Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Estrogens have an important role in the growth of breast and other hormone-sensitive cancers. We have shown that 4-hydroxyandrostenedione (4-OHA) selectively blocks estrogen synthesis by inhibiting aromatase activity in ovarian and peripheral tissues and reduces plasma estrogen levels in rat and non-human primate species. In postmenopausal men and women, estrogens are mainly of peripheral origin. When postmenopausal breast cancer patients were administered either by daily oral or parenteral weekly treatment with 4-OHA, plasma estrogen concentrations were significantly reduced. Complete or partial response to treatment occurred in 34% of 100 patients with advanced breast cancer, while the disease was stabilized in 12%. We recently studied the effects of 4-OHA and other aromatase inhibitors, 10-propargylestr-4-ene-3,17-dione (PED) and imidazo[1,5-alpha]3,4,5,6-tetrahydropyrin-6-yl-(4-benzonitrile) (CGS 16949A) as well as 5 alpha-reductase inhibitors, N,N-diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxyamide (4-MA) and 17 beta-hydroxy-4-aza-4-methyl-19norandrost-5-en-3-one (L651190) in prostatic tissue from 11 patients with prostatic cancer and six patients with benign prostatic hypertrophy (BPH), and from normal men at autopsy. We attempted to measure aromatase activity in tissue incubation by quantitating 3H2O released during aromatization of androstenedione or testosterone labeled at the C-1 position. The amount of 3H2O released from all samples was at least twice that of the heat inactivated tissue samples. The 3H2O release was significantly inhibited by 4-OHA and 4-MA, but not by the other aromatase inhibitors. However, when HPLC and TLC were used to isolate steroid products, no estrone or estradiol was detected in the incubates. Furthermore, no aromatase mRNA was detected following amplification by PCR. The 4-OHA was found to inhibit 5 alpha-reductase in both BPH and cancer tissue, although to a lesser extent than 4-MA. The other aromatase inhibitors were without effect. Although a mechanism involving intraprostatic aromatase is not likely, inhibitors may act to reduce peripherally-formed estrogens. In postmenopausal breast cancer, the results indicate that 4-OHA is of significant benefit.
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PMID:Aromatase and other inhibitors in breast and prostatic cancer. 228 80

In a search for inhibitors of 17 alpha-hydroxylase-C17,20-lyase and testosterone-5 alpha-reductase, target enzymes in the development of drugs to treat hormone-dependent prostatic cancer, we have identified certain compounds chemically derived by the hydrolysis of decafluoroazobenzene (4) as novel inhibitors for these two enzymes. Hydrolysis of 4 gave the known 4-hydroxynonafluoroazobenzene (1) and the novel 2-hydroxynonafluoroazobenzene (2). By AlI3 demethylation of 4,4'-dimethoxyoctafluoroazobenzene (5) or by hydrolysis of 4 under phase-transfer conditions 4,4'-dihydroxyoctafluoroazobenzene (3) was obtained. Compounds 1 and 2 were inhibitors of the hydroxylase (IC50 values, respectively, 30 and 63 microM) and of the lyase (IC50 values 33 and 16 microM) steps on the pathway of androgen biosynthesis. The 2-hydroxy compound 2 underwent spontaneous conversion into octafluorodibenz[b,f][1,4,5]oxadiazepine (6) which had IC50 values, respectively, of 50 and 15 microM for the hydroxylase and lyase steps and which contributed to the observed activity of 2. Effective inhibitors of the 5 alpha-reductase were 1 (Ki 10 microM) and 3 (Ki4 microM): the activities of 1 and 3 were markedly pH dependent, with respective IC50 values of 14 and 5 microM at pH 7.4 and of 2 and 0.8 microM at pH 6.6.
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PMID:Hydroxyperfluoroazobenzenes: novel inhibitors of enzymes of androgen biosynthesis. 239 87

Prostatic tissue removed at the time of cystoprostatectomy was separated into periurethral and peripheral zones. Homogenized tissue was incubated with [1,2,6,7(3)H] androstenedione in the presence or absence of an aromatase inhibitor, 4-hydroxyandrostenedione (4-OHAD) and a 5 alpha-reductase inhibitor 4-MA (N,N-diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane 17 beta-carboxamide). Estrogen formation was determined by reverse isotope dilution of [3H] estrone and [3H] estradiol and crystallization to constant specific activity. Control incubations were carried out in parallel utilizing heated prostatic tissue. Total estrogens produced in the periurethral zone in patients with benign prostatic hyperplasia (BPH) was 223 fmol/mg protein/hr (SE +/- 57) compared to 102 fmol (SE +/- 17) in patients without BPH. Estrogen formation in the peripheral zone was 175 fmol (SE +/- 69) and 105 fmol (SE +/- 26) in patients with and without BPH, respectively. The prostatic aromatase exhibits Michaelis-Menton kinetics with an apparent Km of 90 nM. 4-OHAD inhibited aromatization in the prostatic tissue by 57-93%. Aromatization was also strongly inhibited by 4-MA, indicating that 4-MA is a potent aromatase as well as a 5 alpha-reductase inhibitor in this tissue. These results suggest that aromatization of androgens to estrogens in the human prostate proceeds at a substantial rate and that local estrogen formation could preexist and be a factor in the etiology of BPH and prostatic cancer.
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PMID:Estrogen formation in human prostatic tissue from patients with and without benign prostatic hyperplasia. 243 1

The intraprostatic concentrations of testosterone (T) and dihydrotestosterone (DHT) have been measured in only a few men. We measured, in prostatic tissue obtained at surgery from seven men with benign prostatic hyperplasia, the effects of 3-month treatment with a long-acting GnRH agonist on 1) the intraprostatic concentrations of T, DHT, and 5 alpha-androstan-3 alpha, 17 beta-diol (3 alpha-diol); 2) prostatic 5 alpha-reductase activity; and 3) the prostatic content of androgen receptors (AR). Plasma T, DHT, and 3 alpha-diol levels also were measured. Prostatic tissue samples obtained at surgery from a group of untreated men with benign prostatic hyperplasia also were studied. The mean DHT and 3 alpha-diol concentrations in the prostatic tissue of the treated men were about 10% of those in untreated men (n = 19; P less than 0.01 for DHT and P less than 0.05 for 3 alpha-diol), and the mean intraprostatic T concentration in the treated men was about 25% of that in the control group (0.10 greater than P greater than 0.05). The mean in vitro formation of DHT by the prostatic tissue of the treated men was about 50% lower (P less than 0.05) than that by prostatic tissue of the untreated men (n = 9). The mean cytosolic AR content in the prostatic tissue of the treated men was significantly higher (P less than 0.05), whereas the mean nuclear content of both salt-extractable and salt-resistant AR was significantly lower (P less than 0.05) than that in the prostatic tissue of the untreated men (n = 8). The mean plasma T levels in treated men decreased from 4.77 +/- 1.79 (SD) ng/mL (16.5 +/- 6.2 nmol/L) to 0.27 +/- 0.42 ng/mL (0.9 +/- 1.5 nmol/L) after 1 month of therapy and remained in the castrate range thereafter. We conclude that pharmacological castration resulting from 3-month treatment with a long-acting GnRH agonist decreases the intraprostatic T concentration to about one fourth and those of DHT and 3 alpha-diol to about one tenth of the levels in untreated men. Thus, GnRH agonist treatment may not completely abolish intraprostatic androgen concentrations in metastatic prostatic cancer patients. The decrease in prostatic 5 alpha-reductase activity as well as the decrease in nuclear receptors are probably secondary to the decrease in plasma T concentrations.
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PMID:Three-month treatment with a long-acting gonadotropin-releasing hormone agonist of patients with benign prostatic hyperplasia: effects on tissue androgen concentration, 5 alpha-reductase activity and androgen receptor content. 246 2

Flow cytometry of 20 prostate cancer specimens was carried out and the percentage DNA content in each phase of the cell cycle was correlated to the 5 alpha-reductase activity of the tumour. A group of 20 hyperplastic specimens was also entered into this study as control. Tumours were divided into 3 groups on the basis of their 5 alpha-reductase activity. This classification made it possible to identify a group of tumours of which none formed metastases (diploid tumours with 5 alpha-reductase activity greater than 20 pmol/mg protein/30 min and with less than 10% of the cells undergoing mitosis) and a second group of which 78% had metastasised at the time of presentation (diploid tumours with 5 alpha-reductase activity less than 10 pmol/mg protein/30 min and with more than 15% of the cells undergoing mitosis). DNA content within each of the 5 alpha-reductase groups appeared also to correlate with the histological grade of the cancer but no relationship was established with the stage of the disease. Our results suggest that a multi factorial discriminant combining DNA ploidy and 5 alpha-reductase measurements offers a good prognostic index for the assessment of disease progression in prostate cancer and that this might form the basis of a new approach to the treatment of this disease.
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PMID:Flow cytometric analysis of cellular DNA in human prostate cancer: relationship to 5 alpha-reductase activity of the tissue. 247 58

The effects of 4-hydroxyandrostenedione (4-OHA) and other aromatase inhibitors, 10-propargylestr-4-ene-3,17-dione and imidazo[1,5-alpha]-3,4,5,6-tetrahydropyrin-6-yl-(4-benzonitrile), as well as 5 alpha-reductase inhibitors N,N-diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxyamide and 4-methyl-3-oxo-4-aza-androsta-5-ene-17-ol were investigated in prostatic tissue from six patients with benign prostatic hypertrophy and seven patients with prostatic cancer, and from normal men at autopsy. We attempted to measure aromatase activity in the tissue incubations by quantitating 3H2O released from androstenedione or testosterone labeled at the C-1 position. High performance liquid chromatography and thin layer chromatography were used to isolate steroid products. Although the amount of 3H2O released was at least twice that of the heat-inactivated tissue samples, no estrone or estradiol was detected on high performance liquid chromatography. The 3H2O release was significantly inhibited by 4-OHA and N,N-diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxyamide, but not by the other aromatase inhibitors. 4-OHA also inhibited 5 alpha-reductase in both benign prostatic hypertrophy and cancer tissue, although to a lesser extent than N,N-diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxyamide. The other aromatase inhibitors were without effect on 5 alpha-reductase. Our results indicate that 3H2O released from [1 beta-3H]androstenedione and [1,2,6,7-3H]androstenedione does not correlate with estrogen formation and may be the result of other metabolic reactions. Although it appears that the prostate lacks aromatase, 4-OHA may be of benefit in patients with benign prostatic hypertrophy or prostatic cancer by inhibiting this enzyme in peripheral tissue.
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PMID:Lack of evidence for aromatase in human prostatic tissues: effects of 4-hydroxyandrostenedione and other inhibitors on androgen metabolism. 247 64

To aid in the design of new inhibitors of steroidal 5 alpha-reductase for treatment of prostate cancer, we have studied the topography of the 5 alpha-reductase active site (5 alpha-R) and of the related androgen (RA) and progesterone (RP) receptors in the region complementary to C.6 of progesterone. To this end we have determined the total structures of 17 alpha-acetoxy-6-methylene-4-pregnene-3,20-dione (VII; R = H) and of 17 beta-hydroxy-6,6-ethylene-4-androsten-3-one (VIa) by X-ray crystal structure analysis and, using these data, have developed Newman projections of the 6 alpha-Me, 6 beta-Me, 6-methylene and 6,6-ethylene derivatives of progesterone. From them we have developed a Newman projection of a composite model formed from steroids (V), (VI), (VIIIa) and (VIIIb). This is shown in Fig. 4 and illustrates the relative conformations of these substituents around C.6. From there we proceeded to receptor-binding studies. Our results led to the conclusion that androgen receptor, (RA), takes up preferred but different conformations when bound to testosterone (T) and to 17 beta-hydroxy-5 alpha-androstan-3-one (5 alpha-dihydrotestosterone, DHT), respectively, and that the resulting steroid-receptor complexes bind preferentially to different chromatin acceptor sites. We have therefore used the convention RT and RDHT in place of RA as appropriate. Working on the assumption that binding affinities reflect spatial contours, we have developed comparative silhouettes for the 5 alpha-R, RP and RDHT protein binding sites complementary to C.6 of the steroidal ligand. These data show that the 5 alpha-reductase active site is characterized by a hydrophobic pocket which specifically accommodates a 6-methylenic moiety and partially accommodates a 6 beta-methyl group. RDHT, in contrast, shows much less specificity and largely accommodates all the above substituents. Progesterone receptor differs in failing to accommodate 6,6-ethylene and 6 beta-methyl, with minimal accommodation of 6-methylene. It possesses a hydrophobic pocket skewed towards the alpha-face of the steroid, thereby allowing optimal binding of the 6 alpha-methyl substituent to the receptor. 6-Methylene-4-pregnene-3,20-dione (V) fails to bind significantly to androgen and progesterone receptors thereby supporting the postulate that its antiprostatic activity stems primarily from 5 alpha-reductase inhibition.
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PMID:Prostate. III--A structural feature characteristic of the rat prostate 5 alpha-reductase active site. 270 37

Activities of several steroid metabolizing enzymes (steroid sulfate-sulfatase, 17 beta-hydroxysteroid dehydrogenase, 5 alpha-reductase, and 3 alpha beta-hydroxysteroid dehydrogenase) as well as total tissue content and subcellular distribution (nuclear-extranuclear) of several androgen precursors, active androgens, and androgen deactivation products (DHEA sulfate, DHEA, 5-androstenediol, 4-androstenedione, testosterone, DHT, and 3 alpha-androstanediol) were quantified in primary tumors and lymph node metastases of human prostatic cancer obtained from patients without previous endocrine manipulation. Primary tumors were compared to benign parts of the same prostates, and the metastases were compared to their primary tumors. All enzymes and steroids found in benign prostatic tissues could also be detected in the malignant tissues. Even the capacity to accumulate active androgens in the nuclei was found to be unchanged in nearly all of the samples. Lower activities of hormone-dependent enzymes were observed in the cancers, suggesting a less efficient utilization of hormonal stimuli. Most striking changes found in the malignant tissues were a subtotal loss of 5 alpha-reductase activity and a metabolic shift to testosterone, which was more pronounced in samples from metastatic disease as compared to samples from non-metastatic disease. In conclusion, primary tumors and metastases of prostatic cancers not treated by endocrine manipulations retain their androgen receptor system and possess the same capacity to metabolize adrenal androgen precursors along the pathway to DHT as benign prostatic tissue. Consequently, they should be able to use at least androstenedione for production of active androgens directly in the target tissue.
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PMID:Androgens, adrenal androgen precursors, and their metabolism in untreated primary tumors and lymph node metastases of human prostatic cancer. 285 35

The effectiveness of aminoglutethimide as an adrenal inhibitor has been well-documented by decreases in plasma testosterone and delta 4 levels, which fall significantly following the drug in previously orchiectomized patients. The use of cortisone or cortisol along with aminoglutethimide complicates the interpretation of the role of aminoglutethimide in effecting clinical responses. However, since physiologic replacement doses were used in most cases, a significant role for cortisone in effecting a clinical response is unlikely. Aminoglutethimide does have side-effects including rash and lethargy. It requires administration of replacement doses of cortisone and sometimes mineralocorticoid as well since it inhibits adrenal steroid synthesis in all pathways. Peripheral adrenal androgen inhibitors, such as flutamide, Megace, cyproterone acetate or 5 alpha-reductase inhibitors, in the future may be equally effective and simpler to administer than aminoglutethimide but objective and adequate numbers of studies using acceptable objective criteria must be done in order to adequately compare these drugs to aminoglutethimide. There appears to be approximately a 33% response rate (partial objective regression and objectively stable) following blockade of adrenal androgens in patients in relapse after castration. Blockade of adrenal androgen is certainly more tolerable and has many fewer side-effects than the alternative of chemotherapy which does not give response rates in most cases that are significantly different from those noted with aminoglutethimide. Murray's paper, combined with prior studies by Drago et al., goes a long way in establishing adrenal androgen blockade with that drug as the next step to be taken in patients following relapse from prior castration (medical or surgical). The most important question revolves around the timing of adrenal androgen blockade. As stated by Murray, will adrenal androgen blockade provide better survival if given earlier following relapse? The answer is not known yet. The answer may come from the work of Labrie [1], Geller and Albert [2] and others, who suggest that total survival in prostate cancer may be improved with blockade of adrenal androgens not after relapse following castration, but with panandrogen blockade at the time of initial therapy for prostate cancer.
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PMID:Adrenal androgen blockade in relapsed prostate cancer. 293 57

Total tissue content and subcellular distribution of DHEA sulfate, DHEA, androst-5-ene-3 beta,17 beta-diol, androst-4-ene-3,17-dione, testosterone, 5 alpha-DHT, and 5 alpha-androstane-3 alpha,17 beta-diol as well as the activities of steroid sulfate-sulfatase, 17 beta-hydroxysteroid dehydrogenase, 5 alpha-reductase, 3 alpha/beta-hydroxysteroid dehydrogenase, and creatine kinase were quantified in 12 untreated primary tumors of prostatic cancer. Samples were obtained by radical prostatectomy and serial sections, and were alternately used for either biochemical or morphological evaluation. The results were compared with values determined in benign parts of the same prostates. Qualitatively, all enzymes and steroids found in the benign tissues could also be demonstrated in the cancers. Steroid patterns showed individual quantitative variation but no general differences between the carcinomas and the benign tissues. Enzymes showed a tendency to lower activities in the cancers, particularly when expressed per DNA. Substantial diminutions of creatine kinase and 5 alpha-reductase activity, the latter being often accompanied by an increased testosterone/DHT ratio, were the most striking differences seen in most of the cases between malignant and nonmalignant tissues. Some interesting individual parallels of morphological and biochemical aspects were seen, but there was no obvious general parallelism between the histological picture and endocrinological characteristics.
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PMID:Quantitative assessment of endogenous testicular and adrenal sex steroids and of steroid metabolizing enzymes in untreated human prostatic cancerous tissue. 316 31


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