UMLS:C0376358 - FACTA Search

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Query: UMLS:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been previously shown that estrogens may exert their action on human breast cancer cells through coordinated control of secreted growth factors which act in an autocrine and paracrine fashion. Growth stimulation of the androgen receptor negative prostate carcinoma cell line DU-145 by dihydrotestosterone in the presence of the androgen-responsive human prostate carcinoma cell line LNCaP now indicates that androgens may regulate growth of prostate carcinoma cells through related mechanisms. A variety of androgen-regulated growth modulatory activities with autocrine and paracrine potential can be detected in conditioned media from LNCaP cells partially purified by ion exchange chromatography. Androgen-induced growth of LNCaP cells is partially inhibited by the polyanions suramin and dextran sulfates which antagonize growth factor action. These data suggest the existence of at least two different mechanisms of growth regulation by androgen which can be distinguished by their different sensitivity to growth factor inhibitory agents. We conclude that the combination of antipeptidergic substances and androgen withdrawal would represent a new and promising strategy for treatment of human prostate cancer.
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PMID:Growth factors in human prostate cancer cells: implications for an improved treatment of prostate cancer. 195 19

Antiandrogens are compounds able to block the effect of androgens directly on their target cells by inhibiting their binding to the androgen receptor (AR). Two chemical classes of antiandrogens are presently on the market or in clinical trials: steroids (cyproterone, megestrol acetates), and nonsteroids (flutamide, nilutamide). Steroid antiandrogens interact not only with AR but also with progestin and glucocorticoid receptors and thus give rise to progestin and glucocorticoid effects. By contrast, nonsteroid antiandrogens interact only with AR and are thus devoid of other hormonal or antihormonal activities. Nilutamide does not need to be transformed into an active metabolite, unlike flutamide, and interacts with dog, rat, and human prostate AR in vitro. Its kinetics lead to a prolonged interaction with AR in vivo after administration to rats. In prostate cancer treatment, it is necessary to combine an antiandrogen to surgical or chemical (estrogens, LH-RH agonists) castration to obtain a complete suppression of androgens. The antiandrogen will block specifically, at the target site, the trophic effect of adrenal androgens left intact by castration, and the secretion of which can only be suppressed by treatments (adrenalectomy, aminoglutethimide, ketoconazole) that also suppress corticoid synthesis. We have shown that nilutamide counteracts the trophic effect, on the prostate of castrated rats, of adrenal androgens administered continuously (minipumps) at circulating levels similar to those recorded in castrated men. Nilutamide will also impede the flare-up effect of the testosterone increase induced by LH-RH agonists at the beginning of treatment. We have shown in the rat treated with buserelin that the increase in prostate weight observed during the initial days of treatment by the LH-RH agonist can be inhibited by a combined treatment with nilutamide. This combined treatment "nilutamide plus castration" has been tested in an experimental androgen-dependent cancer model, the Shionogi tumor. The administration of nilutamide to mice, castrated twenty-four hours before the inoculation of tumor cells, delayed the appearance of tumors and reduced their number. Finally, the absence of androgen effect and the antiandrogen activity of the product were also demonstrated in human tumor cells in culture (T-47 D cells) transfected with the MMTV androgen-dependent promoter coupled with the CAT reporter gene.
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PMID:Pharmacology of antiandrogens and value of combining androgen suppression with antiandrogen therapy. 199 2

The presence of androgen receptor (AR) in prostate cancer has been linked to the androgen-dependent nature of the tumor and has also been shown to have prognostic significance; it also appears to be a positive prognostic indicator in breast cancer. However, due to the relatively low AR concentrations in most tumors and the inherently low specific activity of tritium, the assay of AR based on available 3H-ligands is not sensitive enough to measure accurately the amount of receptor in small specimens. A 125I-ligand like those available for the estrogen and progesterone receptors would be helpful, but development of such a ligand for AR has not been very successful. Although several androgen analogues containing iodine, bromine, or selenium have been synthesized specifically as potential probes for AR, none have shown any significant affinity or specificity for the receptor. We therefore undertook the synthesis of new potential AR ligands which could be radioiodinated, and determined their affinities for AR (from rat uterus and MCF-7 human breast cancer cells) by using a competition assay. We have examined both 5 alpha-dihydrotestosterone (5 alpha-DHT) and 19-nortestosterone analogues and have identified two such compounds which showed high AR affinity: (17 alpha,20E)-17 beta-hydroxy-21-iodo-5 alpha-pregn-20-en-3-one (17 alpha-[E)-iodovinyl)-5 alpha-DHT, 9) and 17 beta-hydroxy-7 alpha-methyl-(17 alpha,20E)-21-iodo-19-norpregna-4,20-dien-3- one (7 alpha-methyl-17 alpha-[E)-iodovinyl)-19-nortestosterone, 11). In fact, the affinity of the latter for human AR was found to be superior to that of 5 alpha-DHT itself. These iodovinyl analogues could be easily prepared in the radioiodinated form, and should prove to be extremely useful in assaying low levels of AR in small specimens.
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PMID:A potential radioiodinated ligand for androgen receptor: 7 alpha-methyl-17 alpha-(2'-(E)-iodovinyl)-19-nortestosterone. 200 46

A series of experiments were conducted to evaluate the effects of Win 49,596, a novel steroidal androgen receptor antagonist, in animal models of prostate cancer. In the first experiment, oral administration of Win 49,596 at doses of 30, 100, or 300 mg/kg/day for 28 days inhibited (P less than 0.05) the growth of the androgen-sensitive PAP variant of the Dunning R-3327 prostatic carcinoma in intact male rats relative to intact controls. The degree of inhibition at 100 and 300 mg/kg/day Win 49,596 was similar (P greater than 0.10) to that observed in castrate controls as well as in intact rats administered the nonsteroidal androgen receptor antagonist flutamide orally at 15 mg/kg/day. Castration as well as treatment with either Win 49,596 or flutamide also decreased (P less than 0.05) the weight of the prostate in tumor-bearing animals. Additional studies were conducted to determine the effect of Win 49,596 on the growth of the androgen-dependent PC-82 human prostatic carcinoma xenografted into athymic nude male mice. Oral administration of Win 49,596 at 30, 100, or 300 mg/kg/day for 35 days inhibited (P less than 0.05) tumor growth relative to intact controls. The degree of tumor inhibition was similar to that observed in intact male mice administered the nonsteroidal androgen receptor antagonist flutamide orally at 30 mg/kg/day but was less than that observed following castration. Ventral prostate weights were also reduced (P less than 0.05) in castrate mice as well as in intact mice administered either Win 49,596 or flutamide. In the last experiment, at equivalent total daily dosages of either 150 or 300 mg/kg/day Win 49,596, twice a day (BID) dosing was more effective than once a day (SID) dosing in inhibiting tumor growth. The inhibitory effects of Win 49,596 at 150 mg/kg BID on tumor growth were similar to those observed following castration. Although Win 49,596 treatment reduced (P less than 0.05) ventral prostate weights relative to intact controls, there was no difference (P greater than 0.10) between SID vs. BID dosing. Based on the results of these studies and subject to further testing, Win 49,596 may have utility in the treatment of hormonally dependent metastatic prostate cancer in humans.
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PMID:Evaluation of Win 49,596, a novel steroidal androgen receptor antagonist, in animal models of prostate cancer. 200 17

The steroid receptor profile in seven prostate cancer metastases was compared with the profile in seven primary prostate cancers. The secondaries were all lymph node metastases, obtained during pelvic lymphadenectomy, preceding radical prostatectomy or irradiation. Cytosol androgen receptor content was higher in metastases, whereas the nuclear androgen receptor content was only one-fourth that in primary cancer. Cytosol progesterone as well as estrogen receptor contents were markedly lower in metastases compared with primary cancer. The steroid receptor profile differed very little between primary cancer and normal tissue. Primary prostatic carcinoma is usually obtained at early stages of the disease, whereas metastases represent a dedifferentiated, more aggressive cell population. This may explain the low amounts of progesterone, estrogen, and nuclear androgen receptor levels. The total androgen receptor content was similar in metastatic and primary disease, however, with a shift towards a cytosolic predominance in metastases. Possibly androgen receptors in metastatic disease are "deactivated."
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PMID:Steroid receptor profile in human prostate cancer metastases as compared with primary prostatic carcinoma. 200 20

While the elimination of androgens of testicular origin can be easily achieved by orchiectomy or medical castration with LHRH agonists, the action of adrenal androgen precursors which are converted into the active androgen 5 alpha-dihydrotestosterone (DHT) in the prostatic tissue itself can be partially neutralized by antiandrogens which compete with DHT for binding to the androgen receptor. In order to increase the efficiency of androgen blockade, we have used 4-MA, an inhibitor of 5 alpha-reductase, the enzyme which converts testosterone into DHT, to reduce intracellular DHT concentrations and thus facilitate the action of the antiandrogen Flutamide. The present data show that the inhibitory effects of 4-MA (17 beta, N,N-diethylcarbamoyl-4-methyl-4-aza-5 alpha-androstan-3-one) and of the antiandrogen Flutamide are additive on prostatic growth and on androgen-sensitive prostatic binding protein mRNA levels in the rat, thus clearly suggesting that such a combination could provide the basis for a further improvement in the therapy of prostate cancer.
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PMID:Combination of an antiandrogen and a 5 alpha-reductase inhibitor: a further step towards total androgen blockade? 205 5

LNCaP cells (derived from a lymph node carcinoma of the human prostate) show androgen responsive growth. Progestagens, estradiol and antiandrogens competed with androgens for binding to the androgen receptor in the cells to a higher extent than in other androgen-sensitive systems. Optimal growth (3-4 fold increase in DNA content of 6 day cell cultures vs controls) was observed after addition of the synthetic androgen R1881 (0.1 nM). Both steroidal and non-steroidal antiandrogens did not suppress the androgen responsive growth. At a concentration of 10 nM cyproterone acetate or 100 nM RU 23908, growth was even stimulated to an extent comparable to that observed after addition of androgen. Cyproterone acetate and RU 23908 also increased the number of epidermal growth factor receptors expressed at the cell surface to a comparable level as did the androgen. Like androgens, cyproterone acetate, RU 23908 or estradiol stimulated the secretion per cell of prostate specific acid phosphatase in the culture fluid. In conclusion, antiandrogens can exert striking stimulatory effects on the proliferation of LNCaP cells probably due to a defective androgen receptor system. It is discussed that comparable changes in the specificity of the androgen receptor in prostate cancer cells may give these cells an advantage in growth rate and may contribute to development of tumors characterized as hormone independent.
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PMID:Stimulatory effects of antiandrogens on LNCaP human prostate tumor cell growth, EGF-receptor level and acid phosphatase secretion. 214 5

To understand better the mechanism by which 5-alpha-dihydrotestosterone (5-alpha-DHT) influences prostate epithelial cell function, we examined the effects of 5-alpha-DHT on phosphoinositide metabolism in human prostate cancer cell lines. Androgen receptor-positive LN-CaP cells showed dose-responsive, steady-state elevations in phosphoinositide metabolism when treated with 5-alpha-DHT. The intracellular pool of 3H-myoinositol decreased and the incorporation of 3H-myoinositol into cellular lipids increased with increasing concentrations of 5-alpha-DHT. 5-alpha-DHT increased the release of 3H-inositol phosphates into the media. The inactive stereoisomer, 5-beta-DHT, did not increase phosphoinositide metabolism. In androgen receptor-negative cells, phosphoinositide metabolism was not altered by 5-alpha-DHT. The slow induction of phosphoinositide metabolism by 5-alpha-DHT suggests that the effects may be mediated through other factors that serve as intermediates in 5-alpha-DHT modulation of intracellular signalling. We conclude that this modulation involves increased turnover of phosphatidylinositol, incorporation of myoinositol into cellular lipids, and alterations in the aqueous intracellular myoinositol pool size, possibly as a result of altered transport mechanisms.
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PMID:Phosphoinositide metabolism in human prostate cancer cells in vitro. 215 36

Rat, human, and mouse tissues were stained immunohistochemically using mono- and polyclonal androgen receptor antibodies. Monoclonal antibodies were raised in rats and used to stain human and mouse tissues; polyclonal antibodies were raised in rabbits and used to stain rat tissues. Frozen tissue sections were incubated with the appropriate androgen receptor antibody and staining was completed by the indirect avidin-biotin peroxidase method. A comprehensive survey of rat and mouse tissues was performed. Antibody staining was found exclusively in the nucleus of certain specific cell types, suggesting that the androgen receptor is a nuclear protein. All male sexual organs in the rat showed strong positive nuclear staining for androgen receptor. Weaker positive reactions were seen in kidney, liver, adrenal cortex and pituitary gland. Furthermore, positive staining for androgen receptor was exhibited in skeletal, cardiac and smooth muscle cells, and central nervous tissue. Female reproductive organs also contained androgen receptor-positive cells. The spleen was found to be the only organ examined which did not stain for androgen receptor. The monoclonal antibody could also demonstrate androgen receptor-positive cells in a human prostatic cancer and in a prostate with benign hyperplasia. These data demonstrate the use of antibodies in revealing cellular/subcellular distribution of androgen receptor in target tissues.
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PMID:Immunohistochemical localization of androgen receptors with mono- and polyclonal antibodies to androgen receptor. 219 91

In order to investigate the presence of androgen insensitivity in patients with male infertility, intratubular androgen receptor (AR) was measured in patients with idiopathic oligozoospermia and azoospermia. The specimens were obtained by testicular biopsy or orchiectomy from 56 patients with oligozoospermia and 5 with azoospermia for clinical study, and 17 with varicocele, 22 with vas disorders and prostatic cancer, which had a mean germinal epithelium score count of 8.5 or greater by the method of Johnsen (JSC) for deciding the cut-off levels, as the control group. Intratubular AR was measured by a 5-point micro-receptor assay, an exchange assay with the DCC method, using 40 microliters of each sample extract and 3H-methyltrienolone as the ligand. The genital skin AR assay was also conducted simultaneously in 34 patients. The results were as follows: 1) No significant correlation was noted between intratubular ARs and genital skin ARs. 2) The maximum binding (Bmax) of AR in the total intratubular extract was intermediate between that of the cytosol fraction and the nuclear extract. 3) Significant correlation was noted between the Bmax of ARs by the micro-receptor assay and those by the conventional assay. 4) The Bmax of AR in the control group (n = 22) was 30.38 +/- 9.89 fmol/mg protein (mean +/- S.D.) and was over 11 fmol/mg protein in all cases. Therefore, 11 fmol/mg protein was decided as the cut-off level for androgen insensitivity. 5) Comparative studies were undertaken between two groups, i.e., low AR group and normal AR group, with AR as a parameter for male infertility.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[A study on the intratubular androgen receptor in male infertility]. 228 16

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