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)

17 alpha-Hydroxylase/C17-20-lyase (P450 17, CYP 17) and 5 alpha-reductase are the key enzymes in androgen biosynthesis and targets for the treatment of prostate cancer and benign prostatic hyperplasia. In the search of inhibitors for both enzymes, 23 pregnenolone- or progesterone-based steroids were synthesized bearing an oxime group connected directly or via a spacer to the steroidal D-ring. Tested for inhibition of human and rat P450 17, some pregnenolone (9, 11, 14) and a series of progesterone compounds (17-20) turned out to be highly active inhibitors of the human enzyme. The most active compound was Z-21-hydroxyiminopregna-5, 17(20)-dien-3 beta-ol (9) showing K(i) values of 44 and 3.4 nM for the human and rat enzymes, respectively, and a type II UV-difference spectrum indicating a coordinate bond between the oxime group and the heme iron. In contrast to the pregnenolones which showed no inhibition of 5 alpha-reductase isozymes 1 and 2, the progesterones 16, 17, 20, 21, and 23 showed marked inhibition, especially toward the type 2 enzyme. Compounds 17 and 20 were identified as potent dual inhibitors of both P450 17 and 5 alpha-reductase. Tested for selectivity, the most potent P450 17 inhibitors 9, 10, and 14 showed no or only marginal inhibition of P450 arom, P450 scc, and P450 TxA(2). Selected compounds were tested for inhibition of the target enzymes using whole-cell assays. Compounds 9-11 strongly inhibited P450 17 being coexpressed with NADPH-P450 reductase in E. coli cells, and 16, 20, and 23 markedly inhibited 5 alpha-reductase expressed in HEK 293 cells. Tested for in vivo activity, 9 (0.019 mmol/kg) decreased the plasma testosterone concentration in rats after 2 and 6 h by 57% and 44%.
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PMID:Synthesis and evaluation of novel steroidal oxime inhibitors of P450 17 (17 alpha-hydroxylase/C17-20-lyase) and 5 alpha-reductase types 1 and 2. 1106 22

Prostate cancer is a complex, multifactorial disease with genetic and environmental factors involved in its etiology. The search for genetic determinants involved in the disease has proven to be challenging, in part because such complex diseases are often not amenable to characterization by linkage analysis and positional cloning as is the case for diseases with simple Mendelian genetic inheritance. Prostate cancer susceptibility loci that have been reported so far include HPC1 (1q24-q25), PCAP (1q42-q43), HPCX (Xq27-q28), CAPB (1p36), HPC20 (20q13), HPC2/ELAC2 (17p11) and 16q23. Prostate cancer aggressiveness loci have also been reported (5q31-q33, 7q32 and 19q12). Further complicating the process is the existence of polymorphisms in several genes associated with prostate cancer including, AR, PSA, SRD5A2, VDR and CYP isoforms. These polymorphisms, however, are not thought to be highly penetrant alleles in families at high risk for prostate cancer. It is clear that prostate cancer etiology involves several genetic loci with no major gene accounting for a large proportion of susceptibility to the disease.
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PMID:Heterogeneity of genetic alterations in prostate cancer: evidence of the complex nature of the disease. 1167 16

17 alpha-hydroxylase-C17, 20-lyase (P450 17, CYP 17) is a key enzyme in androgen biosynthesis and a target for the treatment of prostate cancer. In order to find novel inhibitors for this enzyme, several compounds bearing different moieties able to complex with the heme iron located in the active site of the enzyme were synthesized. The moieties were introduced into the 16-position of pregnenolone and progesterone. Their inhibitory activities toward human and rat CYP 17 were determined and compared to the activities of the corresponding 17-substituted compounds. It became apparent that the 16-substituted compounds were less active than the parent compounds: they were either moderate or poor inhibitors of the target enzyme. Tested for inhibition of human 5 alpha-reductase 1 and 2--a target for the treatment of benign prostatic hyperplasia (BPH)--the title compounds showed some inhibitory activity.
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PMID:C16 and C17 substituted derivatives of pregnenolone and progesterone as inhibitors of 17alpha-hydroxylase-C17, 20-lyase: synthesis and biological evaluation. 1259 17

Aiming at the development of new drugs for the treatment of prostate cancer, the effects of steroidal compounds and one non-steroidal substance on androgen biosynthesis were evaluated in vitro and in vivo. Sa 40 [17-(5-pyrimidyl)androsta-5,16-diene-3beta-ol], its 3-acetyl derivate Sa 41 and BW 19 [3,4-dihydro-2-(4-imidazolylmethyl)-6-methoxy-1-methyl-naphthalene] are compounds from our group, which have been developed as inhibitors of CYP 17 (17alpha-hydroxylase-C17, 20-lyase, the key enzyme in androgen biosynthesis). They have been compared with CB 7598 [abiraterone: 17-(3-pyridyl)androsta-5,16-diene-3beta-ol], its 3-acetyl compound CB 7630 and ketoconazole, compounds which already have been used clinically. The most potent compound toward human CYP 17 (testicular microsomes) was Sa 40 (IC(50) value of 24 nM), followed by Sa 41, CB 7598, BW 19, CB 7630 and ketoconazole. Sa 40 shows a type II difference spectrum and a non-competitive type of inhibition (K(i) value of 16 nM). No recovery of enzyme activity was observed after preincubation of CYP 17 with Sa 40 and subsequent charcoal treatment. In Escherichia coli cells coexpressing human CYP 17 and NADPH-P450 reductase, Sa 40 was more active than CB 7598 and BW 19, whereas the acetyl compounds were not active. The latter three compounds were equally active towards rat CYP 17. Male Sprague-Dawley (SD) rats were administered daily for 14 days BW 19 and the acetyl derivatives Sa 41 and CB 7630 as prodrugs (0.1 mmol/kg intraperitoneally). The test compounds strongly reduced plasma testosterone concentration, as well as prostate and seminal vesicles weights. They showed moderate inhibitory effects on the weights of levator ani, bulbocavernosus and testes, whereas they led to an increase in adrenal and pituitary weights. The only exception was BW 19 which did not change pituitary weights. Based on its superiority on the human enzyme, it was concluded that Sa 40 in its 3beta-acetate form (Sa 41) could be a promising candidate for clinical evaluation.
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PMID:Effects of novel 17alpha-hydroxylase/C17, 20-lyase (P450 17, CYP 17) inhibitors on androgen biosynthesis in vitro and in vivo. 1276 80

Inhibition of CYP 17 is a promising strategy for the treatment of prostate cancer. Recently two non-steroidal compounds with high in vitro activity were synthesized in our group (BW19 and BW95). However, after a few hours they showed in vivo a strong decrease in their activity. This might be due to a fast biodegradation. Potential hydroxy and epoxy metabolites were synthesized and their inhibitory activities were tested by a new non-cellular assay using recombinant enzyme. As source, membrane fractions of E. coli pJL17/OR coexpressing human CYP 17 and rat NADPH-P450-reductase were, used. Showing a high and constant CYP 17 activity and a fast and easy isolation procedure the new method was advantageous compared with the microsomal assay. Interestingly, all the new synthesized hydroxy and epoxy compounds except one showed a lower inhibition of CYP 17 than the parent compounds. Thus, the loss of in vivo activity may be partly explained.
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PMID:Synthesis of hydroxy derivatives of highly potent non-steroidal CYP 17 inhibitors as potential metabolites and evaluation of their activity by a non cellular assay using recombinant human enzyme. 1520 89

Microsomal cytochrome P450 (CYP 450) enzyme aromatase belongs to CYP 19 super family. It is involved in the conversion of androgens to estrogens. In postmenopausal women the main sites of aromatisation are skin, adipose tissue and breast. Aromatase localized in breast tumor produces sufficient estrogen for its proliferation. Hence it is an important target for the treatment of hormone dependent breast cancer in postmenopausal women. There are mainly two types of aromatase inhibitors, one is steroidal another is nonsteroidal type. The first and second generation aromatase inhibitors encounter the undesirable drug- drug interactions besides being not very specific and plagued with pharmacokinetic problems. Third generation aromatase inhibitors developed recently are more potent and specific with a greater capacity to annihilate circulating estrogen levels. These agents have satisfactory pharmacokinetic profiles and are devoid of major drug-drug interactions. Third generation aromatase inhibitors became drugs of choice for both first and second line treatment of advanced breast cancer. Aromatase inhibitors can also be used for neoadjuvant therapy of breast cancer in which they have achieved better therapeutic efficacy than tamoxifen. Early results of ATAC (Armidex Tamoxifen Alone or Combination) trial suggest that anastrozole is superior to tamoxifen in adjuvant setting for disease free survival, particularly in receptor positive patients, and in reducing the incidence of contralateral breast cancer. Therapeutic potential of aromatase inhibitors stretches beyond the postmenopausal breast cancer treatment as they also play a role in the treatment of estrogen dependent benign and malignant conditions such as gynaecomastia, prostate cancer, fibroadenomata and the induction of ovulation. By virtue of their ability to reduce estrogen levels they pose problems like demineralization of bone, hot flushes and anti-implantation effects.
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PMID:Aromatase inhibitors: a new paradigm in breast cancer treatment. 1557 17

The cytochrome P450 monooxygenase enzyme system is involved in the synthesis and/or degradation of a large number of endogenous compounds and in the biotransformation of drugs and other xenobiotics. 17alpha-Hydroxylase-C17,20-lyase (P450 17, CYP 17) is the key enzyme of the androgen biosynthesis. As androgens have been implicated in the development and progression of prostate cancer, this enzyme has become a promising therapeutic target. This paper will review the possible approaches dealing with P450 17 inhibition as a chemotherapeutic strategy in the struggle against prostate cancer.
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PMID:Inhibition of p450 17 as a new strategy for the treatment of prostate cancer. 1602 62

CYP 1B1 is involved in metabolizing both polycyclic aromatic hydrocarbons and estradiol to potentially carcinogenic intermediates, and it is also over-expressed in human cancer cells. In order to investigate whether flavonoids could specifically inhibit CYP 1B1, seven flavonoids in St. John's wort and apigenin were screened for their inhibition of recombinant human CYP 1B1 and CYP 1A1. While seven flavonoids (myricetin, apigenin, kaempferol, quercetin, amentoflavone, quercitrin and rutin) were slightly more selective for CYP 1B1 EROD inhibition (K(i)s 0.06-5.96 microM) compared to CYP 1A1 (K(i)s 0.20-1.6 microM) the difference in K(i)s for the P450s were not significantly different. Rutin did not inhibit CYP 1A1 at concentrations up to 10 microM. Kinetic analyses determined that apigenin and amentoflavone were competitive inhibitors of CYP 1B1, while quercetin showed mixed type inhibition. To characterize the inhibition potential of these flavonoids, five were studied further for their ability to inhibit TCDD-induced EROD activity in 22Rv1 human prostate cancer cells. 22Rv1 cells express constitutive and TCDD-inducible CYP 1A1 and CYP 1B1 mRNA. In the cells, the IC(50)s were similar to those measured for the recombinant CYP 1A1 except for amentoflavone. Quercetin (IC(50): 4.1 microM), kaempferol (3.8 microM), myricetin (3.0 microM) and apigenin (3.1 microM) caused significant inhibition of EROD activity whereas amentoflavone did not cause inhibition. Depending on their bioavailability, flavonoids that can selectively inhibit CYP1 enzymes may be useful as chemoprotective agents in prostate cancer prevention.
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PMID:Inhibition of human cytochrome CYP 1 enzymes by flavonoids of St. John's wort. 1627 22

CYP17 is a steroidogenic enzyme located in the zona fasciculata and zona reticularis of the adrenal cortex and gonad tissues and which has dual functions - hydroxylation and as a lyase. The first activity gives hydroxylation of pregnenolone and progesterone at the C(17) position to generate 17alpha-hydroxypregnenolone and 17alpha-hydroxyprogesterone, while the second enzymic activity cleaves the C(17)-C(20) bond of 17alpha-hydroxypregnenolone and 17alpha-hydroxyprogesterone to form dehydroepiandro-sterone and androstenedione respectively. The modulation of these two activities occurs through cytochrome b(5). Association of cytochrome b(5) and CYP17 is thought to be based primarily on electrostatic interactions in which the negatively charged residues pair up with positively charged residues on the proximal surface of the CYP17 molecule. Non-specific interactions of the hydrophobic membrane regions of cytochrome b(5) and CYP17 are also thought to play a crucial role in the association of these two haemoproteins. Although cytochrome b(5) is known to stimulate CYP activity by contributing the second electron in the catalytic cycle, in the case of CYP17, the mechanism of cleavage stimulation proceeds via an allosteric mode. It is hypothesised that cytochrome b(5) promotes the cleavage by aligning the iron-oxygen complex attack onto the C(20) rather than the C(17) atom of the steroid substrate molecule. Thus, further understanding of the mechanism of modulation by cytochrome b(5) of the hydroxylase and lyase activities should shed new insights on developing therapeutic targets in CYP17-linked biochemical processes such as adrenarche, polycystic ovary syndrome and prostate cancer.
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PMID:Cytochrome b(5) modulation of 17{alpha} hydroxylase and 17-20 lyase (CYP17) activities in steroidogenesis. 1629 74

Elevated serum androgens are associated with increased prostate cancer risk. Tomato consumption is also associated with reduced prostate cancer incidence, and the primary tomato carotenoid, lycopene, may modulate androgen activation in the prostate, yet little is known about other tomato carotenoids. To evaluate interrelations between phytofluene, lycopene, or tomato powder consumption and androgen status, 8-wk-old male F344 rats (fed a control AIN 93G diet) were castrated or sham-operated and subsequently provided with daily oral supplementation of phytofluene or lycopene ( approximately 0.7 mg/d) or fed a 10% tomato powder supplemented diet (AIN 93G) for 4 d. Sham-operated rats provided with either phytofluene, lycopene, or tomato powder had approximately 40-50% lower serum testosterone concentrations than the sham-operated, control-fed group. Tissue and serum phytofluene and lycopene concentrations were greater in castrated rats than in sham-operated rats, which may have been due in part to a decrease of hepatic CYP 3A1 mRNA expression and benzyloxyresorufin-O-dealkylase activity. Some changes in prostatic and testicular steroidogenic enzyme mRNA expression were found; in particular, prostate 17 beta-hydroxysteroid dehydrogenase 4 mRNA expression in castrated rats fed lycopene or tomato powder was 1.7-fold that of the sham-operated, control-fed group. Modest changes in mRNA expression of steroidogenic enzymes with short-term carotenoid intake may alter the flux of androgen synthesis to less potent compounds. Overall, results illustrate that short-term intake of tomato carotenoids significantly alters androgen status, which may partially be a mechanism by which tomato intake reduces prostate cancer risk.
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PMID:Serum testosterone is reduced following short-term phytofluene, lycopene, or tomato powder consumption in F344 rats. 1705 6


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