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)

Prostate cancer chemoprevention can be described as the administration of natural products and pharmaceutical agents that inhibit one or more steps in the natural history of prostatic carcinogenesis. The principle components of the chemoprevention strategy are closely connected to this natural history and include: (a) agents and their molecular targets; (b) strategic intermediate endpoint biomarkers (IEBs) and their critical pathways; (c) cohorts identified by genetic and acquired risk factors and (d) efficient designs that combine these elements into a cohesive clinical trial. The primary goal is to find effective noncytotoxic agents that modulate the promotion and progression from normal epithelium to dysplasia to high-grade prostatic intraepithelial neoplasia (HGPIN) to locally invasive cancer and metastatic disease. Another important target for chemoprevention is to modulate progression to clinically aggressive disease and to maintain an androgen-sensitive clinical state and delay the emergence of androgen resistance. There is a rationale for use of antiandrogens as the lead class, e.g., 5 alpha receptor inhibitors (5ARI), for chemoprevention of prostate cancer. Nevertheless, the desire to improve the therapeutic index, achieve synergy (5ARI may have only modest anticancer effects) and prevent the emergence of drug (androgen) resistance provide incentives for developing other effective agents and combinations. The availability of more than a dozen classes of noncytotoxic pharmaceutical and natural products already in clinical development create many opportunities for rational combination therapy. Several agent classes have a pharmacodynamic basis for combination with antiandrogens including antiproliferatives, selective estrogen receptor modulators (SERMs), proapoptotic antioxidant micronutrients and selective cyclo-oxygenase (COX)-2 inhibitors. Many other rational pharmacodynamic combinations without antiandrogens are feasible. It is anticipated that in the future, a selective COX-2 inhibitor may be combined with other agent classes such as proapoptotic antioxidant micronutrients, receptor tyrosine kinase modulators, antiangiogenic modulators, antiproliferative/differentiating agents, NFkappaB modulators, IGF-1 modulators and other novel proapototic nonsteroidal drugs. A novel target for rational combinations is the hypermethylation of GST-PI leading to functional silencing of this key anticarcinogen defense enzyme in precursors (HGPIN) and prostate cancer. Factorial designs are well suited for evaluating the individual and combined effects of each agent in a single trial design. There are a number of moderate to high-risk cohorts and clinical models of primary and secondary prevention that can be employed in both short-term developmental (translational) trials for proof of biologic activity and in intermediate sized longer-term chemoprevention trials for proof of efficacy against prostate cancer. Strategic IEBs are needed to more efficiently monitor short-term biologic activity and validate efficacy. The emergence of new powerful tools such as gene chip cDNA microarrays for multiplex gene expression profiling and proteomic analysis of tissue based and secreted proteins will accelerate the identification of new molecular targets, strategic endpoints, cohorts at risk and the design of rational combination trials.
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PMID:Chemoprevention of prostate cancer: current status and future directions. 1254 68

Steroid hormones and their receptors are involved as initiators or promoters in prostate carcinogenesis. The intrauterine-perinatal period and maternal estrogen and testosterone levels have been proposed to be of etiologic importance in prostate tumorigenesis and cancer progression. The objective of this study was to analyze genetic polymorphisms in the androgen receptor ARStuI by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and in the estrogen receptor ER325 by PCR-single-strand conformational polymorphism (PCR-SSCP). In our study of 170 prostate cancer patients, ARStuI and ER325 genotypes and their association with disease progression and metastasis were analyzed. Age-adjusted logistic regression analysis indicates the association of ARStuI S1 allele with high-grade tumor (P = 0.033; OR = 3.0, 95% CI = 1.1-8.3) and the association of ER325 with high-grade tumor (P = 0.003; OR = 3.0, 95% CI = 1.4-6.4), advanced disease (P = 0.020; OR = 2.4, 95% CI = 1.1-5.1), risk of progression (P = 0.027; OR = 2.5, 95% CI = 1.1-5.7) and the presence of metastatic disease (P = 0.006; OR = 3.1, 95% CI = 1.4-6.8). In summary, this study has demonstrated androgen receptor (ARStuI) and estrogen receptor (ER325) genetic polymorphisms in prostate cancer patients and its association with disease progression and metastasis. Our results support the hypothesis that genetic factors related to steroid hormone receptors may influence the behavior of human prostate cancer.
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PMID:Steroid hormone genotypes ARStuI and ER325 are linked to the progression of human prostate cancer. 1260 25

This paper gives an overview of our own studies and the literature on the biosynthesis and metabolism of estrogens in elderly men, the estrogen action in the male, and the clinical usefulness of estrogen therapy, including the phytoestrogens. Finally, the paper includes a short review of our knowledge of xenoestrogens and men's sexual health. A strong estrogen-deficient status is seen in male patients with mutations of the estrogen receptors or in cases of deviations of the aromatase gene. On the other hand, there are no clear age-dependent changes in estrogen secretion. But, in men with disorders of glucose metabolism and also of increased body mass index, the serum estrogen concentrations are significantly elevated. There are also strong positive correlations between serum estrogen levels and bone density, including prevalence of fractures and mood in men. New fields of interest are natural fatty esters of endogenous estrogens, e.g. lipoprotein-associated estrogens, and the role and clinical significance of tissue-specific, local estrogen biosynthesis (e.g. different promoters of the aromatase gene). Exogenous estrogen treatment is focused today on patients with normal testosterone and low levels of circulating estrogens documented on several occasions and with clinical symptoms of hormone deficiency; male-to-female transsexuals; and selected patients with prostate cancer. Some clinical studies show the benefits of estrogen treatment on some cardiovascular parameters and for treating selected signs of mental stress. An indirect estrogen replacement can occur if dehydroepiandrosterone is given orally to men. The clinical usefulness of dissociated estrogens, including non-feminizing estrogens and selective estrogen receptor modulators, is still an open question. The beneficial action of phytoestrogens in lowering the clinical symptoms of benign prostatic hyperplasia is well documented. Finally, the question about the definitive influence of so-called endocrine disruptors (xenoestrogens) on sexual functions in men is also discussed.
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PMID:Is there a role for estrogens in the maintenance of men's health? 1263 73

SHP-1, an SH2 domain-containing protein tyrosine phosphatase, is primarily expressed in hematopoietic cells and behaves as a key regulator controlling intracellular phosphotyrosine levels in lymphocytes. SHP-1 has been proposed as a candidate tumor suppressor gene in lymphoma, leukemia and other cancers, as it functions as an antagonist to the growth-promoting and oncogenic potentials of tyrosine kinase. The decreased levels of SHP-1 protein and SHP-1 mRNA observed in various leukemia and lymphoma cell lines have been attributed to either the methylation of the promoter region of the SHP-1 gene or the post-transcriptional block of SHP-1 protein synthesis. In contrast, SHP-1 protein is normally or over-expressed in some non-lymphocytic cell lines, such as prostate cancer, ovarian cancer and breast cancer cell lines. SHP-1 expression also is decreased in some breast cancer cell lines with negative expression of estrogen receptor as well as some prostate and colorectal cancer cell lines. These data suggest that SHP-1 can play either negative or positive roles in regulating signal transduction pathways. Dysfunction in SHP-1 regulation can cause abnormal cell growth and induce different kinds of cancers. In this paper, we summarize recent studies on the expression and regulation of SHP-1 protein and its pathological function in the development of lymphoma, leukemia and other cancers.
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PMID:The function of the protein tyrosine phosphatase SHP-1 in cancer. 1265 62

Relatively new targets in drug design projects in cancer pharmacology include cytostatic agents, immune system modulators, and angiogenesis inhibitors. Preventive oncology applies pharmacological agents to reverse, retard, or halt progression of neoplastic cells to invasive malignancy. Prevention of cancer, however, can be accomplished through many strategies, including changes in diet and lifestyle. For example, the vast majority of lung cancers (80-90%) can be attributed to cigarette smoking and therefore, the most effective primary preventive strategy for lung cancer is to quit smoking. Chemoprevention through interruption of multistage careinogenesis include different molecular targets. Selective estrogen receptor modulators (SERMs) act as estrogen receptor (ER) agonists. Ligands for the peroxisome proliferator-activated receptor gamma (PPAR-gamma) suppress breast carcinogenesis in experimental models and induce differentiation of human liposarcoma cells. Selective PPAR modulators (SPARMs), by analogy to the SERM concept, are designed to have desired effects on specific genes relevant to carcinogenesis. Enzymatic approach in endocrine-related tumors involve inhibition of aromatase to prevent breast cancer and inhibition of 5-alpha-reductase to prevent prostate cancer. Down-regulation of inflammatory prostaglandin synthesis by inhibition of cyclooxygenase-2 (COX-2). inhibition of the inducible nitric oxide synthase (iNOS), and stimulation of phase II detoxication system, are currently examined in experimental models and clinical trials. Overall, potential targets in preventive strategies to reduce the risk of cancer involve agonists of endocrine receptors, factors down-regulating inflammation, factors inducing programmed cell death (PCD)/apoptosis, enzymatic inhibitors and gene therapy.
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PMID:Current strategies for anticancer chemoprevention and chemoprotection. 1266 76

The development of chemoprevention strategies against prostate cancer would have the greatest overall impact both medically and economically against prostate cancer. Estrogens are required for prostate carcinogenesis. Estrogenic stimulation through estrogen receptor alpha in a milieu of decreasing androgens contributes significantly to the genesis of benign prostatic hyperplasia, prostate dysplasia, and prostate cancer. The ability of antiestrogens and selective estrogen receptor modulators (SERMs) to delay and to suppress prostate carcinogenesis is supported by preclinical, clinical, and epidemiological studies. SERMs have many features that make them attractive candidates for prostate cancer chemoprevention including their favorable safety profile and efficacy in preclinical prostate cancer models. The true clinical benefits of SERMs for chemoprevention to prevent prostate cancer, however, should continue to be investigated through human clinical trials. A phase IIb/III human clinical trial is currently evaluating safety and efficacy of toremifene, a SERM, in men who have high-grade prostatic intraepithelial neoplasia.
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PMID:Antiestrogens and selective estrogen receptor modulators reduce prostate cancer risk. 1275 92

The androgen receptor (AR) is a ligand-dependent transcription factor whose activity is required for prostate cancer proliferation. Because ablation of AR activity is a critical goal of prostate cancer therapy, much emphasis has been placed on understanding the accessory proteins that regulate AR function in the prostate. Several co-activators have been shown to be required for full AR activity, including histone acetyl-transferases and TRAP/mediator complexes. SWI/SNF comprises a family of large, multisubunit complexes present in the cell, which contain one of two core ATPases required for nucleosome re-positioning, BRG1 or hBRM. We investigated the specific requirement of the SWI/SNF core ATPases for AR function. Using cells deficient in both BRG1 and hBRM, we show that activation of one AR target promoter, prostate-specific antigen (PSA), requires SWI/SNF chromatin remodeling for activity. A second AR target promoter, probasin, maintained a low level of activation in the absence of SWI/SNF. AR stimulation on the probasin core promoter could be partially induced with BRG1, but hBRM strongly stimulated AR activity. The PSA promoter was only induced by the restoration of hBRM. In contrast, ligand-dependent activation of the estrogen receptor was equally stimulated by BRG1 or hBRM. We demonstrate that the addition of a known enhancer region to the core PSA promoter bypasses the requirement for SWI/SNF on the PSA promoter, indicating that elements upstream of specific proximal promoters can impact the influence of the SWI/SNF complex on target gene activation. Addition of the enhancer to the probasin core promoter failed to impact the SWI/SNF requirement. In summary, SWI/SNF function potently regulates core AR target gene promoter activation, with a preference for hBRM-containing complexes. These studies highlight a role for the enhancer in altering the impact of SWI/SNF action and suggest a disparity in AR target genes for SWI/SNF requirement.
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PMID:Differential requirement of SWI/SNF for androgen receptor activity. 1277 22

BACKGROUND: Steroid hormone receptors (SHRs) are members of the superfamily of ligand-activated transcription factors that regulate many biological processes. Co-regulators act as bridging molecules between the SHR and general transcription factors to enhance transactivation of target genes. Previous studies demonstrated that Stat3 is constitutively activated in prostate cancer and can enhance prostate specific antigen (PSA) expression and promote androgen independent growth. In this study, we investigate whether Stat3 can enhance steroid hormone receptors activation. METHODS: CV-1 cells in which plasmids expressing androgen receptor (AR), glucocorticoid receptor (GR), progesterone receptor (PR) or estrogen receptor (ER) were cotransfected with a constitutively active STAT3 mutant. RESULTS: Stat3 stimulates the transcriptional activity of all four SHR tested, AR, GR, PR and ER, in a hormone-dependent manner. Stat3 acts in a synergistic fashion with other coactivators such as SRC-1, pCAF, CBP, and TIF-2 on the transcriptional activity of these SHR. In addition, Stat3 significantly enhanced the sensitivity of androgen receptor in response to androgen. STAT3 did not affect the specificity of AR for other steroid hormones other than androgen or binding of AR to other hormone responsive elements. CONCLUSIONS: These findings suggest that Stat3 can enhance the transactivation of AR, GR, PR and ER, and activated Stat3 could have a role in the development or progression of a hypersensitive AR.
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PMID:Stat3 enhances transactivation of steroid hormone receptors. 1290 56

The third isoform of metallothionein (MT-3) is overexpressed in some breast cancers and its expression is associated with a poor disease outcome. In the PC-3 prostate cancer cell line, MT-3 expression has been shown to inhibit cell growth and increase drug resistance. The goal of the present study was to determine if MT-3 overexpression would influence the growth of human breast cancer cell lines. To determine this, the coding sequence of the MT-3 gene was stably transfected into two estrogen receptor positive (MCF-7 and T-47D) and two estrogen receptor negative cell lines (Hs578T and MDA-MB-231) having no basal expression of MT-3. Cell growth was determined by counting DAPI-stained nuclei, cadmium resistance by the colony formation assay, MT mRNA expression by RT-PCR, and MT protein by immuno-blot. It was demonstrated that MCF-7 and Hs578T cells that overexpress the MT-3 gene were growth inhibited compared to untransfected cells. In contrast, T-47D and MDA-MB-231 cells that overexpress MT-3 were not growth inhibited. Stable transfection of the MT-1E gene had no effect on the growth of any of the four cell lines. It was also demonstrated that the overexpression of both MT-3 and MT-1E only increased the resistance of MCF-7 cells to Cd(+2). In all instances, stable transfection of the MT-3 or MT-1E gene had no effect on the expression of the other MT isoforms. The study shows that MT-3 can influence the growth of some breast cancer cell lines.
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PMID:Stable transfection and overexpression of metallothionein isoform 3 inhibits the growth of MCF-7 and Hs578T cells but not that of T-47D or MDA-MB-231 cells. 1290 21

For a number of solid tumors, including pancreatic cancer, efforts aimed at disease prevention may be more successful than currently available anticancer treatments. While specific interventions are emerging to prevent breast, prostate, lung, and colorectal cancer, no trials of chemoprevention are being conducted in pancreatic cancer. Importantly, there are significant obstacles to the conduct of such research. However, preclinical and epidemiologic studies suggest that several drugs may have chemopreventive potential in pancreatic cancer. These include aspirin and other non-steroidal antiinflammatory drugs (NSAIDs), selective cyclooxygenase inhibitors, somatostatin analogs, selective estrogen receptor modulators (SERMs), and anti-androgenic agents. As the oncology community evaluates some of these agents in large chemoprevention trials for breast, colon, and prostate cancer, it may be found that pancreatic cancer prevention occurs as an unintended, but desirable consequence. Moreover, other general societal trends, such as smoking cessation and the widespread use of cholesterol-lowering agents and aspirin, could have a role in reducing the risk of pancreatic cancer, and in the future, may lead to a decrease in its incidence.
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PMID:Chemoprevention for pancreatic cancer. 1290 36

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