about 36, 29 and 27 hours at the 9th, 40th and 50th generations, respectively. The modal chromosomal number of the cells fell in a diploid range. Histology of the tumor induced in athymic nude mice showed it to be a well differentiated adenocarcinoma which closely resembled the original human tumor. Estrogen receptor and progesterone receptor were demonstrated to occur not only in the induced tumor in athymic nude mice but also in in vitro culture cells. From the fact that the cell growth was maintained in an estrogen-free medium, it appeared that the cells had no estrogen dependency.     

Progesterone-mediated regulation of catechol-O-methyl transferase expression in endometrial cancer cells

The effects of estrogen and progesterone on the expression of estrogen-metabolizing enzymes such as catechol-O-methyl transferase (COMT) are not known. COMT converts genotoxic catecholestrogens to anticarcinogenic methoxyestrogens in the endometrium. The aim of this study is to investigate the effect of progesterone on COMT expression in well-differentiated endometrial cancer cells. The wild-type Ishikawa cell line as well as progesterone receptor A- or progesterone receptor B-transfected Ishikawa cells were used for in vitro studies. The regulation of COMT expression by progesterone was studied using Western blots, Hoechst dye DNA proliferation studies, and wild-type and/or site-directed mutagenesis of COMT promoter 1-luciferase reporter gene. Progesterone upregulated COMT protein expression in Ishikawa cells through progesterone receptor A isoform. COMT promoter activity was differentially regulated by the 3 half-site progesterone response elements in the COMT promoter. High doses of 2-ME2 inhibited Ishikawa cell proliferation. These data suggest that COMT expression is hormonally regulated in well-differentiated human endometrial cancer cells. COMT regulation and 2-ME2 production in the endometrium may affect endometrial carcinogenesis.