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)

It is now becoming accepted that one is not tolerant to all the determinants of self proteins: the T cell repertoire directed to some sequences in self proteins is intact and can be activated. When a self protein is exclusively expressed by tumour cells, the T cell repertoire directed to the particular self antigen can potentially be activated to attack the tumour: this would amount to induction of a beneficial autoimmune response. Prostate cancer offers a unique opportunity for activation of a tumour-specific immune response owing to the exclusive synthesis of prostate-specific antigen (PSA) and prostate-specific membrane antigen (PSM) by prostatic tissue and prostate tumour cells. In this study we examine the CD4 and CD8 T cell repertoires specific for peptides of PSA and PSM in normal human male individuals, using short-term, peptide antigen-driven CD4 and CD8 T cell lines. We show that short-term, CD4 T cell lines derived from six HLA-DR4 individuals showed strong proliferative responses to six of 10 tested peptides of PSA, selected as to contain a DR4 binding motif. Short-term, CD8 T cell lines from three HLA-A1 individuals showed specific cytolytic activity for autologous targets loaded with five of five tested peptides of PSA and PSM, selected to possess an HLA-A1 binding motif. One of the peptides chosen is termed a 'dual-motif' peptide, as it encodes determinants for both CD4 and CD8 T cells. These results, indicating the existence of CD4 and CD8 T cells against determinants of the self proteins, PSA and PSM, in healthy male individuals reveal the potential of the T cell repertoire from the typical prostate cancer patient to eradicate prostate tumours upon being appropriately activated.
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PMID:Recognition of prostate-specific antigenic peptide determinants by human CD4 and CD8 T cells. 982 72

We have demonstrated that Apo-2 ligand (Apo-2L)/tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) induces apoptosis of human prostate cancer PC-3, DU145, and LNCaP cells in a dose-dependent manner, with PC-3 cells displaying the greatest sensitivity to Apo-2L/TRAIL. Susceptibility of the prostate cancer cell types to Apo-2L/TRAIL-induced apoptosis did not appear to correlate with the levels of the Apo-2L/TRAIL receptors death receptor (DR) 4 (TRAIL receptor 1) or DR5 (TRAIL receptor 2), decoy receptor (DcR) 1 and DcR2, Flame-1, or the inhibitors of apoptosis proteins family of proteins. Apo-2L/TRAIL-induced apoptosis of PC-3 cells was associated with the processing of caspase-8, caspase-10, and the proapoptotic Bid protein, resulting in the cytosolic accumulation of cytochrome c as well as the processing of procaspase-9 and procaspase-3. Cotreatment with the caspase-8 inhibitor z-IETD-fmk or DR4:Fc significantly inhibited Apo-2L/TRAIL-induced apoptosis. Treatment with paclitaxel or taxotere increased DR4 and/or DR5 protein levels (up to 8-fold) without affecting the protein levels of DcR1 and DcR2, Apo-2L/TRAIL, Fas, or Fas ligand. Up-regulation of DR4 and DR5 was not preceded by the induction of their mRNA levels but was inhibited by cotreatment with cycloheximide. Importantly, sequential treatment of PC-3, DU145, and LNCaP cells with paclitaxel followed by Apo-2L/TRAIL induced significantly more apoptosis than Apo-2L/TRAIL treatment alone (P < 0.01). This was also associated with greater processing of procaspase-8 and Bid, as well as greater cytosolic accumulation of cytochrome c and the processing of caspase-3. These findings indicate that up-regulation of DR4 and DR5 protein levels by treatment with paclitaxel enhances subsequent Apo-2L/TRAIL-induced apoptosis of human prostate cancer cells.
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PMID:Pretreatment with paclitaxel enhances apo-2 ligand/tumor necrosis factor-related apoptosis-inducing ligand-induced apoptosis of prostate cancer cells by inducing death receptors 4 and 5 protein levels. 1121 79

Sulindac is the most extensively investigated clinically relevant chemopreventive nonsteroidal anti-inflammatory drug. Sulindac sulfide is one of the major metabolites of sulindac that is believed to mediate its antitumorigenic effects by inducing apoptosis. Recent evidence suggests that sulindac sulfide engages the mitochondrial pathway involving caspase 9 and Bax to mediate its apoptotic effects [Zhang et al., Science (Wash. DC), 290: 989-992, 2000]. In this report, we demonstrate that sulindac sulfide also engaged the membrane death receptor (DR) pathway to mediate apoptosis. Sulindac sulfide up-regulated DR5 and activated the proximal caspase 8 in various different colon and prostate cancer cell lines. Sulindac sulfide specifically up-regulated the DR5 levels but had no effect on the levels of other DRs including DR4, Fas, and tumor necrosis factor receptor 1. To further delineate the role of DR5 in sulindac sulfide-induced apoptosis, we used JCA-1 prostate cancer cells that are deficient in mounting a Fas and tumor necrosis factor receptor 1-dependent apoptotic response but are proficient in mediating DR5-dependent apoptosis. JCA-1 cells were stably transfected with dominant-negative Fas-associated death domain to block the flow of apoptotic signals originating from the endogenous DR5, and sulindac sulfide-induced apoptosis was investigated. Our results indicated that by blocking the DR5-dependent apoptotic pathway, dominant-negative Fas-associated death domain did indeed inhibit sulindac sulfide-induced apoptosis. Furthermore, exogenous tumor necrosis factor-related apoptosis-inducing ligand, the ligand for DR5, also potentiated sulindac sulfide-induced apoptosis in all of the cell lines tested, thereby further supporting the involvement of DR5 in sulindac sulfide-induced apoptosis. Thus, our results demonstrate that sulindac sulfide also engages the membrane DR pathway involving DR5 and proximal caspase 8 to induce apoptosis.
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PMID:Sulindac sulfide-induced apoptosis involves death receptor 5 and the caspase 8-dependent pathway in human colon and prostate cancer cells. 1155 70

We describe the effects of tumor necrosis factor alpha-related apoptosis inducing ligand (TRAIL) on the induction of apoptosis in two related prostate cancer cell lines, PC3AR and PC3Neo. TRAIL is a potent drug, which induces apoptosis preferentially in cancer cells. Treatment of prostate cancer cells, reduced survival by approximately 41% in PC3AR, but only approximately 18% PC3Neo were killed. Western analysis demonstrated that increased apoptotic response of PC3AR cells may be due to differential response of death receptors DR4, DR5 and decoy receptors DcR1 and DcR2. Caspases-8, -9, -3 and Bid were highly activated in PC3AR cells compared to PC3Neo. Furthermore, lower apoptotic response of PC3Neo was probably due to higher expression of NFkappaB. Blocking the function of NFkappaB by adenoviral infection of mutated IkappaB, increased apoptotic response confirming the influence of NFkappaB. Thus, we have demonstrated the role of NFkappaB in the differential response of prostate cancer cells to TRAIL.
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PMID:Reduced response of prostate cancer cells to TRAIL is modulated by NFkappaB-mediated inhibition of caspases and Bid activation. 1206 57

Selenium is an essential micronutrient that is currently being tested for prostate cancer chemoprevention. In spite of its significant promise as a chemopreventive agent, the molecular mechanisms of selenium-mediated effects remain to be elucidated. Recent evidence suggests that selenium may mediate its chemopreventive effects by inducing apoptosis in human prostate cancer cells. Here we report that selenium-mediated apoptosis appears to involve membrane death receptor, DR5-dependent pathway in human prostate cancer cells. Selenium specifically upregulated DR5 expression but not that of DR4. Selenium upregulation of DR5 was coupled with caspase 8 activation and Bid cleavage thereby suggesting the existence of a potential cross-talk between the DR5 and the mitochondrial pathways. Thus, our results suggest that DR5 is specifically regulated by selenium and its activation may play an important role in selenium-mediated chemoprevention.
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PMID:Death receptor 5 regulation during selenium-mediated apoptosis in human prostate cancer cells. 1243 80

Tumor necrosis factor-related apoptosis inducing ligand (TRAIL/Apo2L) can induce receptor-mediated apoptosis in prostate cancer cell lines that have been co-treated with the chemotherapeutic agent doxorubicin (Voelkel-Johnson C, et al. Cancer Gene Therapy 2002; 9:164-172). In this study, we report that pretreatment with doxorubicin is sufficient to sensitize cells to TRAIL. To identify possible targets of doxorubicin, we analyzed levels of several Bcl-2 family members, TRAIL receptors and the anti-apoptotic protein c-FLIP. Doxorubicin did not affect steady state levels of Bax, Bcl-2 and Bcl-X(L) in the majority of the prostate cancer cell lines. TRAIL receptor mRNAs (DR4, DR5, and DcR2) were induced by doxorubicin but these changes were not reflected at the protein level. In contrast, in response to doxorubicin, levels of c-FLIP, particularly FLIP(S), decreased in all cell lines tested. The decrease in c-FLIP(S) correlated with onset and magnitude of caspase-8 and PARP cleavage in PC3 cells. In two TRAIL resistant cell lines, DU145 and LNCaP, treatment with TRAIL alone resulted in processing of c-FLIP(L) and initiated abortive caspase-8 proteolysis. TRAIL treatment did not affect levels of c-FLIP(S) in Du145 and LNCaP cells and did not result in PARP cleavage. Therefore, our results suggest that doxorubicin- mediated down regulation of c-FLIP(S) predisposes cells to TRAIL-induced apoptosis.
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PMID:Doxorubicin pretreatment sensitizes prostate cancer cell lines to TRAIL induced apoptosis which correlates with the loss of c-FLIP expression. 1249 82

Prostate cancer is one of the most common cancers in men and is the second leading cause of cancer-related deaths in the USA. Many anti-tumor agents against prostate cancer cells have been developed, but their unacceptable systemic toxicity to normal tissues frequently limits their usage in clinics. Several previous studies have demonstrated that tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) can induce cell death in a variety of transformed cells including prostate cancer cells, but not normal cells. Indole-3-carbinol (I3C), a phytochemical that is produced in fruits and vegetables, may play an important role in the prevention of many types of cancer, including hormone-related ones such as breast and prostate cancer. In this study, we examined the potential sensitizing effects of I3C on TRAIL-mediated apoptosis in a prostate cancer cell line, LNCaP. When LNCaP cells were incubated with I3C (either 30 or 90 microM) for 24 h and then treated with TRAIL (100 ng/ml), enhanced TRAIL-mediated apoptosis was observed. The enhanced apoptosis measured by poly(ADP-ribose) polymerase and caspase 3 cleavage. We also observed that loss of cell viability after treatment with I3C/TRAIL is greater compared with I3C and TRAIL alone. To determine the molecular mechanisms involved in the enhanced apoptosis, we examined the expression of two TRAIL death receptors (DR4 and DR5) and two TRAIL decoy receptors (DcR1 and DcR2). We found that treatment with I3C induced DR4 and DR5 expression at both transcriptional and translational levels. These findings suggest that I3C may be an effective sensitizer of TRAIL treatment against TRAIL-resistant prostate cancer cell lines such as LNCaP.
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PMID:Pretreatment of indole-3-carbinol augments TRAIL-induced apoptosis in a prostate cancer cell line, LNCaP. 1278 25

Prostate cancer is a major health problem among American men and new treatment approaches are needed. Tumor necrosis factor related apoptosis-inducing ligand (TRAIL/Apo2L) is a death ligand that can induce apoptosis in some but not all cancer cells. Resistance to TRAIL-mediated apoptosis can be overcome by radiation or chemotherapy. The effect of doxorubicin/TRAIL combination therapy was compared among PC3, normal prostate epithelial (PrEC) and stromal (PrSC) cells and cell viability measured by MTS assay. Combination of doxorubicin and TRAIL caused cytotoxicity in all cells tested, although PrSC were more resistant. There was no correlation between TRAIL phenotype and expression of c-FLIP, caspases or TRAIL decoy receptors, although PrSC failed to express DR4. A DR4-specific antibody, which behaved as an agonist in combination with doxorubicin, selectively induced cell death in malignant but not normal prostate cells. Although normal PrEC expressed DR4 as determined by western blot, flow cytometry revealed that only maligant prostate cancer cells (PC3, JCA-1) and not PrEC's exhibited DR4 surface expression. Therefore, combination of doxorubicin and an antibody to DR4 might have therapeutic potential for the treatment of prostate cancer by selectively targeting malignant prostate cells.
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PMID:An antibody against DR4 (TRAIL-R1) in combination with doxorubicin selectively kills malignant but not normal prostate cells. 1287 68

An effective tumor vaccine may require the induction of both CTL and T-helper (Th) cell responses against tumor-associated antigens. Human telomerase reverse transcriptase (hTERT) is highly expressed in >85% of cancer cells and thus is a potential target for tumor vaccines. We therefore sought to identify promiscuous Th epitopes in hTERT, which can be presented by more than one MHC class II allele. Each of 10 peptides derived from hTERT that were predicted to bind to MHC class II molecules was found to be able to induce primary human T-cell responses in vitro. We then established CD4(+) T-cell clones specific for these peptides and found that only hTERT(766) (LTDLQPYMRQFVAHL)-specific CD4(+) Th cells were effective in recognizing naturally processed hTERT antigen. We further found that the naturally processed epitopes hTERT(766) and hTERT(672) (which was identified previously) were promiscuous and capable of inducing CD4(+) T-cell responses in the context of several commonly found HLA-DR alleles, including DR1, DR7, and DR15 for hTERT(672), and DR4, DR11, and DR15 for hTERT(766). We further demonstrated that immunization of humanized HLA-DR4 transgenic mice with hTERT(766) peptide elicited antigen-specific Th responses that can recognize the antigenic peptides derived from hTERT protein and various hTERT-positive tumors, such as breast cancer, melanoma, and leukemia. It was also shown that T-cell precursors specific for the naturally processed epitopes are part of the T-cell repertoires in healthy donors and prostate cancer patients. Thus, these promiscuous, naturally processed Th epitopes in hTERT could be used to develop improved cancer vaccines through the simultaneous stimulation of CTL and Th cells against a broad spectrum of hTERT-positive tumors.
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PMID:Human telomerase reverse transcriptase-specific T-helper responses induced by promiscuous major histocompatibility complex class II-restricted epitopes. 1458 45

TNF-related apoptosis-inducing ligand (TRAIL) selectively induces programmed cell death (apoptosis) in various cancer cells but not in normal cells. TRAIL is known to bind to 4 different receptors, 2 proapoptotic (DR4 and DR5), and 2 potentially antiapoptotic receptors lacking death domains (DcR1 and DcR2). Aberrant promoter methylation and resultant silencing of tumor suppressor genes play an important role in the pathogenesis of many tumor types. Recently aberrant methylation of TRAIL decoy receptors was reported in pediatric tumor cell lines and neuroblastomas. We examined the methylation and expression status of TRAIL receptor genes in cancers of breast, lung, mesothelioma, prostate, bladder, cervix, ovary, brain and in hematopoietic malignancies. Aberrant methylation of DcR1 or DcR2 was present in 70% of primary breast cancers, 31% of primary lung cancers, in 63% of primary malignant mesothelioma (MM), in 60% of prostate cancer, in 42% of bladder cancer, in 100% of cervical cancer, in 43% of ovarian cancer, in 41% of lymphoma, in 26% of leukemia and in 56% of multiple myeloma. Methylation of DR4 and DR5 was rare in all the tumor types examined. Methylation of all the 4 receptors was rare in non malignant tissues. In cell lines, aberrant methylation of DcR1 was present in 11 of 23 (48%) breast, 10 of 27 (37%) lung and 3 of 7 (43%) MM, whereas aberrant methylation of DcR2 was present in 17 of 23 (74%) breast, 13 of 27 (48%) lung and 5 of 7 (71%) MM. The concordance between loss of gene expression and aberrant methylation ranged from 70-100%. Treatment with 5-aza-2'-deoxycytidine restored DcR1 and DcR2 expression in 9 methylated cell lines confirming that aberrant methylation was the cause for silencing of DcR1 and DcR2 expression. Our results demonstrate that DcR1 and DcR2 genes are frequently methylated in various tumor types, and that the role of decoy receptors in tumor pathogenesis needs to be re-evaluated.
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PMID:Aberrant methylation of trail decoy receptor genes is frequent in multiple tumor types. 1499 91


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