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)

R-etodolac, a nonsteroidal anti-inflammatory drug, inhibits the progression of CWRSA6 androgen-independent and LuCaP-35 androgen-dependent prostate cancer xenograft growth through downregulation of cyclin D1 expression via the PPARgamma pathway. PPARgamma protein degradation, observed post-R-etodolac treatment, resulted from phospho-MAP kinase (p44/42) induction by R-etodolac negatively regulating PPARgamma function. Negative regulation of PPARgamma was overcome by a combination regimen of R-etodolac with the HER-kinase axis inhibitor, rhuMab 2C4, which demonstrated an additive antitumor effect. We further show that the inhibition of HER-kinase activity by rhuMab 2C4 is sufficient to inhibit PPARgamma protein degradation. This study introduces a novel concept of an in vivo crosstalk between the HER-kinase axis and PPARgamma pathways, ultimately leading to negative regulation of PPARgamma activity and tumor growth inhibition.
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PMID:Inhibition of HER-kinase activation prevents ERK-mediated degradation of PPARgamma. 1519 59

Prostate cancer is the second leading cause of cancer deaths in men. Conventional therapies produce a high rate of cure for patients with localized prostate cancer, but there is no cure once the disease has spread beyond the prostate. Androgen withdrawal remains the only treatment for these men with clinically advanced disease; however, most of these men, who initially respond to hormone ablation therapy, fail and the disease progresses. There is at present no effective treatment for hormone-independent prostate cancer. Several lines of evidence suggest a role of p42/p44 mitogen-activated protein kinase (p42/p44 MAP kinase) signal transduction pathways in prostate cancer. At the molecular level, a variety of genetic alterations lead to an epigenetic mechanism by which a feedback autocrine loop between membrane receptors and associated ligands serves as an essential component of the growth, proliferation, and metastasis of prostate cancer at an advanced and androgen-independent stage. Peptide growth factors are known to exert their effects by a complex array of mechanisms primarily mediated by the p42/p44 MAP kinase signal transduction pathway. Thus, we hypothesized that MAP kinase signal transduction pathways could serve as new and novel targets in prostate cancer therapy. In this article we provide an overview of the role played by MAP kinase signal transduction in the prostate.
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PMID:p42/p44 Mitogen-activated protein kinase signal transduction pathway: a novel target for the treatment of hormone-resistant prostate cancer? 1565 3

The mechanisms that regulate prostate cancer growth and proliferation are not fully understood. IL-6, a multifunctional cytokine, has been shown to play an important role in prostate cancer biology. Functional role of MAP-kinase signal transduction pathways in prostate biology has not been evaluated in detail. In the present study we evaluated the effects of modulation of p42/44 MAP kinase signal transduction pathway on IL-6 expression and secretion by PC3 cells, a line of hormone refractory prostate cancer cells. Results presented, herein, demonstrate that modulation of p42/44 MAP kinase activity results in partial inhibition of synthesis and secretion of IL-6. These data suggest that modulation of p42/p44 may result in regulation of other survival pathways as well.
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PMID:p42/p44 Mitogen-activated protein kinase signal transduction pathway regulates interleukin-6 expression in PC3 cells, a line of hormone-refractory prostate cancer cells. 1565 4

Activation of cell surface components has been implicated in the activation of downstream signaling cascade in response to UV irradiation, and yet the identity and the interaction of those components have been scantly documented. Accumulating evidence indicates that caveolae encapsulating caveolins is the location for those interactions. We found in cultured human keratinocytes that UV irradiation induced both caveolin-1 and EGFR phosphorylation. Filipin, a caveolae disruptive agent, inhibited UV-induced caveolin-1 activation. Na+-K+-ATPase catalyzes active transport of Na+ and K+ across plasma membrane of mammalian cells, inactivation of which has recently been shown to be involved in the activation of signal transduction pathways including MAP kinase cascade. We found in this study that UV inactivated Na+-K+-ATPase in time-dependent manner, Na+-K+-ATPase activity started to decrease 5 min post UV irradiation and reduced to 60% of its original activity within 1 h. Pretreatment with Flipin and MMP inhibitor recovered Na+-K+-ATPase activity lost by UV irradiation. ECIS analysis indicated that both EGF treatment and UV irradiation increased membrane electric activity which was inhibited by MMP inhibitor and Filipin. Further study showed that pretreatment of human keratinocytes with MMP inhibitor or Filipin inhibited UV-induced phosphorylation of p38 and JNK, which was however not observed in LnCap cells, a prostate cancer cell line lacking caveolin-1. UV irradiation also induced ectodomain shedding of HB-EGF in a time-dependent manner in keratinocytes. Collectively, we conclude that UV-induced MAP kinase activation is mediated by cell surface receptor activation due to the matrix activity and membrane caveolae function and inactivation of Na+-K+-ATPase.
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PMID:Extracellular matrix activity and caveolae events contribute to cell surface receptor activation that leads to MAP kinase activation in response to UV irradiation in cultured human keratinocytes. 1575 25

The development of reproductive organ tumors such as breast and prostate cancer often depends on the action of sex hormones. Nuclear sex hormone receptors are members of the nuclear hormone receptor superfamily and act as ligand-inducible transcription factors, controlling the expression of target genes. Nuclear receptors are considered to directly and indirectly interact with a number of nuclear co-regulatory complexes involved in chromatin remodeling and histone modification. Moreover, many intracellular signalings via cell membrane receptors are shown to modulate nuclear receptor-regulated transcription. We have shown that estrogen receptors (ER) associate with a number of nuclear complexes, one of which is a spliceosome complex. We recently found that this spliceosome complex interacts with phosphorylated ER by MAP kinase, generating a novel cross-talk of estrogen and growth factor signalings. We also observed that a dioxin receptor (AhR) is capable of associating with ER, resulting in modulation of ER transactivation function. From our findings we believe that development of estrogen-dependent breast cancer may be mediated through the other signaling pathways. To address the function of the androgen receptor (AR) in androgen-dependent prostate cancer, we established a transgenic mouse line expressing a human AR mutant that is found in androgen-independent prostate cancer patients. The hAR mutant mice, generated through a Cre-loxP system, developed hyperplasia in the prostates. Hypersensitivity of AR mutants to antagonists and endogenous steroid hormones may potentiate hormone-dependency in prostate cancer development.
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PMID:Function of nuclear sex hormone receptors in gene regulation. 1627 65

In prostate cancer progression, the basal lamina switches from predominantly laminin-5 to laminin-10. DU-145 prostate cancer cells were treated with either soluble laminin-5 (20 ng/ml) or laminin-10 (1 microg/ml) for 6, 24, and 48 hr. Total RNA was harvested for a 7,500 human cDNA microarray. Hybridizations were carried out in accordance with a 10 sample analysis of variance (ANOVA) statistical model. One thousand one hundred sixteen genes had measurable expression 2 standard deviations above background and 50% of spots for any given sample for all hybridizations were positive. Expression values of significantly varying genes were clustered and a list of 408 genes (P < 0.05) with a 1.5 or greater fold change in at least one time point were chosen for further analysis. Seventy eight changed in a time-dependent manner with laminin-10 treatment, 85 changed with laminin-5, and 13 showed changes with both treatments. The 408 genes that passed a paired t-test in at least one time-dependent category were further analyzed using Pathway Miner. One of the largest gene association networks involved signal transduction in the growth factor-MAP kinase pathways. EGFR was validated by real-time PCR and laminin-10 mediated cell adhesion activated EGFR in DU-145 cells. Both laminins appear to be important signal transducers in prostate cancer.
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PMID:Human laminin-5 and laminin-10 mediated gene expression of prostate carcinoma cells. 1680 86

Upon cancer progression in mouse models of prostate cancer, the heat shock transcription factor Hsf1 becomes strongly upregulated, especially in metastases. We hypothesized that Hsf1 plays a role in cell migration, a process necessary for metastases. Using a cell culture model of migration in a scratch, we found that immortalized MEF cells derived from hsf1-/- animals were deficient in both basal and EGF-induced migration. MEF cell migration was dependent on JNK and ERK signaling, since inhibition of these pathways blocked EGF-stimulated cell migration. ERK was activated at the edge of the scratch in parental cells, and this activity was further increased after addition of EGF. Both basal and EGF-stimulated ERK activation were suppressed in hsf1-/- cells at the edge of the scratch. Furthermore, activation of ERK and JNK pathways by EGF was reduced in hsf1-/- cells. The impairment of MAP kinase signaling in hsf1-/- cells was partly due to the reduced expression of EGFR1. In addition, knockout of Hsf1 gene caused a second defect in MAP kinase signaling probably at the level of Ras. We conclude that HSF1 is necessary for MAP kinase signaling which in turn affects the EGF-induced cell migration.
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PMID:Heat shock transcription factor (HSF1) plays a critical role in cell migration via maintaining MAP kinase signaling. 1685 93

The present study utilized microarray technology as a tool to elucidate the molecular signatures of soy-derived phytochemicals in the human androgen-responsive prostate cancer cell line LNCaP. Global gene expression pattern analysis of LNCaP cells exposed to 0, 1, 5, or 25 microM of the soy-derived phytochemicals equol and daidzein were conducted and compared. The data were further compared with previously generated data from exposure of LNCaP cells to the same doses of genistein, a soy isoflavone. Multidimensional scaling (MDS) analyses of the expression patterns suggest that these compounds exerted differential effects on gene expression in LNCaP cells. Further examination of specific gene changes revealed that these compounds differentially modulated genes in multiple cellular pathways, including the cell-cycle pathway genes. However, the three compounds also exerted similar effect on genes belonging to several other important cellular pathways. A universal effect of the three compounds on androgen-responsive genes, IGF-1 pathway gene, and MAP kinase-related pathway gene was observed. These results provide the foundation for establishing molecular signatures for equol, daidzein, and genistein. Moreover, these results also allow for the identification of candidate mechanism(s) by which soy phytochemicals and soy may act in prostate cancer cells.
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PMID:Molecular signatures of soy-derived phytochemicals in androgen-responsive prostate cancer cells: a comparison study using DNA microarray. 1686 72

Androgen independence is responsible for most prostate cancer lethality, yet currently there are no effective clinical treatments. We have been investigating the mechanisms underlying androgen-independent prostate cancer in Nkx3.1;Pten mutant mice, which display salient features of the disease, including a requirement for wild-type androgen receptor (AR) signaling. We now demonstrate that the Akt and Erk MAP kinase signaling pathways are activated in androgen-independent lesions of these mice. Forced activation of either Akt or Erk signaling in an androgen-responsive prostate cancer cell line promotes hormone-independent but AR-dependent growth in culture. Although these pathways act additively in culture, they act synergistically in vivo to promote tumorigenicity and androgen independence in the context of the prostate microenvironment. We propose that androgen independence emerges by means of epithelial-stromal competition, in which activation of Akt and Erk promotes AR activity in the prostate epithelium while counteracting antagonistic effects of the stroma.
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PMID:Combinatorial activities of Akt and B-Raf/Erk signaling in a mouse model of androgen-independent prostate cancer. 1697 50

Alterations in the signaling pathways of bone morphogenetic proteins (BMPs) and activation of the ERK/MAP kinase (MAPK) pathway by growth factors have been implicated in the development and progression of prostate cancer. Smad1 acts as a substrate for MAPKs and also performs a central role in transmitting signals from BMPs. We found that BMPs/Smad1 signaling inhibits the growth of androgen-sensitive prostate cancer cells. Upon the incorporation of ERK/MAPK signals at its linker region, Smad1 physically interacts with androgen-activated androgen receptor (AR) and suppresses its functions. BMPs induce the function of Smad1 as an AR transcriptional corepressor. We demonstrated in vivo that Smad1 signaling is low in androgen-regulated growth of prostate cancer, is activated after castration, and also is decreased in hormone-independent tumors. The activation status of ERK/MAPK parallels Smad1 in the progression of prostate cancer; thus, our findings indicate a molecular basis for the integration of signals of MAPK and Smad1 in the progression and androgen regulation of prostate cancer.
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PMID:Control of prostate cell growth: BMP antagonizes androgen mitogenic activity with incorporation of MAPK signals in Smad1. 1718 65


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