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)

Despite the growing interest in selenium intervention of prostate cancer in humans, scanty information is currently available on the molecular mechanism of selenium action. Our past research indicated that methylseleninic acid (MSA) is an excellent reagent for investigating the anticancer effect of selenium in vitro. The present study was designed to examine the cellular and molecular effects of MSA in PC-3 human prostate cancer cells. After exposure to physiological concentrations of MSA, these cells exhibited a dose- and time-dependent inhibition of growth. MSA retarded cell cycle progression at multiple transition points without changing the proportion of cells in different phases of the cell cycle. Flow cytometric analysis of annexin V- and propidium iodide-labeled cells showed a marked induction of apoptosis by MSA. Array analysis with the Affymetrix human genome U95A chip was then applied to profile the gene expression changes that might mediate the effects of selenium. Gene profiling was done in a time course experiment (at 12, 24, 36, and 48 h) using synchronized cells. A large number of potential selenium-responsive genes with diverse biological functions were identified. These genes fell into 12 clusters of distinct kinetics pattern of modulation by MSA. The expression changes of 10 genes known to be critically involved in cell cycle regulation were selected for verification by Western analysis to determine the reliability of the array data. An agreement rate of 70% was obtained based on these confirmation experiments. The array data enabled us to focus on the role of potential key genes (e.g., GADD153, CHK2, p21(WAF1), cyclin A, CDK1, and DHFR) that might be targets of MSA in impeding cell cycle progression. The data also provide valuable insights into novel biological effects of selenium, such as inhibition of cell invasion, DNA repair, and stimulation of transforming growth factor beta signaling. The present study demonstrates the utility of a genome-wide analysis to elucidate the mechanism of selenium chemoprevention.
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PMID:Delineation of the molecular basis for selenium-induced growth arrest in human prostate cancer cells by oligonucleotide array. 1251 77

Understanding processes regulating prostate cancer cell survival is critical to management of advanced disease. We used prostate cancer cell transfectants genetically modified to be deficient in either endogenous fibroblast growth factor (FGF-1) or endogenous FGF-2 to examine FGF maintenance of transfectant survival and proliferation and FGF-2-regulated expression of transfectant growth arrest DNA damage (GADD) and growth arrest sequences (GAS) family genes (known modulators of cell cycle progression and survival) and the AS3 gene (an androgen-modulated effector of prostate cell proliferation). When propagated in the absence of exogenous FGFs, FGF-2-deficient transfectants undergo exponential death, whereas FGF-1-deficient transfectants proliferate. Exogenous FGF-1, FGF-2, FGF-7, or FGF-8 promote survival and proliferation of FGF-2-deficient transfectants and enhance FGF-1-deficient transfectant proliferation. Transfectants express FGF receptor FGFR1, FGFR2(IIIb), FGFR2(IIIc), and FGFR3 transcripts, findings consistent with the effects of exogenous FGFs. FGF-2-deficient transfectants express high levels of AS3, GADD45alpha, GADD45gamma, GAS8, and GAS11 transcripts and moderate levels of GADD153, GAS2, GAS3, and GAS6 transcripts and lack demonstrable GAS1 or GAS5 transcripts. FGF withdrawal-mediated death of FGF-2-deficient transfectants did not significantly affect cell AS3, GADD153, GADD45gamma, GAS2, GAS3, GAS7, GAS8, or GAS11 transcript content, whereas GADD45alpha and GAS6 transcript content was elevated. These studies establish that endogenous FGF-2 dominantly regulates prostate cancer cell survival and proliferation and that exogenous FGFs may assume this function in the absence of endogenous FGF-2. Additionally, we provide the first evidence that FGFs regulate prostate GADD45alpha and GAS6 transcript content. The latter observations suggest that GADD45alpha and GAS6 proteins may be effectors of processes that regulate prostate cancer cell survival. Additional studies are required to examine this possibility in detail.
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PMID:Exogenous fibroblast growth factors maintain viability, promote proliferation, and suppress GADD45alpha and GAS6 transcript content of prostate cancer cells genetically modified to lack endogenous FGF-2. 1556 81

Basic research and clinical chemoprevention trials support the protective role of selenium in cancer prevention but the mechanisms based on the molecular level remain to be fully defined. This mini-review focuses only on the elucidation of the molecular mechanisms of cancer prevention by selenium using the genomics approach; target organs discussed here are breast, prostate, colon and lung. The results described here support the utility of microarray technology in delineating the molecular mechanisms of cancer prevention by selenium. These results are based on studies employing human and rodent cell lines and tissues from animal models ranging from normal to frank cancer. The dose and the form of selenium are determining factors in cancer chemoprevention. The results of the microarray analysis reviewed here indicate that selenium, independent of its form and the target organ examined, alters several genes in a manner that can account for cancer prevention. Selenium can up regulate genes related to phase II detoxification enzymes, certain selenium-binding proteins and select apoptotic genes, while down regulating those related to phase I activating enzymes and cell proliferation. Independent of tissue type, selenium arrests cells in G1 phase of cell cycle, inhibits CYCLIN A, CYCLIN D1, CDC25A, CDK4, PCNA and E2F gene expressions while induces the expressions of P19, P21, P53, GST, SOD, NQO1, GADD153 and certain CASPASES. In addition to those described above, genes such as OPN, which is mainly involved in metastasis and recently reported to be down regulated by selenium, should be considered as potential molecular marker in clinical chemoprevention trials. Collectively, literature data indicate that some of these genes that were altered by selenium are also involved in the development of human cancers described in this review. It appears that androgen receptor status may influence the effect of selenium on gene expression profile in prostate cancer; whether estrogen receptor may influence the effect of selenium on gene expression in breast cancer requires further studies. Knowledge from gene array data in combination with proteomics approaches, using homogenous population of cell types with the aid of laser capture microdissection, may provide an individualized dimension of information on cancer risk and potential targets for its prevention. The molecular (genetic) biomarkers presented in this review will provide the foundation for future studies of the chemopreventive properties of structurally varied selenium compounds.
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PMID:Molecular chemoprevention by selenium: a genomic approach. 1609 79

A monomethylated selenium metabolite, called methylseleninic acid (MSA), has recently been shown to cause global thiol redox modification of proteins. These changes represent a form of cellular stress due to protein misfolding or unfolding. An accumulation of aberrantly folded proteins in the endoplasmic reticulum (ER) triggers a defined set of transducers to correct the defects or commit the cells to apoptosis if the rescue effort is exhausted. Treatment of PC-3 human prostate cancer cells with MSA was found to induce a number of signature ER stress markers: (a) the survival/rescue molecules such as phosphorylated protein kinase-like ER-resident kinase (phospho-PERK), phosphorylated eukaryotic initiation factor-2alpha (phospho-eIF2alpha), glucose-regulated protein (GRP)-78, and GRP94; and (b) the apoptotic molecules such as caspase-12, caspase-7, and CAAT/enhancer binding protein homologous protein or growth arrest DNA damage-inducible gene 153 (CHOP/GADD153). Additional evidence suggested that CHOP/GADD153 might be an important transcription factor in apoptosis induction by MSA. In general, a higher concentration of MSA was required to elicit the apoptotic markers compared with the rescue markers. The apoptotic markers increased proportionally with the dose of MSA, whereas the rescue markers failed to keep pace with the increasing challenge from MSA. GRP78 is the rheostat of the ER stress transducers. In GRP78-overexpressing cells, the ability of MSA to up-regulate phospho-PERK, phospho-eIF2alpha, GRP94, caspase-12, caspase-7, and CHOP/GADD153 was significantly muted. A generous supply of GRP78 would allow cells to cope better with ER stress, thereby improving the odds for survival and negating the commitment to apoptotic death. The present study thus provides strong evidence to support an important role of ER stress response in mediating the anticancer effect of selenium.
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PMID:Endoplasmic reticulum stress signal mediators are targets of selenium action. 1620 82

Binding of activated forms of the proteinase inhibitor alpha2-macroglobulin (alpha2M*) to cell surface-associated GRP78 on 1-LN human prostate cancer cells causes their proliferation. We have now examined the interplay between Akt activation, regulation of apoptosis, the unfolded protein response, and activation of NF-kappaB in alpha2M*-induced proliferation of 1-LN cells. Exposure of cells to alpha2M* (50 pM) induced phosphatidylinositol 3-kinase-dependent activation of Akt by phosphorylation at Thr-308 and Ser-473 with a concomitant 60-80% increase in Akt-associated kinase activity. ERK1/2 and p38 MAPK were also activated, but there was only a marginal effect on JNK activation. Treatment of 1-LN cells with alpha2M* down-regulated apoptosis and promoted NF-kappaB activation as shown by increases of Bcl-2, p-Bad(Ser-136), p-FOXO1(Ser-253), p-GSK3beta(Ser-9), XIAP, NF-kappaB, cyclin D1, GADD45beta, p-ASK1(Ser-83), and TRAF2 in a time of incubation-dependent manner. alpha2M* treatment of 1-LN cells, however, showed no increase in the activation of caspase -3, -9, or -12. Under these conditions, we observed increased unfolded protein response signaling as evidenced by elevated levels of GRP78, IRE1alpha, XBP-1, ATF4, ATF6, p-PERK, p-eIF2alpha, and GADD34 and reduced levels of GADD153. Silencing of GRP78 gene expression by RNAi suppressed activation of Akt(Thr-308), Akt(Ser-473), and IkappaB kinase alpha kinase. The effects of alpha2M* on the NF-kappaB activation, antiapoptotic signaling, unfolded protein response signaling, and proapoptotic signaling were also reversed by this treatment. In conclusion, alpha2M* promotes cellular proliferation of 1-LN prostate cancer cells by activating MAPK and Akt-dependent signaling, down-regulating apoptotic signaling, and activating unfolded protein response signaling.
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PMID:Activation and cross-talk between Akt, NF-kappaB, and unfolded protein response signaling in 1-LN prostate cancer cells consequent to ligation of cell surface-associated GRP78. 1654 32

The tropical shrub, Rauwolfia vomitoria, is a medicinal plant used traditionally to treat a variety of ailments. A bioactive beta-carboline alkaloid, alstonine, present in this extract was previously shown to have anti-cancer activity against cancer cell lines. This study considers the potential anti-prostate cancer activity of this extract in vitro and in vivo. Rauwolfia vomitoria extract standardized for beta-carboline alkaloids was tested for ability to influence the growth and survival of the human LNCaP prostate cancer cell line. A WST-1 assay was used to measure cell growth, and cell cycle analyses were conducted with flow cytometry. Western blot detection of PARP cleavage and accumulation of cells containing sub-genomic DNA indicated induction of apoptosis. Pathway specific microarray analyses were utilized to identify the effect of Rauwolfia extract on the expression of 225 genes. Mice xenografted with LNCaP cells were treated with the extract or placebo control, and tumor growth was measured for 5 weeks. The effects of the extract on xenografted tumor cell proliferation and apoptosis were measured by in situ BrdU incorporation and TUNEL staining. Rauwolfia extract decreased in vitro cell growth in a dose-dependent manner (p<0.001) and induced the accumulation of G1 phase cells. PARP cleavage demonstrated that apoptosis was induced only at the highest concentration tested (500 microg/ml) which was confirmed by detection of cells containing sub-genomic DNA. The expression of genes associated with DNA damage signaling pathway was up-regulated by Rauwolfia treatment, including that of GADD153 and MDG. The expression of a few cell cycle genes (p21, cyclin D1 and E2F1) was also modulated. These alterations were confirmed by RT-PCR. Tumor volumes were decreased by 60%, 70% and 58% in the groups fed the 75, 37.5 or 7.5 mg/kg Rauwolfia, respectively (Kruskal-Wallis test, p<0.001). The Rauwolfia vomitoria extract significantly suppressed the growth and cell cycle progression of LNCaP cells, in vitro and in vivo.
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PMID:Anti-prostate cancer activity of a beta-carboline alkaloid enriched extract from Rauwolfia vomitoria. 1701 36

The marine organisms produce many metabolic substances with numerous pharmacological activities. It has been suggested that ilimaquinone, a metabolite of sea sponge, can induce vesiculation of the Golgi apparatus and display several biological activities, such as anti-human immunodeficiency virus, anti-inflammation as well as anti-microbial activities. In this study, the sulforhodamine B assays showed that ilimaquinone induced a concentration-dependent anti-proliferative effect in several types of cancer cell lines, including prostate cancer PC-3 and LNCaP, non-small cell lung cancer A549 and hepatocellular carcinoma Hep3B cells. The anticancer mechanism of ilimaquinone in the representative PC-3 cells was identified. Ilimaquinone induced a time-dependent increase of G(1) phase arrest and a subsequent increase of hypodiploid sub-G(1) phase (apoptosis) of the cell cycle. The arrest of the cell cycle was associated with a sustained high level of nuclear cyclin E but the absence of DNA synthesis by flow cytometric analysis, indicating an incomplete S phase. Although ilimaquinone-induced Golgi vesiculation, the data showed that the inhibition of cancer cell growth was not through the Golgi fragmentation. Several biological kinases and transcription factors were examined in this study. The data demonstrated that ilimaquinone did not activate extracellular signal-regulated kinase and phosphatidylinositol 3-kinase but induce the up-regulation and nuclear translocation of growth arrest and DNA damage inducible gene 153 (CHOP/GADD153). Furthermore, ilimaquinone-mediated anti-proliferative effect is significantly reduced in the antisense CHOP/GADD153-overexpressing cells. Ilimaquinone also inhibited DNA binding of NF-kappaB; however, this inhibitory effect could not explain ilimaquinone-induced anticancer effect. In summary, it is suggested that ilimaquinone induces the anti-proliferative effect through the G(1) arrest of the cell cycle and the up-regulation and nuclear translocation of CHOP/GADD153.
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PMID:Ilimaquinone, a marine sponge metabolite, displays anticancer activity via GADD153-mediated pathway. 1714 May 62

Molecular paleopathology has become an emerging field that helps to characterize molecular markers of past disease. Especially highly sensitive genetic techniques such as PCR are an important means of unraveling changes in ancient DNA extracted from bone tissue, teeth and mummified soft tissue. In the present study, excavated bone material from the skeleton of a Scythian sovereign, morphologically and immunohistochemically suspicious of a metastatic prostate carcinoma, was analyzed by PCR for amplifiable human gene sequences. Short sequences of the human GADD153 DNA repair gene and p53 tumor suppressor gene were detectable which revealed the absence of mutations according to the data of automatic sequencing. Using bisulfite-treated DNA from the bone, methylation-specific PCR detected hypermethylated promoter sequences of the p14ARF tumor suppressor gene. In summary, these data show that it is possible: a) to amply short human DNA stretches from 2,500-year-old bone material, b) to detect tumorigenetically important genes within this DNA, c) to detect epigenetically modified DNA in ancient bone material. The finding of hypermethylated p14ARF sequences merits attention because this may indicate an intraosseal neoplastic process and may corroborate the hypothesis of prostate cancer.
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PMID:Detection and analysis of cancer genes amplified from bone material of a Scythian royal burial in Arzhan near Tuva, Siberia. 1822 81

Taxanes are first line drugs for treating prostate cancer recurrence after the failure of anti-androgen therapy. There is a need to make taxanes more effective since they only provide palliative benefit. Exploiting endoplasmic reticulum (ER) stress death signaling to enhance drug efficacy has not been delineated. Human PC-3 cells were used as a model of hormone refractory prostate cancer. Thapsigargin and methylseleninic acid (MSA) were examined as sensitizers. Thapsigargin is a classic ER stress inducer. The activity of MSA in inducing ER stress has recently been studied by our group. The efficacy of single drug and the various combinations was evaluated by measuring apoptosis with a cell death ELISA kit. Thapsigargin increased the cell killing potency of paclitaxel or docetaxel by 10- to 12-fold, while MSA caused a 5- to 8-fold increase. Since thapsigargin is not used clinically because of its toxicity, the follow-up experiments were done with MSA. To test the hypothesis that a threshold level of ER stress is crucial to chemotherapeutic sensitization, three different approaches designed to dampen the severity of ER stress induced by MSA were examined. Lowering ER stress consistently attenuated the efficacy of MSA/taxane. GADD153 is a pro-apoptotic transcription factor which is upregulated during ER stress. Knocking down GADD153 by siRNA also reduced the cell killing effect of MSA/taxane. Both the intrinsic and extrinsic apoptotic pathways were involved in the sensitization mechanism. Our study supports the idea that marshalling ER stress apoptotic response is conducive to chemotherapeutic sensitization.
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PMID:Chemotherapeutic sensitization by endoplasmic reticulum stress: increasing the efficacy of taxane against prostate cancer. 1918 12

Melanoma differentiation associated gene-7/interleukin-24 (mda-7/IL-24) uniquely displays broad cancer-specific apoptosis-inducing activity through induction of endoplasmic reticulum (ER) stress. We hypothesize that ceramide, a promoter of apoptosis, might contribute to mda-7/IL-24 induction of apoptosis. Ad.mda-7-infected tumor cells, but not normal cells, showed increased ceramide accumulation. Infection with Ad.mda-7 induced a marked increase in various ceramides (C16, C24, C24:1) selectively in prostate cancer cells. Inhibiting the enzyme serine palmitoyltransferase (SPT) using the potent SPT inhibitor myriocin (ISP1), impaired mda-7/IL-24-induced apoptosis and ceramide production, suggesting that ceramide formation caused by Ad.mda-7 occurs through de novo synthesis of ceramide and that ceramide is required for mda-7/IL-24-induced cell death. Fumonisin B1 (FB1) elevated ceramide formation as well as apoptosis induced by Ad.mda-7, suggesting that ceramide formation may also occur through the salvage pathway. Additionally, Ad.mda-7 infection enhanced expression of acid sphingomyelinase (ASMase) with a concomitant increase in ASMase activity and decreased sphingomyelin in cancer cells. ASMase silencing by RNA interference inhibited the decreased cell viability and ceramide formation after Ad.mda-7 infection. Ad.mda-7 activated protein phosphatase 2A (PP2A) and promoted dephosphorylation of the anti-apoptotic molecule BCL-2, a downstream ceramide-mediated pathway of mda-7/IL-24 action. Pretreatment of cells with FB1 or ISP-1 abolished the induction of ER stress markers (BiP/GRP78, GADD153 and pospho-eIF2alpha) triggered by Ad.mda-7 infection indicating that ceramide mediates ER stress induction by Ad.mda-7. Additionally, recombinant MDA-7/IL-24 protein induced cancer-specific production of ceramide. These studies define ceramide as a key mediator of an ER stress pathway that may underlie mda-7/IL-24 induction of cancer-specific killing.
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PMID:Ceramide plays a prominent role in MDA-7/IL-24-induced cancer-specific apoptosis. 1993 35

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