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)

A number of genetic changes have been documented in prostate cancer, ranging from allelic loss to point mutations and changes in DNA methylation patterns (summarized in Fig. 1). To date, the most consistent changes are those of allelic loss events, with the majority of tumors examined showing loss of alleles from at least one chromosomal arm. The short arm of chromosome 8, followed by the long arm of chromosome 16, appear to be the most frequent regions of loss, suggesting the presence of novel tumor suppressor genes. Deletions of one copy of the Rb and p53 genes are less frequent, as are mutations of the p53 gene, and accumulating evidence suggests the presence of an additional tumor suppressor gene on chromosome 17p, which is frequently inactivated in prostate cancer. Alterations in the E-cadherin/alpha-catenin-mediated cell-cell adhesion mechanism appear to be present in almost half of all prostate cancers and may be critical to the acquisition of metastatic potential of aggressive prostate cancers. Finally, altered DNA methylation patterns have been found in the majority of prostate cancers examined, suggesting widespread alterations in methylation-modulated gene expression. The presence of multiple changes in these tumors is consistent with the multistep nature of the transformation process. Finally, efforts to identify prostate cancer susceptibility loci are under way and may elucidate critical early events in prostatic carcinogenesis.
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PMID:Genetic alterations in prostate cancer. 758 26

The genetic background underlying the growth and development of human prostatic cancer is not yet clear. Here we searched for possible mutations in the entire coding region of tumor suppressor gene p53 in primary human prostatic carcinomas, using polymerase chain reaction and single-strand conformational polymorphism analysis of RNA. We found p53 gene mutations in 4 of 21 cases (19%). DNA sequencing of the polymerase chain reaction products revealed missense point mutations that resulted in amino acid changes in exon 5 or 3 in three cases and single base deletions in exon 7 in two cases. One case contained both a missense point mutation and a single base deletion. Three of these four cases were pathologically diagnosed as poorly differentiated adenocarcinomas, and three of the four cases were clinically localized to stage C or D. None of seven noncancerous prostate tissues nor three well-differentiated adenocarcinoma tissues showed any mutations. The present results suggest that p53 gene mutation is involved in the late progression steps of human prostate carcinogenesis.
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PMID:Tumor suppressor gene p53 mutations in human prostate cancer. 760 13

Prostatic carcinoma from 65 patients have been examined for the occurrence of point mutations in the p53 tumor suppressor gene locus within the region of exons 5 to 8. Overall, only a small fraction of tumors (12.3%) was found to contain p53 mutations. No significant correlation was detected between the presence of the mutant gene and either tumor volume or histopathological grade. However, metastatic prostatic tumors are found to display a higher percentage (21.4%) of p53 mutations compared with primary adenocarcinomas (9.8%). Analysis of the topographical distribution of the p53 mutant genotype revealed two remarkable findings. First, multifocal tumors within a prostate appear to differ in harboring the mutant gene, and second, evidence is obtained for intratumor heterogeneity in the distribution of the mutant p53 allele. Together these findings appear to explain, at least in part, why there has been a wide discrepancy in the reported detection frequency of p53 mutations in prostate cancer specimens. It appears that the outcome of mutation analysis would depend not only on which tumors but also which regions of the tumors are included in the study. Furthermore, the observed heterogeneous topographical distribution of the mutation, if confirmed to be unique to prostate cancer, may have important implications in the understanding of the biology of prostate carcinogenesis.
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PMID:Heterogeneity in intratumor distribution of p53 mutations in human prostate cancer. 760 88

PSK, a protein-bound polysaccharide obtained from cultured mycelia of Coriolus versicolor in basidiomycetes, is a biological response modifier, diverse operations of which include an antitumor action. We have previously reviewed recent research which had demonstrated that in animals, PSK has a preventive effect on chemical carcinogen-induced, radiation-induced, and spontaneously developed carcinogenesis (Kobayashi et al., Cancer Epidemiol., Biomarkers & Prev., 2: 271-276, 1993). We now focus on the effects of PSK once the progression of carcinogenesis has begun, and review what is now known of the preventive action of PSK on cancer metastasis. Recent research reports that PSK suppresses pulmonary metastasis of methylcholanthrene-induced sarcomas, human prostate cancer DU145M, and lymphatic metastasis of mouse leukemia P388, and that it has prolonged the survival period in spontaneous metastasis models. PSK also suppresses the metastasis of rat hepatoma AH60C, mouse colon cancer colon 26, and mouse leukemia RL male 1 in artificial metastasis models. PSK influences the steps of cancer metastasis in a number of ways: (a) by suppression of intravasation through the inhibition of tumor invasion, adhesion and production of cell matrix-degrading enzymes; (b) by suppression of tumor cell attachment to endothelial cells through the inhibition of tumor cell-induced platelet aggregation; (c) by suppression of tumor cell migration after extravasation through the inhibition of tumor cell motility; and (d) by suppression of tumor growth after extravasation through the inhibition of angiogenesis, the modulation of cytokine production, and the augmentation of effector cell functions. In addition, PSK has suppressed the malignant progression of mouse tumor cells through superoxide trapping.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Antimetastatic effects of PSK (Krestin), a protein-bound polysaccharide obtained from basidiomycetes: an overview. 760 3

A number of genetic changes have been documented in prostate cancer, ranging from allelic loss to point mutations and changes in DNA methylation patterns (summarized in Fig. 1). The most consistent changes seen are those of allelic loss events, with the majority of tumours examined showing loss of alleles from at least one chromosomal arm. The short arm of chromosome 8, followed by the long arm of chromosome 16, seem to be the most frequent regions of loss, suggesting the presence of novel tumour suppressor genes. Deletions of one copy of the RB and TP53 genes are less frequent as are mutations of the TP53 gene, and accumulating evidence suggests the presence of an additional tumour suppressor gene on chromosome 17p, which is frequently inactivated in prostate cancer. Alterations in the E-cadherin/alpha catenin mediated cell-cell adhesion mechanism appear to be present in almost half of all prostate cancers and may be critical to the acquisition of metastatic potential of aggressive prostate cancers. Finally, altered DNA methylation patterns have been found in the majority of prostate cancers examined, suggesting widespread alterations in methylation modulated gene expression. The presence of multiple changes in these tumours is consistent with the multistep nature of the transformation process. Finally, efforts to identify prostate cancer susceptibility loci are under way, which may elucidate critical early events in prostatic carcinogenesis.
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PMID:Molecular biology of prostate cancer progression. 762 57

Stromal-epithelial interaction has a fundamental role in determining normal prostate development. Aberrant interaction between stroma and epithelium in the prostate is thought to contribute to neoplastic progression. Using a cell-cell interaction model, we observed that an inductive fibroblast cell line derived from fetal urogenital sinuses can confer growth responsiveness to androgen in both prostate and non-prostate epithelial cells in vivo. This concept was applied to test whether inductive stromal cells from bone or prostate alter cancer growth and metastasis. We observed that when a non-tumorigenic stromal cell line derived from a human osteosarcoma interacted with a non-tumorigenic androgen dependent prostate cancer cell line (LNCaP) in vivo, there was a marked alteration of both genotypes and phenotypes of the subsequently derived LNCaP sublines. One such subline, C4-2, acquired androgen independence as well as osseous-metastatic potential. These results support the concept that "genomic adaptation" is the most likely mechanism to explain the phenomenon of prostate cancer cell lines being permanently altered as a result of stromal-epithelial interaction in vivo. The establishment and further refinement of this cell-cell interaction model will allow us to define the roles of growth factors, growth factor receptors and extracellular matrices in prostate carcinogenesis. This approach could lead to the development of new therapeutic modalities that influence the rate of human prostate cancer progression.
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PMID:The role of stromal-epithelial interaction in normal and malignant growth. 762 72

Seven studies that have reported on the prevalence of anogenital types of the human papillomavirus in prostate cancer, benign prostatic hypertrophy and normal prostatic tissue are reviewed. When the data were combined, 32% of the cancers were positive, compared to 49% of the benign lesions and 9% of the normal tissue. The highest positivity rates were found in the earlier studies, and the more recent results have been more negative. The finding of higher rates in benign compared to malignant tissue and the failure of confirmatory studies to support earlier reports make it unlikely that the common anogenital papillomaviruses have an important role in prostate carcinogenesis. More work is needed to decide if the prostate is a significant reservoir for the papillomavirus in the male.
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PMID:Human papillomavirus infection of the prostate. 762 77

Cyproterone acetate (CPA) is a synthetic steroid hormone used in the therapy of prostate cancer in men and different forms of acne and hirsutism in women. CPA has been shown by 32P-postlabeling analysis to bind covalently to hepatic DNA of rats in vivo and in vitro. A prerequisite for DNA adduct formation of CPA is metabolic activation of the drug to a reactive intermediate. In the present study bile was collected from [3H]CPA-treated female rats and, following chromatographic separation of bile extracts, fractions of the eluate were examined for the presence of reactive metabolites which were able to form adducts with calf thymus DNA in vitro. The formation of adducts was detected by 32P-postlabeling analysis. One major metabolite of CPA present in the bile extracts was isolated and, following a thorough structural elucidation by mass spectrometry and 1H-NMR, this metabolite was identified as 3 alpha-hydroxy-cyproterone acetate (3 alpha-OH-CPA). This metabolite was able to form the same major adduct in vitro which has been observed before in CPA-treated rats in vivo and in rat hepatocytes in vitro. A number of already known or putative metabolites of CPA were available as authentic standards and these were also examined for their propensity to form adducts in vitro. A positive result was obtained for 3-O-acetyl-cyproterone acetate, which formed the same major adduct as 3 alpha-OH-CPA. However, the presence of this putative metabolite in rat bile could not be demonstrated. Besides 3 alpha-OH-CPA, additional reactive metabolites of CPA were present in the bile extracts, however, since these were only minor components, their chemical structures could not be elucidated.
Carcinogenesis 1995 Aug
PMID:Identification of 3 alpha-hydroxy-cyproterone acetate as a metabolite of cyproterone acetate in the bile of female rats and the potential of this and other already known or putative metabolites to form DNA adducts in vitro. 763 11

We investigated the effects of inositol hexaphosphate (InsP6) on growth inhibition and differentiation of human prostate cancer cells PC-3 in vitro. A significant dose- and time-dependent growth inhibition was observed as tested by the MTT-incorporation assay (P < 0.05 at 1 mM InsP6 after 24 h treatment, P < 0.01 at 0.1 mM after 3 days). DNA synthesis as determined by [3H]thymidine incorporation assay was also suppressed by InsP6 in a dose-dependent manner, occurring as early as 3 h after treatment and continuing up to 48 h (P < 0.01 at 1 mM InsP6). A 9- to 10-fold increase (P < 0.01) in expression of HLA class I molecule associated with tumor immunosurveillance and cell differentiation was induced by InsP6. The marker for prostatic cell differentiation, prostate acid phosphatase, was significantly (P < 0.05) increased after 48 h treatment at 0.5-5 mM InsP6. Since InsP6 strongly inhibits growth and induces differentiation in human prostate cancer cells in vitro, in vivo studies using a tumor xenograft model and a prostate carcinogenesis model are warranted to validate the efficacy of InsP6 in the treatment and prevention of prostate cancer.
Carcinogenesis 1995 Aug
PMID:Inositol hexaphosphate inhibits growth and induces differentiation of PC-3 human prostate cancer cells. 763 29

N-4-Hydroxyphenylretinamide (fenretinide or 4HPR), a derivative of retinoic acid, has been demonstrated to decrease the development of prostate cancer in a rat carcinogenesis model. This study was undertaken to determine if 4HPR is an effective agent for the treatment of established prostate cancer. In vitro, 4HPR was cytotoxic to rat and human prostate cancer cells as well as endothelial cells. Utilizing three different angiogenesis inhibition assays, it was demonstrated that 4HPR inhibited angiogenesis as well as endothelial cell motility and tubule formation. In vivo, 4HPR inhibited prostate cancer growth in a significant manner. These findings suggest that 4HPR may be a potent inhibitor of early prostate cancer growth.
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PMID:Treatment of prostate cancer in the rat with the synthetic retinoid fenretinide. 767 70

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