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)

Human recombinant tumor necrosis factor-alpha (rTNF-alpha, 10(-12)-10(-8) M) inhibited the proliferation of androgen-dependent LNCaP cells by 32-56%. In contrast, proliferation of androgen-independent PC-3 and JCA-1 cells was only slightly inhibited, or not inhibited at all, respectively. Human recombinant interferon-gamma (rIFN-gamma, 500 U/ml) decreased proliferation of PC-3 and JCA-1 cells by 35% and 53%, respectively, but had no effect on LNCaP cells. Interestingly, the combination of rIFN-gamma and TNF-alpha had greater antiproliferative effects on JCA-1 cells than treatment with either cytokine alone. However, the antiproliferative effects of this combination were similar to those observed for PC-3 or LNCaP cells treated with rIFN-gamma or TNF-alpha alone, respectively. These data suggest that some forms of androgen-independent prostate cancer may benefit from a combination therapy of IFN-gamma and TNF-alpha, while the use of IFN-gamma alone may be more efficacious in others.
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PMID:Effect of tumor necrosis factor-alpha and interferon-gamma on the growth of human prostate cancer cell lines. 853 4

We have identified a new antiproliferative activity from the conditioned medium of two androgen-independent prostatic cancer cell lines, PC3 and DU-145. This antiproliferative activity selectively inhibited cell proliferation of an androgen-dependent prostate cancer cell line LNCaP in a dose-dependent manner. No antiproliferative activity was observed against mouse fibroblast 3T3, normal human lymphocytes, human leukemic cells, including promyelocyte HL-60 or T cell HUT-78, or human adenocarcinoma cell lines, including prostatic cells JCA-1, ovary NIH:OVCAR-3, cervix C-33A, or breast MDA-MB-231. Cell cycle analysis revealed that the antiproliferative activity did not induce apoptosis in LNCaP cells, but it prevented some G1 LNCaP cells from entering into the S phase of the cell cycle. The antiproliferative activity was sensitive to high temperature (100 degrees C) and to proteinase digestion; however, it was resistant to 56 degrees C, pH 2.0, and reducing agent treatment, as well as to DNase and RNase digestion. The antiproliferative activity was partially purified by gel filtration, ion-exchange chromatography, and SDS-PAGE, with an apparent molecular weight of 50 kD. The antiproliferative activity was not affected by neutralizing antibody against TGF-beta 1,2,3, TNF-alpha, PDGF, EGF, IL-1, IL-2, IL-3, IL-4, or IL-6.
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PMID:Antiproliferative effect of a prostatic cell-derived activity on the human androgen-dependent prostatic carcinoma cell line LNCaP. 859 Mar 22

A role has been delineated for both bcl-2 and NF-kappa B in mediating an adaptive survival response to the TNF-alpha signaling pathway for apoptosis. Additionally, we and others have demonstrated a role for bcl-2 upregulation during progression of prostate cancer and acquisition of androgen-independent growth (T. J. McDonnell et al., 1992, Cancer Res. 52, 6940-6944). Therefore, the relationship between bcl-2 and NF-kappa B in regulating TNF-alpha-induced apoptosis was investigated in prostate carcinoma cells. Enforced overexpression of bcl-2 protein in prostatic carcinoma cells impaired TNF-alpha-mediated cytotoxicity. Expression of bcl-2 did not impose a block to, or potentiate, TNF-alpha signaling of I kappa B alpha degradation, nuclear import of the RelA p65, or NF-kappa B-dependent transactivation. Expression of two dominant-negative I kappa B alpha mutant proteins significantly enhanced TNF-alpha-induced apoptosis in control cells but not in cells expressing high levels of bcl-2 protein. Similarly, PDTC, a strong antioxidant that interferes with activation of NF-kappa B in these prostate carcinoma cells, also potentiated TNF-alpha-stimulated apoptosis signaling through a bcl-2-regulated mechanism. These findings indicate that modulation of NF-kappa B survival signaling may be used to clinical advantage in the treatment of prostate cancer patients. The efficacy of strategies proposed to enhance TNF-alpha-mediated cytotoxicity by inhibiting NF-kappa B will likely be influenced by context-dependent variables such as bcl-2 expression.
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PMID:Bcl-2 suppresses apoptosis resulting from disruption of the NF-kappa B survival pathway. 941 72

The purpose of the present study was to determine the therapeutic potential of combining radiotherapy with tumor necrosis factor (TNF)-alpha-based gene therapy in the human prostate cancer PC-3 xenograft. PC-3 cells are highly resistant to TNF-alpha-induced cytotoxicity in vitro. A modest enhancement of radiation killing was observed with the addition of TNF-alpha in clonogenic survival assays. Combined treatment with Ad.Egr-TNF, a replication-deficient adenovirus modified to express TNF-alpha following the exposure of infected cells to ionizing radiation (40 Gy administered at 5 Gy per fraction) in vivo, resulted in increased tumor control, as defined by a reduction of tumor volume, when compared with treatment with Ad.Egr-TNF alone or with radiation alone (P < .03). The improvement in tumor control was achieved without increasing acute normal tissue damage when compared with tissue injury from radiation alone. The results of these studies support further development and clinical application of genetic radiotherapy for human prostate cancer.
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PMID:Tumor necrosis factor-alpha-based gene therapy enhances radiation cytotoxicity in human prostate cancer. 991 88

LNCaP prostate cancer cells are highly resistant to induction of programmed cell death by y-irradiation and somewhat sensitive to the death-inducing effects of tumor necrosis factor (TNF)-alpha. Simultaneous exposure of LNCaP cells to TNF-alpha and 8 Gy of irradiation was synergistic and resulted in a 3-fold increase of apoptotic cells within 72 h compared to TNF-alpha alone. It appeared that TNF-alpha sensitized the cells to irradiation because, when cells were irradiated 24 h after exposure to TNF-alpha, increased cell death was observed. In contrast, irradiation delivered 24 h prior to TNF-alpha exposure did not result in more cell death than after TNF-alpha alone. TNF-alpha induced expression of its own mRNA, but TNF-alpha mRNA induction was neither induced nor enhanced by irradiation. Activation of the transcription factor nuclear factor kappaB can be induced by TNF-alpha and has a modulating antiapoptotic effect. But enhancement of TNF-alpha-induced cell death by irradiation did not result from altered activation of nuclear factor kappaB. TNF-alpha treatment of LNCaP cells resulted in partial activation of caspase-8 and -6 but not caspase-3. There was only minimal poly(ADP-ribose) polymerase cleavage seen in LNCaP cells after exposure to both TNF-alpha and irradiation at 72 h, a time when 60% of the cells were apoptotic. Experiments with peptide inhibitors of cysteine and serine proteases suggested that caspases were the predominant mediators of apoptosis induced by TNF-alpha alone but that serine proteases contributed significantly to cell death induced by TNF-alpha plus irradiation. TNF-alpha increased production of ceramide in LNCaP cells 48 h after exposure. Although irradiation alone had no effect on ceramide production in LNCaP cells, TNF-alpha plus irradiation induced significantly more ceramide than TNF-alpha alone. Ceramide production did not occur immediately after exposure to TNF-alpha, but rather was delayed such that ceramide levels were increased only 24 h after exposure to apoptotic stimuli. Moreover, non-toxic levels of exogenous C2-ceramide sensitized LNCaP cells to irradiation similarly to TNF-alpha, suggesting that one mechanism by which LNCaP cells were sensitized to irradiation was by increased intracellular ceramide. Hence, ceramide generation is a critical component in radiation-induced apoptosis in human prostate cancer cells. Inhibition of ceramide generation may provide a selective advantage in the development of radioresistance in prostate cancer.
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PMID:Tumor necrosis factor-alpha sensitizes prostate cancer cells to gamma-irradiation-induced apoptosis. 1019 36

To identify prostate cancer-associated Ags, tumor-reactive T lymphocytes were generated using iterative stimulations of PBMC from a prostate cancer patient with an autologous IFN-gamma-treated carcinoma cell line in the presence of IL-2. A CD8+ T cell line and TCR alphabeta+ T cell clone were isolated that secreted IFN-gamma and TNF-alpha in response to autologous prostate cancer cells but not to autologous fibroblasts or lymphoblastoid cells. However, these T cells recognized several normal and malignant prostate epithelial cell lines without evidence of shared classical HLA molecules. The T cell line and clone also recognized colon cancers, but not melanomas, sarcomas, or lymphomas, suggesting recognition of a shared epithelium-associated Ag presented by nonclassical MHC or MHC-like molecules. Although Ag recognition by T cells was inhibited by mAb against CD8 and the TCR complex (anti-TCR alphabeta, CD3, Vbeta12), it was not inhibited by mAb directed against MHC class Ia or MHC class II molecules. Neither target expression of CD1 molecules nor HLA-G correlated with T cell recognition, but beta2-microglobulin expression was essential. Ag expression was diminished by brefeldin A, lactacystin, and cycloheximide, but not by chloroquine, consistent with an endogenous/cytosolic Ag processed through the classical class I pathway. These results suggest that prostate cancer and colon cancer cells can process and present a shared peptidic Ag to TCR alphabeta+ T cells via a nonclassical MHC I-like molecule yet to be defined.
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PMID:Recognition of a shared human prostate cancer-associated antigen by nonclassical MHC-restricted CD8+ T cells. 1057 Mar 28

Activation of either tumor necrosis factor receptor 1 or Fas induces a low level of programmed cell death in LNCaP human prostate cancer cells. We have shown that LNCaP cells are entirely resistant to gamma-radiation-induced apoptosis, but can be sensitized to irradiation by TNF-alpha. Fas activation also sensitized LNCaP cells to irradiation, causing nearly 40% cell death 72 h after irradiation. Caspase-8 was cleaved and activated after exposure to tumor necrosis factor (TNF)-alpha. However, after exposure to anti-Fas antibody caspase-8 cleavage occurred only between the 26-kDa N-terminal prodomain and the 28-kDa C-terminal region that contains the protease components. Although anti-Fas antibody plus irradiation induced apoptosis that could be blocked by the pancaspase inhibitor zVAD, there was no measurable caspase-8 activity after exposure to anti-Fas antibody. The effector caspases-6 and -7, and to a lesser extent caspase-3, were activated by TNF-alpha, but not by anti-Fas antibody. Anti-Fas antibody, like TNF-alpha also activated serine proteases that contributed to cell death. Exposure of LNCaP cells simultaneously to TNF-alpha and anti-Fas antibody CH-11 resulted in marked enhancement of apoptosis that occurred very rapidly and was still further augmented by irradiation. Rapid apoptosis that ensued from combined treatment with TNF-alpha, anti-Fas antibody, and irradiation was completely blocked either by zVAD or expression of dominant negative Fas-associated death domain. Our data shows that there are qualitative differences in caspase activation resulting from either TNF receptor 1 or Fas. Simultaneous activation of these receptors was synergistic and caused rapid epithelial cell apoptosis mediated by the caspase cascade.
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PMID:Tumor necrosis factor-alpha and Fas activate complementary Fas-associated death domain-dependent pathways that enhance apoptosis induced by gamma-irradiation. 1072

Mycobacterial preparations have been used with limited success against cancer apart from superficial bladder cancer. Recently, a therapeutic vaccine derived from Mycobacterium vaccae has been given to patients with prostate cancer and melanoma indicating a possible beneficial effect on disease activity in such patients. We have recently initiated a series of randomized studies to test the feasibility and toxicity of combining a preparation of heat-killed Mycobacterium vaccae (designated SRL172) with a multidrug chemotherapy regimen to treat patients with inoperable non-small cell lung cancer (NSCLC) and mesothelioma. 28 evaluable patients with previously untreated symptomatic NSCLC and mesothelioma were randomized to receive either 3 weekly intravenous combination chemotherapy alone, or chemotherapy given with monthly intra-dermal injections of SRL172. Safety and tolerability were scored by common toxicity criteria and efficacy was evaluated by survival of patients and by tumour response assessed by CT scanning. The toxicity of chemotherapy was similar in the two groups. SRL172 caused mild inflammation at the injection site. In the group of patients randomized to receive chemotherapy combined with SRL172, there was a trend towards improved response rate (54% vs. 33%) with more patients in the combined arm receiving radical surgery and radiotherapy, improved median survival (9.7 months vs. 7.5 months) and improved 1 year survival (42% vs. 18%). SRL172 appeared to improve sleep (P = 0.08) and improved appetite (P = 0.01). There was no detectable change in serum cytokine levels for gamma-interferon and TNF-alpha before and after treatment. In patients with NSCLC and mesothelioma, there may be a beneficial interaction when chemotherapy is administered in combination with SRL172. Confirmation of this effect and further investigation is underway in a randomized phase III trial and in laboratory models.
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PMID:A randomized phase II study of SRL172 (Mycobacterium vaccae) combined with chemotherapy in patients with advanced inoperable non-small-cell lung cancer and mesothelioma. 1097 Jun 84

The ADAMs are a multi-functional gene family, some of which have been shown to play a role in diverse biological processes such as fertilization, myogenesis, neurogenesis and the activation of growth factors/immune regulators such as TNF-alpha. So-named because they possess both A Disintegrin And Metalloprotease domain, the ADAMs have potential implications for the metastasis of human tumour cells via cell adhesion and protease activities. However, no studies have yet comprehensively examined the expression or regulation of ADAMs in solid tumours. Therefore, the aim of this study was to examine the expression of the ADAMs in human prostate cancer cell lines and to examine their possible regulation by androgen, a primary hormonal regulator of prostate cancer cell proliferation and metastasis. Applying RT-PCR, ADAM-9, -10, -11, -15 and -17 mRNA expression was found in the androgen-dependent prostate cancer cell lines, LNCaP and ALVA-41 and the androgen-independent cell lines, DU-145 and PC-3. Northern blotting of LNCaP cell total RNA revealed transcripts for ADAM-9 (3.8 kb), ADAM-10 (4.4, 3.2 and 0.54 kb), ADAM-15 (3 kb) and ADAM-17 (4 and 2.6 kb). ADAM-11 transcript was not detected by Northern blotting possibly due to low levels of ADAM-11 mRNA expression. This is the first report of ADAM expression in prostate cancer cell lines. Since androgens are implicated in prostate cancer cell growth and maintenance, the regulation of ADAMs by dihydrotestosterone (DHT) was investigated in the androgen-dependent cell line LNCaP. It was shown by quantitative RT-PCR using continuous fluorescence monitoring that ADAM-10 mRNA expression was regulated in a bell shaped, dose-dependent manner by DHT. Maximum stimulation was observed at 1.0 nM DHT (5-fold significant increase). For ADAM-9 mRNA, a significant upregulation was found at 1.0 and 10 nM (1.5-1.7-fold increase). In contrast, ADAM-17 mRNA, was significantly inhibited at 0.1 and 1.0 nM (1.7-fold decrease). This is the first report, to our knowledge, illustrating hormonal regulation of ADAM mRNA. The novel data described here also provide a strong stimulus to the development of specific quantitative and functional assays for particular ADAMs. These assays, which are not yet available, are required to enable subsequent investigation, both in vitro and in vivo, of the specific roles of each ADAM in prostate cancer cell proliferation, cell motility and invasion.
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PMID:The expression of the ADAMs proteases in prostate cancer cell lines and their regulation by dihydrotestosterone. 1100 May 16

Survival of cancer cells in response to therapy, immune response, or metastasis depends on interactions between pro- and antiapoptotic signals. Two major proapoptotic pathways have been described: (a) a death receptor pathway; and (b) a mitochondrial pathway. We reported previously that Akt and the epidermal growth factor (EGF) receptor send separate, redundant survival signals that act to inhibit the mitochondrial proapoptotic pathway in prostate cancer LNCaP cells. However, it was unclear at what level the pro- and antiapoptotic signals interact in these cells, and it was also unclear whether these signals would inhibit the death receptor pathway. We found that EGF can protect LNCaP cells from apoptosis induced by LY294002 but not from tumor necrosis factor a (TNF-alpha)-induced apoptosis. Furthermore, TNF-alpha induced apoptosis under conditions in which Akt was active. Treatment with TNF-alpha resulted in activation of caspase 8 and cleavage of BID, which in turn induced cytochrome c release and caspase 9-dependent activation of effector caspases. Thus, proapoptotic signals induced by both TNF-alpha and LY294002 converge on mitochondria and trigger cytochrome c release. Because EGF can inhibit cytochrome c release induced by LY294002 but not cytochrome c release induced by TNF-alpha, we suggest that the EGF survival mechanism operates on the mitochondrial pathway at a site upstream of cytochrome c release. The ability of TNF-alpha to bypass survival signals from activated EGF receptor and Akt in prostate cancer cells makes death receptor signaling a promising avenue for therapeutic intervention.
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PMID:Tumor necrosis factor alpha induces BID cleavage and bypasses antiapoptotic signals in prostate cancer LNCaP cells. 1128 52


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