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)

Inhibin is a member of the TGF-beta superfamily of growth and differentiation factors and a tumor suppressor. Consistent with the tumor suppressive function of the inhibin alpha subunit in prostate cancer, we reported a loss of gene expression due to DNA hypermethylation and loss of heterozygosity (LOH) as well as down regulation of inhibin alpha subunit immunoreactivity. Paradoxically, an expanded study to evaluate the prognostic significance of inhibin alpha subunit expression in men with prostate cancer resulted in a contradictory outcome, whereby an up-regulation of subunit expression was recorded. In seeking a more comprehensive explanation for all data sets, we offer a unifying hypothesis. We propose that the tumor suppressor activities of the inhibin alpha subunit dominate in non-malignant tissue, but its oncogenic activities emerge during tumorigenesis. An explanation such as this, involving a switch in gene function from being tumor suppressive to pro-oncogenic, may account for the discrepant findings in other types of cancer.
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PMID:Re-evaluation of inhibin alpha subunit as a tumour suppressor in prostate cancer. 1545 70

Transforming growth factor (TGF)-beta is a potent immunosuppressant. Overproduction of TGF-beta by tumor cells may lead to tumor evasion from the host immune surveillance and tumor progression. The present study was conducted to develop a treatment strategy through adoptive transfer of tumor-reactive TGF-beta-insensitive CD8+ T cells. The mouse TRAMP-C2 prostate cancer cells produced large amounts of TGF-beta1 and were used as an experimental model. C57BL/6 mice were primed with irradiated TRAMP-C2 cells. CD8+ T cells were isolated from the spleen of primed animals, were expanded ex vivo, and were rendered TGF-beta insensitive by infecting with a retrovirus containing dominant-negative TGF-beta type II receptor. Results of in vitro cytotoxic assay revealed that these CD8+ T cells showed a specific and robust tumor-killing activity against TRAMP-C2 cells but were ineffective against an irrelevant tumor line, B16-F10. To determine the in vivo antitumor activity, recipient mice were challenged with a single injection of TRAMP-C2 cells for a period up to 21 days before adoptive transfer of CD8+ T cells was done. Pulmonary metastasis was either eliminated or significantly reduced in the group receiving adoptive transfer of tumor-reactive TGF-beta-insensitive CD8+ T cells. Results of immunofluorescent studies showed that only tumor-reactive TGF-beta-insensitive CD8+ T cells were able to infiltrate into the tumor and mediate apoptosis in tumor cells. Furthermore, transferred tumor-reactive TGF-beta-insensitive CD8+ T cells were able to persist in tumor-bearing hosts but declined in tumor-free animals. These results suggest that adoptive transfer of tumor-reactive TGF-beta-insensitive CD8+ T cells may warrant consideration for cancer therapy.
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PMID:Adoptive transfer of tumor-reactive transforming growth factor-beta-insensitive CD8+ T cells: eradication of autologous mouse prostate cancer. 1575 72

Prostate cancer is the most common non-skin cancer affecting men in United States and the second leading cause of death after lung cancer. The clinical course of patients after given diagnosis of prostate cancer is highly variable and the underlying reasons for such variability remain elusive. To better understand the pathophysiology of prostate cancer, there has been a push to elucidate the molecular mechanisms that mediate the development and progression of prostate cancer. Recent literature has pointed that a complex interplay between various cytokines, growth factors, and androgen receptors regulate the growth and functions of the prostate gland. Amongst the currently implicated anomalous pathways involved in prostate oncogenesis, the IGF-IGFBP axis has been demonstrated to play a very important role, although the precise molecular events regulated by IGF remain to be elucidated. The tumor promoting functions of VEGF has been defined in tumor angiogenesis and currently remains the central focus of anti-angiogenesis therapy in prostate cancer. Another key cytokine, TGF-beta has tumor-suppressor functions in normal prostate gland, but its pleiotropic functions in prostate cancer are influenced by the hormonal state of the disease. In partnership with other deregulated growth factor signaling, the TGF-beta cascade has also been implicated in the spread of prostate cancer. Lastly, members of the EGFR family, particularly the HER2 receptor, have also been recognized as crucial elements of aberrant signal transduction pathways, which induce activation of downstream signaling, involved in cellular proliferation, cell survival, and angiogenesis. The abnormal function of a number of growth factors in prostate cancer biology explains the heterogeneity of its histologic grade, mode of presentation and disease prognosis. At the same time, continued research in this field allows for the potential development of drug therapies against a diverse pool of cancer causing targets.
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PMID:Growth factors involved in prostate carcinogenesis. 1576 31

NRP-154 is a tumorigenic epithelial cell line derived from the preneoplastic dorsal-lateral prostate of rats. These cells are exquisitely sensitive to TGF-beta induced apoptosis. In contrast, we find that NRP-154 cells can sustain overexpression of exogenous Bax protein, which is different from non-tumor cells where Bax functions as a ubiquitous stimulator of apoptosis. NRP-154 cells stably overexpressing Bax show increased sensitivity to TGF-beta induced apoptosis. The degree of TGF-beta induced apoptosis displays high correlation with cleavage of Bax at the amino-terminus. Our data indicate that prostate cancer cells can host high levels of latent Bax which can be activated through post-translational modification.
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PMID:Overexpression of Bax sensitizes prostate cancer cells to TGF-beta induced apoptosis. 1578 Jan 77

Although originally discovered as the peptide responsible for humoral hypercalcemia of malignancy (HHM), parathyroid hormone-related protein (PTHrP) has been shown to play a major role in fetal development. In the adult, it is widely distributed in normal and various cancer tissues. In spite of the rarity of HHM in prostate cancer, PTHrP is widely distributed in prostate cancer cells. PTHrP is a precursor molecule with generation of various fragments with distinct biological activities. More recent studies have shown that there is intranuclear localization of PTHrP and that intracrine effects of the peptide are involved in promoting processes that result in tumor progression (nall proliferation, apoptosis, cell attachment and angiogenesis) in prostate cancer. PTHrP expression is controlled by three distinct promoters, with P3 being used most often in cancer cells. The factors that control PTHrP production via interaction with the promoters are growth factors, androgens, vitamin D analogs, and adenoviral proteins. TGF-beta and its effector Smad3 activate the P3 promoter through an AGAC box and an Ets binding site involving Ets1 and to some extent Ets2 proteins. In addition, TGF-beta stimulates P3 promoter activity via Smad-independent pathways that involve the p38 MAP kinase. Although the addition of PTHrP or transfection with the PTHrP gene in prostate cells results in effects that promote tumor development, studies that employ inhibition of PTHrP activity in vitro and in vivo are needed to establish a definitive role of this peptide in the pathogenesis of prostate cancer.
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PMID:Parathyroid hormone-related protein in prostate cancer. 1583 Oct 76

Prostate cancers often develop insensitivity to TGF-beta to gain a growth advantage. In this study, we explored the status of promoter methylation of TGF-beta receptors (TbetaRs) in a prostate cancer cell line, LNCaP, which is insensitive to TGF-beta. Sensitivity to TGF-beta was restored in cells treated with 5-Aza-2'-deoxycytidine (5-Aza), as indicated by an increase in the expression of phosphorylated Smad-2, type I (TbetaRI), and type II (TbetaRII) TGF-beta receptors, and a reduced rate of proliferation. The same treatment did not significantly affect a benign prostate cell line, RWPE-1, which is sensitive to TGF-beta. Mapping of methylation sites was performed by screening 82 potential CpG methylation sites in the promoter of TbetaRI and 33 sites in TbetaRII using methylation-specific PCR and sequence analysis. There were six methylation sites (-365, -356, -348, -251, -244, -231) in the promoter of TbetaRI. The -244 site was located in an activator protein (AP)-2 box. There were three methylated sites (-140, +27, +32) in the TbetaRII promoter and the -140 site was located in one of the Sp1 boxes. Chromatin immunoprecipitation analysis demonstrated DNA binding activity of AP-2 in the TbetaRI promoter and of Sp1 in the TbetaRII promoter after treatment with 5-Aza. To test whether promoter methylation is present in clinical specimens, we analyzed human prostate specimens that showed negative staining for either TbetaRI or TbetaRII in a tissue microarray system. DNA samples were isolated from the microarray after laser capture microdissection. Methylation-specific PCR was performed for TbetaRI (six sites) and TbetaRII (three sites) promoters as identified in LNCaP cells. A significant number of clinical prostate cancer specimens lacked expression of either TbetaRI and/or TbetaRII, especially those with high Gleason's scores. In those specimens showing a loss of TbetaR expression, a promoter methylation pattern similar to that of LNCaP cells was a frequent event. These results demonstrate that insensitivity to TGF-beta in some prostate cancer cells is due to promoter methylation in TbetaRs.
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PMID:Insensitivity to transforming growth factor-beta results from promoter methylation of cognate receptors in human prostate cancer cells (LNCaP). 1590 58

Maspin is a mammary serine protease inhibitor or serpin with tumor suppressive and antiangiogenic activity that inhibits tumor motility, invasion and metastasis, at least by its actions on cell membrane and extracellular matrix (ECM) proteins. Previous studies documented that the quinazoline-derived alpha1-adrenoceptor antagonist doxazosin affects the attachment and migration of prostate cancer cells. In this study, we investigated the effect of maspin overexpression on the apoptotic/antiadhesion response of prostate cancer cells to doxazosin. The response of maspin-overexpressing clones of human prostate cancer cells DU-145 to doxazosin was evaluated by determining cell viability, apoptosis and cell proliferation on the basis of the trypan blue exclusion assay/methylthiazolyldiphenyl-tetrazolium bromide (MTT) assay, Hoechst staining and caspase-3 activation, and [(3)H]thymidine incorporation assay. Vascular endothelial growth factor (VEGF), transforming growth factor betaRII (TGFbetaRII), Smad4 (a TGFbeta intracellular effector) and bax expression was evaluated at the mRNA and protein level using reverse transcriptase-polymerase chain reaction and Western blotting, respectively. The effect of doxazosin on cell attachment of maspin-expressing prostate cancer cells was evaluated on collagen- and fibronectin-coated plates. Cell migration was assessed using the wounding assay. In response to tumor necrosis factor-related apoptosis-inducing ligand, DU-145-maspin expressing cells undergo apoptosis, via poly(ADP-ribose) polymerasecleavage and caspase-3 activation. DU-145-maspin cells exhibited higher sensitivity to doxazosin and an earlier temporal activation of caspase-3. The number of apoptotic cells detected in response to doxazosin was significantly higher compared to the neo control (P<0.0001). Doxazosin resulted in dramatic downregulation of the 189 isoform of VEGF in maspin transfectants, while a fivefold induction of Smad4 mRNA expression was detected in those cells after 24 h of treatment. Maspin overexpression in prostate cancer cells resulted in an increased ability to attach to ECM-coated plates, and doxazosin treatment considerably antagonized this effect by decreasing the attachment potential to collagen and fibronectin. The present study supports the ability of maspin to enhance the apoptotic threshold of prostate cancer cells to the quinazoline-based alpha1-adrenoceptor antagonist doxazosin. These findings may have therapeutic significance in the development of antiangiogenic targeting by doxazosin and derivative agents for advanced prostate cancer.
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PMID:Maspin sensitizes prostate cancer cells to doxazosin-induced apoptosis. 1600 19

Virus replication in higher vertebrates is restrained by IFNs that cause cells to transcribe genes encoding antiviral proteins, such as 2'-5' oligoadenylate synthetases. 2'-5' oligoadenylate synthetase is stimulated by dsRNA to produce 5'-phosphorylated, 2'-5'-linked oligoadenylates (2-5A), whose function is to activate RNase L. Although RNase L is required for a complete IFN antiviral response and mutations in the RNase L gene (RNASEL or HPC1) increase prostate cancer rates, it is unknown how 2-5A affects these biological endpoints through its receptor, RNase L. Presently, we show that 2-5A activation of RNase L produces a remarkable stimulation of transcription (>/=20-fold) for genes that suppress virus replication and prostate cancer. Unexpectedly, exposure of DU145 prostate cancer cells to physiologic levels of 2-5A (0.1 muM) induced approximately twice as many RNA species as it down-regulated. Among the 2-5A-induced genes are several IFN-stimulated genes, including IFN-inducible transcript 1/P56, IFN-inducible transcript 2/P54, IL-8, and IFN-stimulated gene 15. 2-5A also potently elevated RNA for macrophage inhibitory cytokine-1/nonsteroidal antiinflammatory drug-activated gene-1, a TGF-beta superfamily member implicated as an apoptotic suppressor of prostate cancer. Transcriptional signaling to the macrophage inhibitory cytokine-1/nonsteroidal antiinflammatory drug-activated gene-1 promoter by 2-5A was deficient in HeLa cells expressing a nuclease-dead mutant of RNase L and was dependent on the mitogen-activated protein kinases c-Jun N-terminal kinase and extracellular signal-regulated kinase, both of which were activated in response to 2-5A treatments. Because 2-5A and RNase L participate in defenses against viral infections and prostate cancer, our findings have implications for basic cellular mechanisms that control major pathogenic processes.
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PMID:A transcriptional signaling pathway in the IFN system mediated by 2'-5'-oligoadenylate activation of RNase L. 1620 93

The TGF-beta superfamily is the most versatile considering the ability of its members to regulate proliferation, growth arrest, differentiation, and apoptosis of prostatic stromal and epithelial cells as well as the formation of osteoblastic metastases. TGF-beta mediated action in prostate cells follows a complex signaling pathway from binding and phosphorylation of receptor type II to the TbetaRI kinase to Smad activation, resulting in ligand-induced transcription. TGF-beta as an indirect tumor suppressor, its role of regulating tumor induction, as well as tumor suppression depending on the tissue microenvironment merits further exploration. The rationale for targeting growth factors and their receptors for therapeutic intervention is based upon the fact that these proteins represent the most proximate component of the signal transduction cascade. The alternate targeting of intracellular effectors in the signal transduction may be thwarted by cross talk between signaling pathways (such as the Smads in a dynamic interplay with the androgen receptor). TGF-beta within the context of its well-documented apoptosis regulatory actions in the prostate and the significance its key receptor TbetaRII as a potential tumor suppressor, provides a highly attractive candidate for such targeting with high clinical significance for the treatment and diagnosis of prostate cancer.
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PMID:Transforming growth factor beta and prostate cancer. 1620 66

Activins are classified as members of the TGFbeta superfamily of signaling molecules and both activin and TGFbeta ligands signal through structurally and functionally related serine/threonine kinase receptors. Defects in these signaling pathways have been associated with the initiation and progression of the cancer phenotype. Inactivating mutations in the TGFbeta type II receptor gene, TGFbetaR2, have been identified in a variety of tumors and cell lines, particularly those with microsatellite instability (MSI). More recently, mutations in the activin type II receptor gene, ACVR2, were identified in colon and pancreatic cell lines and tumors with MSI. Because prostate tumors appear to have a high incidence of MSI, we analyzed prostate cancer cell lines, with and without MSI, for ACVR2 and TGFbetaR2 mutations. Our analysis of 6 prostate cell lines revealed mutations in the ACVR2 gene in 22Rv-1, LAPC-4, DU145, and LNCaP cells and mutations in the TGFbetaR2 gene in 22Rv-1 and LAPC-4. PC3 and H660 cells were wild-type for ACVR2 and TFGbetaR2. All of the ACVR2 mutations were truncating mutations, and using an activin response assay, we demonstrate that truncating mutations of the ACVR2 gene result in a significant reduction in activin mediated cell signaling. Inactivation of ACVR2 is a common event in prostate cancer cells suggesting it may play an important role in the development of prostate cancer.
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PMID:Truncating mutations in the ACVR2 gene attenuates activin signaling in prostate cancer cells. 1633 54


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