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)

Inosine 5-monophosphate dehydrogenase II, a key enzyme in the de novo synthesis of purine nucleotides, is expressed in prostate tumors and prostate cancer cells. AVN944 is a new, specific, noncompetitive IMPDH inhibitor. In this study, we investigated the effects of IMPDH inhibitor AVN944 on LNCaP, CWR22Rv1, DU145 and PC-3 human prostate cancer cells. AVN944 inhibited proliferation of these 4 prostate cancer cell lines and was associated with cell cycle G1 arrest of LNCaP cells and S-phase block of androgen-independent CWR22Rv1, DU145 and PC-3 cells. AVN944 induced caspase-dependentand caspase-independent cell death in LNCaP, CWR22Rv1, and DU145 cells. AVN944 induced expression of p53-target proteins Bok, Bax and Noxa in androgen-responsive cell lines and suppressed expression of survivin in prostate cancer cells regardless of their androgen sensitivity. AVN944 also induced differentiation of androgen-independent prostate cancer cells as indicated by morphological changes and increased expression of genes coding for prostasomal proteins, keratins and other proteins, including tumor suppressor genes MIG-6 and NDRG1. AVN944-differentiated androgen-independent DU145 and PC-3 cells are sensitized to TRAIL-induced apoptosis as demonstrated by induction of caspases and PARP cleavage. In summary, AVN944 inhibited the growth of human prostate cancer cells by inducing cell cycle arrest, cell death as well as differentiation. AVN944 is a novel, promising therapeutic agent that might be combined with other agents for treatment of human prostate cancer.
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PMID:Antiproliferative effects of AVN944, a novel inosine 5-monophosphate dehydrogenase inhibitor, in prostate cancer cells. 1871 36

Activation of PKCdelta in androgen-dependent LNCaP prostate cancer cells leads to apoptosis via the activation of p38 MAPK and JNK cascades. We have recently shown that treatment of LNCaP cells with phorbol 12-myristate 13-acetate (PMA) leads to a PKCdelta-mediated autocrine release of death factors, including the cytokines TNFalpha and TRAIL, and that conditioned medium (CM) collected from PMA-treated LNCaP cells promotes the activation of the extrinsic apoptotic cascade. Interfering with this autocrine loop either at the level of factor release or death receptor activation/signaling markedly impaired the PMA apoptotic response. In the present study we show that this PKCdelta-dependent autocrine mechanism is greatly influenced by androgens. Indeed, upon androgen depletion, which down-regulates PKCdelta expression, TNFalpha and TRAIL mRNA induction and release by PMA are significantly diminished, resulting in a reduced apoptogenic activity of the CM and an impaired ability of the CM to activate p38 MAPK and JNK. These effects can be rescued by addition of the synthetic androgen R1881. Furthermore, RNAi depletion of the androgen-receptor (AR) from LNCaP cells equally impaired PMA responses, suggesting that PKC-mediated induction of death factor secretion and apoptosis in LNCaP prostate cancer cells are highly sensitive to hormonal control.
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PMID:PKC-mediated secretion of death factors in LNCaP prostate cancer cells is regulated by androgens. 1875 41

Although 15-deoxy-Delta(12,14)-prostaglandin J(2) (15dPGJ(2)) was reported to up-regulate death receptor 5 (DR5) protein expression and sensitize TRAIL-induced cytotoxicity, its action mechanism remains unclear. Using HCT116 colon cancer cells, we found that sensitization of TRAIL-induced cytotoxicity by 15dPGJ(2) resulted from up-regulation of DR5 via gene transcription but was not associated with PPAR-gamma activation. Moreover, 15dPGJ(2) induced GRP78, XBP1, and C/EBP homologous transcription factor (CHOP) expression in HCT116 cells, confirming that 15dPGJ(2) is an endoplasmic reticulum stress inducer. Knockdown of the CHOP gene by siRNA attenuated DR5 up-regulation and the sensitized cytotoxicity in colon cancer HCT116 and SW480. With deletion plasmids of DR5 promoters, we found that the CHOP-binding site was involved in activating the DR5 gene by 15dPGJ(2). A mechanistic study showed the contributions of reactive oxygen species (ROS) and intracellular calcium in CHOP and DR5 gene up-regulation. 15dPGJ(2) was also found to induce DR5 in two prostate cancer cell lines, LNCaP and PC3. Although in LNCaP DR5 up-regulation was accompanied by CHOP expression by 15dPGJ(2), no significant increase in CHOP expression or DR5 promoter activity was observed in PC3 cells. Intriguingly, 15dPGJ(2) induced ROS and calcium production in PC3 cells. This inability to induce CHOP was not due to the p53-null in PC3 cells, as similar extents of increase in CHOP protein were found due to 15dPGJ(2) in both wild-type and p53-null HCT116 cells. In summary, the effect of up-regulation of DR5 by 15dPGJ(2) in colon cancer cells is independent of PPAR-gamma and p53 but relies on CHOP induction through gene transcription involving ROS and calcium.
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PMID:15-deoxy-Delta12,14-prostaglandin J2 up-regulates death receptor 5 gene expression in HCT116 cells: involvement of reactive oxygen species and C/EBP homologous transcription factor gene transcription. 1885 46

Under normal cell physiology, a balance between cell survival and apoptosis is crucial for homeostasis. Many studies have demonstrated that apoptosis is modulated by cell survival stimuli. Active Akt, a common mediator of cell survival signals, has been shown to inhibit apoptosis by attenuating activity of pro-apoptotic factors Bad and caspase-9. However, the anti-apoptotic mechanisms mediated by various cell survival signals are poorly understood. Human prostate cancer LNCaP cells, known to contain constitutively activated Akt as a result of a frame-shift mutation in PTEN, an inhibitor of PI-3K/Akt pathway, were observed to be completely resistant to TRAIL-induced apoptosis. In agreement with the known action of Akt, blockade of the PI-3K/Akt pathway rendered LNCaP cells highly susceptible to TRAIL. Importantly, active PI-3K/Akt prevented processing/activation of caspase-3, a phenomenon associated with the function of inhibitor of apoptosis proteins (IAPs). In fact, inhibition of PI-3K activity using Wortmannin significantly decreased the protein levels of IAPs, concomitantly promoting processing/activation of caspase-3 and TRAIL-induced apoptosis. My data indicate that in addition to blocking Bad and caspase-9 through Akt, PI-3K also inhibits caspase-3 through up-regulating IAPs, thereby attenuates apoptosis.
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PMID:Up-regulation of IAPs by PI-3K: a cell survival signal-mediated anti-apoptotic mechanism. 1892 42

Inducing apoptosis via the extrinsic death receptor pathway is an attractive anti-cancer treatment strategy, however, numerous cancer cells exhibit significant resistance to death ligand stimuli. Here, we investigated the anti-neoplastic capability of proteasome inhibition, through the administration of Velcade, to synergize with a death receptor agonist in vivo. The death ligand-resistant LNCaP prostate xenograft model was utilized. Tumors were established and mice were treated with Velcade, TRAIL (TNF-Related Apoptosis Inducing Ligand) or the combined regimen. Only mice treated with a combination of Velcade and TRAIL was tumor growth inhibited with a corresponding loss of the hemorrhagic phenotype, decreased tumor cell proliferation and increased tumor cell apoptosis. Next, to determine if the extrinsic pathway is critical for mediating the anti-tumor efficacy that can be achieved in some cell types with Velcade treatment alone, the death receptor sensitive PC-3 xenograft model was used. PC-3 tumors exhibited a 54% decrease in tumor volume in response to Velcade, while c-FLIP overexpressing PC-3 xenografts were resistant to the treatment. These findings suggest that the extrinsic apoptotic pathway can mediate the anti-tumor effects of Velcade and support the therapeutic use of proteasome inhibition in combination with a death receptor stimulus in the treatment of prostate cancer.
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PMID:Velcade sensitizes prostate cancer cells to TRAIL induced apoptosis and suppresses tumor growth in vivo. 1912 21

TNFalpha and TRAIL, 2 members of the tumor necrosis factor family, share many common signaling pathways to induce apoptosis. Although many cancer cells are sensitive to these proapoptotic agents, some develop resistance. Recently, we have demonstrated that upregulation of c-Fos/AP-1 is necessary, but insufficient for cancer cells to undergo TRAIL-induced apoptosis. Here we present a prostate cancer model with differential sensitivity to TNFalpha and TRAIL. We show that inhibition of NF-kappaB or activation of AP-1 can only partially sensitize resistant prostate cancer cells to proapoptotic effects of TNFalpha or TRAIL. Inhibition of NF-kappaB by silencing TRAF2, by silencing RIP or by ectopic expression of IkappaB partially sensitized resistant prostate cancer. Similarly, activation of c-Fos/AP-1 only partially sensitized resistant cancer cells to proapoptotic effects of TNFalpha or TRAIL. However, concomitant repression of NF-kappaB and activation of c-Fos/AP-1 significantly enhanced the proapoptotic effects of TNFalpha and TRAIL in resistant prostate cancer cells. Therefore, multiple molecular pathways may need to be modified, to overcome cancers that are resistant to proapoptotic therapies.
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PMID:Repression of NF-kappaB and activation of AP-1 enhance apoptosis in prostate cancer cells. 1912 67

The aging prostate is associated with changes in its vascular structure, which could lead to changes in oxygen levels. Hypoxia is an important environmental change that leads to the progression of many cancers mediated through a number of cellular changes, which included resistance to apoptosis. The role of hypoxia in initiating tumour development has not been previously investigated. We demonstrate that normal prostate epithelial cells develop a resistance to receptor-mediated apoptosis following 24 hr of 1% hypoxia. This effect is associated with the altered expression of a number of pro- and anti-apoptotic proteins, which leads to inhibition of Cytochrome c release and downstream caspase activation. This is mediated via decreased Bax translocation and upstream Caspase 8 activity. Despite increased expression of cIAP-2, small interfering RNA (siRNA) knockdown does not restore susceptibility to TRAIL-induced apoptosis. Gene expression analysis indicated potential changes in AKT activation, which was confirmed by increased phosphorylation of AKT. Inhibition of this phosphorylation reversed the resistance to TRAIL-induced apoptosis. AKT activation is emerging as a key survival signal in prostate cancer. This study demonstrates that short exposure to low oxygen can increase resistance to immune surveillance mechanisms and might confer a survival advantage onto normal prostate epithelial cells so that they can survive subsequent genomic instability and other carcinogenetic insults leading to the early development of prostate cancer.
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PMID:Hypoxia increases normal prostate epithelial cell resistance to receptor-mediated apoptosis via AKT activation. 1914 71

Osteoprotegerin (OPG), member of tumor necrosis factor (TNF) receptor superfamily, has various biological functions including bone remodeling. OPG binds to receptor activator of nuclear factor-kB ligand (RANKL) and prevents osteoclastic bone resorption. Recently, OPG has gained more clinical interest as its role in cancer-mediated bone destruction and the potential of RANKL inhibition could act as a novel treatment in tumor-induced bone disease. OPG protects prostate cancer cells from apoptotic effects of TRAIL and therefore provides tumor cells producing OPG with survival advantages. Additionally, the increased RANKL/OPG ratio in metastatic breast cancer results in severe osteolysis. Thus, bone formation and resorption are the crux of cancer metastasis, resulting in bone pain and pathological fractures. This review provides an overview of the role of OPG in cancer-induced bone disease.
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PMID:Mechanism of bone metastasis: the role of osteoprotegerin and of the host-tissue microenvironment-related survival factors. 1920 Oct 81

Aberrant PI3K/Akt signaling has been implicated in many human cancers, including prostate carcinomas. Currently different therapeutic strategies target the inhibition of this survival pathway. The nucleoside analog triciribine (TCN), which was initially described as a DNA synthesis inhibitor, has recently been shown to function as an inhibitor of Akt. Here, we demonstrate that TCN inhibits Akt phosphorylation at Thr308 and Ser473 and Akt activity in the human prostate cancer cell line PC-3. In addition, TCN sensitized PC-3 cells to TRAIL- and anti-CD95-induced apoptosis, whereas the cells remained resistant to DNA damaging chemotherapeutics. The observed sensitization essentially depended on the phosphorylation status of Akt. Thus, prostate cancer cell lines displaying constitutively active Akt, e.g. PC-3 or LNCaP, were sensitized to death receptor-induced apoptosis. Most importantly with respect to therapeutic application, derivatives of both TCN and TRAIL are already tested in current clinical trials. Therefore, this combinatorial treatment might open a promising therapeutic approach for the elimination of hormone-refractory prostate cancers, which are largely resistant to conventional DNA damaging anticancer drugs or irradiation.
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PMID:The Akt inhibitor triciribine sensitizes prostate carcinoma cells to TRAIL-induced apoptosis. 1942 47

Cryotherapy is a minimally invasive treatment for prostate cancer. Complete ablation of cancer tissue some times fails and results in disease recurrence. In this study we investigate the effect of TRAIL as a sensitising agent to enhance the effects of cryotherapy on prostate cancer cells. Prostate cancer cells were cooled using Endocare cryo-system to mimic temperatures achieved during clinical cryotherapy. The effects of TRAIL, cryotherapy or combination of both treatment on DU-145 and PC-3 were evaluated. Viability and mode of cell death was assessed following treatment. Cryotherapy did not result in complete cell death at temperature -40 degrees C. Cells died by both necrosis and apoptosis. Cells which survived freeze-thaw cycle became more sensitive to a second freezing injury. TRAIL resulted in minimal cell death. Concomitant treatment of the tumour cells with TRAIL and cryotherapy resulted in complete loss of viability at -10 and -20 degrees C. Cell death was mainly due to marked increase in necrosis. Our finding demonstrates that combined treatment of TRAIL and cryotherapy represent a novel approach to increase the sensitivity to cryotherapy. This combined approach may be feasible for locally advanced prostate cancer.
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PMID:Enhancing prostate cancer cryotherapy using tumour necrosis factor related apoptosis-inducing ligand (TRAIL) sensitisation in an in vitro cryotherapy model. 1964 31


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