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)

Although DU145 prostate cancer cells are resistant to exogenously applied Fas agonist CH-11 (anti-Fas monoclonal antibody), Fas-resistance can be overcome using a FasL expressing adenovirus (AdGFPFasL(TET)) [Hyer et al., Molecular Therapy, 2000; 2:348-58 (ref.12)]. The purpose of this study was to try to understand why DU145 cells are resistant to CH-11 and determine the signaling pathway utilized by AdGFPFasL(TET) to induce apoptosis in these Fas-resistant cells. Using immunoblot analysis, we show that AdGFPFasL(TET) is capable of initiating the classic Fas-mediated apoptotic pathway in DU145 cells, which includes activation of caspases-8, -3, -7, and -9, BID cleavage, cytochrome c release from mitochondria, and PARP cleavage. In contrast, CH-11 binds to Fas, but is unable to transmit the death signal beyond the plasma membrane suggesting a block at the DISC (death inducing signaling complex). The anti-apoptotic protein c-FLIP (cellular Flice-like inhibitory protein), which has been shown to inhibit Fas-mediated apoptosis at the DISC, was down-regulated following AdGFPFasL(TET) treatment prompting us to investigate its role in inhibiting CH-11-induced cell death. Using c-FLIP anti-sense oligonucleotides to down-regulate c-FLIP we sensitized DU145 cells to CH-11-induced apoptosis. These data suggest that c-FLIP may play a critical role in regulating Fas-mediated apoptosis in prostate cancer cells and that modulation of c-FLIP may enhance Fas signaling based therapies.
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PMID:Downregulation of c-FLIP sensitizes DU145 prostate cancer cells to Fas-mediated apoptosis. 1243 56

In the majority of aggressive tumorigenic prostate cancer cells, the transcription factor Egr1 is overexpressed. We provide new insights of Egr1 involvement in proliferation and survival of TRAMP C2 prostate cancer cells by the identification of several new target genes controlling growth, cell cycle progression, and apoptosis such as cyclin D2, P19ink4d, and Fas. Egr1 regulation of these genes, identified by Affymetrix microarray, was confirmed by real-time PCR, immunoblot, and chromatin immunoprecipitation assays. Furthermore we also showed that Egr1 is responsible for cyclin D2 overexpression in tumorigenic DU145 human prostate cells. The regulation of these genes by Egr1 was demonstrated using Egr1 antisense oligonucleotides that further implicated Egr1 in resistance to apoptotic signals. One mechanism was illustrated by the ability of Egr1 to inhibit CD95 (Fas/Apo) expression, leading to insensitivity to FasL. The results provide a mechanistic basis for the oncogenic role of Egr1 in TRAMP C2 prostate cancer cells.
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PMID:Egr1 promotes growth and survival of prostate cancer cells. Identification of novel Egr1 target genes. 1255 66

Prostate apoptosis response-4 (par-4) is a pro-apoptotic gene identified in prostate cancer cells undergoing apoptosis. Par-4 protein, which contains a leucine zipper domain at the carboxy-terminus, functions as a transcriptional repressor in the nucleus. Par-4 selectively induces apoptosis in androgen-independent prostate cancer cells and Ras-transformed cells but not in androgen-dependent prostate cancer cells or normal cells. Cells that are resistant to apoptosis by Par-4 alone, however, are greatly sensitized by Par-4 to the action of other pro-apoptotic insults such as growth factor withdrawal, tumor necrosis factor, ionizing radiation, intracellular calcium elevation, or those involved in neurodegenerative diseases such as Alzheimer's, Parkinson's, Huntington's, and stroke. Apoptosis induction by Par-4 involves a complex mechanism that requires activation of the Fas death receptor signaling pathway and coparallel inhibition of cell survival NF-kappaB transcription activity. The unique ability of Par-4 to induce apoptosis in cancer cells but not normal cells and the ability of Par-4 antisense or dominant-negative mutant to abrogate apoptosis in neurodegenerative disease paradigms makes it an appealing candidate for molecular therapy of cancer and neuronal diseases.
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PMID:Apoptosis by Par-4 in cancer and neurodegenerative diseases. 1256 19

While human prostate cancers and cell lines express Fas, most of these cell lines are resistant to Fas-mediated death. In the present studies we addressed the ability of IFN-gamma to influence Fas-mediated cell death in prostate cancer cells. In vitro exposure of the human cell lines LNCaP and PC3 and the mouse cell line RM-1 to agonist anti-Fas antibody and/or soluble Fas ligand resulted in killing of only PC3 cells. However, preincubation with IFN-gamma resulted in synergistic killing in all three cell lines. In vitro treatment of RM-1 with a replication-incompetent adenovirus expressing mouse FasL (Ad.FasL) resulted in maximal cell kill near 40%, which correlated with baseline Fas expression. The addition of IFN-gamma enhanced cell kill to a degree consistent with the resulting higher levels of Fas and maintained synergistic killing at very low doses of vector. Co-inoculation of orthotopic RM-1 primary tumors with Ad.mFasL and an adenovirus expressing mouse IL-12 (Ad.mIL-12) to drive host production of IFN-gamma negated the survival advantage of Ad.mIL-12 alone. However, the staggered injection of Ad.mIL-12 and Ad.FasL achieved almost threefold higher levels of apoptosis in primary tumor tissue and doubled median survival. Therefore, IFN-gamma is capable of bestowing increased sensitivity to Fas-mediated cell death in prostate cancer cells and, in a gene therapy approach, may define a powerful tool to treat prostate cancers.
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PMID:IFN-gamma sensitization of prostate cancer cells to Fas-mediated death: a gene therapy approach. 1259 6

To accomplish efficient nonviral gene therapy against prostate cancer (PC), Epstein-Barr virus (EBV)-based plasmid vectors containing EBNA1 gene and oriP were employed and combined with a cationic polymer or cationic lipid. When EBV-plasmid/poly-amidoamine dendrimer complex was injected into PC-3-derived tumors established in severe combined immunodeficiency mice, a considerable expression of marker gene was obtained in the tumors, and the expression level was more than eight-fold higher than that achieved by conventional plasmid vector/dendrimer. Since most PC cells express the apoptotic signal molecule Fas (Apo-1/CD95) on their surface, Fas ligand (FasL) gene was transferred into PC cells to kill the tumor cells. In vitro transfection with pGEG.FasL (an EBV-plasmid with the FasL gene) significantly reduced the viability of PC cells, which subsequently underwent apoptosis. Intratumoral injections of pGEG.FasL into PC induced significant growth suppression of the xenograft tumors, in which typical characteristics of apoptosis were demonstrated by TUNEL staining and electron microscopic observations. When pGEG.FasL transfer was accompanied by systemic administrations of cisplatin, the tumors were inhibited even more remarkably, leading to prolonged survival of the animals. FasL gene transfection by means of EBV-based plasmid/cationic macromolecule complexes may provide a practical therapeutic strategy against PC.
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PMID:Nonviral genetic transfer of Fas ligand induced significant growth suppression and apoptotic tumor cell death in prostate cancer in vivo. 1260 98

The p53 mutant 143Ala is a human temperature-sensitive mutant with two conformational states. To definitively determine whether the Fas signal transduction pathway and the function of the pathway are dependent on p53 status, we have established stable transfectants of p53 mutant 143Ala in two human cancer cell lines: H1299 (lung cancer line) and PC-3 (prostate cancer line), the native state of which contains null p53 status and can grow at 37 degrees C and 32.5 degrees C. 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay and cell cycle analysis showed inhibition of the growth of cells overexpressing p53 mutant 143Ala in the wild-type p53 form at 32.5 degrees C because of induction of G0/G1 arrest. Transfected cells had increased protein expression of p21, Fas, and MDM2 at the wild-type p53 conformation at 32.5 degrees C, but not in the mutant p53 form at 37 degrees C. However, there was no change in protein expression of FADD, FAP-1, Bcl-2, or Bax at 32.5 or 37 degrees C. Assays for apoptosis demonstrated that anti-Fas antibody CH-11 and FasL induced apoptosis only in cells that overexpress p53 mutant 143Ala at 32.5 degrees C with the wild-type p53 form. Both caspase-3 and caspase-8 activities were increased by anti-Fas antibody CH-11 only in cells at 32.5 degrees C with wild-type p53. Our results demonstrated that Fas-mediated apoptosis in H1299 and PC-3 cells expressing p53 mutant 143Ala occurred only with the wild-type p53 phenotype. These results support the hypothesis that Fas-mediated apoptosis is dependent, at least partially, on the presence of a functional wild-type p53 state. This model may be a useful tool for dissecting the specific interactions between wild-type p53 and the Fas signal transduction pathway in human cancer cells.
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PMID:Fas-mediated apoptosis is dependent on wild-type p53 status in human cancer cells expressing a temperature-sensitive p53 mutant alanine-143. 1267 Sep

Inducing Fas-mediated apoptosis in prostate cancer (PCa) is a promising new therapeutic approach with the potential to overcome delivery issues currently problematic in cancer gene therapy. We have previously demonstrated that a Fas Ligand (FasL) expressing adenovirus (AdGFPFasL(TET)) was able to induce Fas-mediated apoptosis in a panel of PCa cell lines regardless of their Fas-sensitivity as determined by the agonistic Fas antibody CH-11. We now report that AdGFPFasL(TET)-infected cells produce apoptotic bodies and cellular debris that continues to elicit FasL-mediated bystander killing in uninfected neighboring cells. Using light microscopy, we demonstrate that AdGFPFasL(TET)-infected cells release apoptotic bodies and cellular debris into the local environment and that this material will induce bystander killing in Jurkat, PPC-1, and PC-3 target cells, but not in DU145 and K-562 cells. The bystander killing mechanism is mediated through Fas/FasL interaction because it is significantly inhibited if target cells are pretreated with the pan spectrum caspase inhibitor Z-VAD-FMK or the Fas neutralizing antibody ZB-4. Coincubation of PPC-1 target cells with apoptotic bodies and cellular debris (effector material) induce nearly complete target cell killing at a ratio of 1:1 target to effector. Collectively, these data indicate that AdGFPFasL(TET)-infected PCa cells release apoptotic and cellular debris capable of inducing bystander killing in PCa and supports the development of FasL as a gene therapy agent.
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PMID:Quantification and characterization of the bystander effect in prostate cancer cells following adenovirus-mediated FasL expression. 1267 6

The pathologic grade and clinical stage have some restrictions for the evaluation of the prognosis of prostate carcinoma. Recently, the function of genes related to apoptosis and tumor suppressor genes on the development, progression,and prognostic value of prostate carcinoma was paid close attention due to further research on the molecular pathology of prostate cancer. Overexpression of Bcl-2 was found in high malignant patients of prostate carcinoma and related to androgen refraction and resistance against anticancer agents as well. The mutation of p53 was found in prostatic intraepithelial neoplasia(PIN) and prostate cancer. p53 can be used as an independent prognostic factor for prostate cancer. The deletion of PTEN and p27 is an important negative factor of prognosis. Overexpression of p21 and p16 which are inhibition protein of cell cycle have effects on the formation and differentiation of prostate cancer. Fas/FasL system plays an important role in apoptosis of prostatic epithelial cells and takes part in the carcinogenesis of prostate. BRCA1 and p73 also have effects on the genesis and development of prostate cancer.
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PMID:[Recent advances on molecular pathology of prostate carcinoma]. 1275 24

To evaluate the clinical usefulness of serum soluble Fas (sFas) and sFas ligand as a prognostic factor and for monitoring the regression and progression of metastatic prostate cancer treated with endocrine therapy, sFas and sFas ligand were measured in sera collected from 30 patients with untreated metastatic prostate cancer. sFas levels were measured sequentially in 16 patients who had progressed to a state of elevated prostate-specific antigen (PSA) and 5 patients who were in regression following endocrine therapy. Serum sFas levels in patients with metastatic prostate cancer were found to be significantly higher than that of control patients with benign prostate hyperplasia. Patients with low levels of serum sFas had a higher cause-specific survival rate and a higher PSA progression-free rate compared with patients with high levels of serum sFas. In patients who suffered PSA progression following endocrine therapy, serum sFas increased in parallel to the increase in PSA levels although the magnitude of change in sFas was very small. In patients whose tumor regressed following therapy, sFas levels did not change. sFas ligand levels were very low or below measurable levels in all specimens. sFas levels might be associated with poor prognosis in metastatic prostate cancer. Serum sFas ligand appears to have limited clinical relevance.
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PMID:Prognostic significance of serum soluble Fas level and its change during regression and progression of advanced prostate cancer. 1461 20

The prostate apoptosis response-4 (par-4) gene was isolated in a differential screen for immediate-early genes that are up-regulated during apoptosis of prostate cancer cells. Unlike most other immediate-early genes, par-4 is exclusively induced during apoptosis. The expression or induction of par-4 is not restricted to prostatic cells. The par-4 gene is widely expressed in diverse normal tissues and cell types and conserved during evolution. Par-4 protein contains a leucine zipper domain that is essential for sensitization of cells to apoptosis. Functional studies indicate that par-4 expression is necessary to induce apoptosis. Par-4 protein may induce apoptosis by a p53-independent pathway that involves cytoplasmic inactivation of atypical protein kinase C isoforms resulting in down-regulation of MAP kinase activity and an up-regulation of p38 kinase activity. However, Par-4 is detected in the cytoplasm and in the nucleus, suggesting both cytoplasmic and nuclear roles for the pro-apoptotic protein. Interestingly, Par-4 is predicted to contain a death domain homologous to that of Fas or TRADD, and may therefore trigger a death cascade analogous to that of the death domain proteins. Par-4-dependent apoptosis is abrogated by Bcl-2 and by caspase inhibitors. Identification of the components of the p53-independent apoptosis pathway induced by Par-4 may help to further elucidate the mechanism of Par-4 action. Moreover, in view of the pro-apoptotic function of Par-4, its role in diseases, such as cancer and neurogenerative disorders, whose pathophysiology involves apoptotic cell death needs further investigation.
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PMID:Apoptosis mediated by a novel leucine zipper protein Par-4. 1464 2


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