EC:2.4.2.30 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.4.2.30 (PARP)
13,611 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activated macrophages synthesize and release numerous tumoricidal soluble factors that can be divided into receptor- or nonreceptor-dependent agents. Tumor necrosis factor (TNF) would be an example of the former. In our experimental model the killing of EL4 thymoma cells by syngeneic activated macrophages involves, but not exclusively, TNF. Our results show that approximately 50% of the anti-EL4 activity expressed by macrophages can be specifically inhibited with rabbit anti-mouse TNF antibody. EL4 variants resistant to the lytic activity of TNF were still susceptible to macrophage-mediated lysis. A tumor-promoting phorbol ester, TPA, rendered TNF-sensitive and -insensitive EL4 cells resistant to M phi-mediated lysis. However, TPA down-regulated TNF-specific binding sites on both TNF-sensitive and -resistant cell surface membranes, suggesting that resistance to TNF involves postligand:receptor events. Tumor cell G-protein involvement (ADP-ribosylation), as a result of TNF-TNF receptor interactions, was investigated. The results showed that pertussis toxin was cytotoxic against TNF-sensitive and -resistant EL4 cells but not against TPA-treated target cells. Inhibitors of ADP-ribosyltransferase inhibited pertussis toxin cytotoxicity and macrophage-mediated lysis but did not interfere with recombinant TNF lytic activity.
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PMID:TPA induction of EL4 resistance to macrophage-released TNF: role of ADP-ribosylation in tumoricidal activities of TNF and other factors. 213 20

Although the commonly activated death protease caspase-3 appears not to be essential for apoptosis during development except in the brain, it was not shown whether substrates known to be cleaved by caspase-3 are still proteolyzed in its absence. We have addressed this question with MCF-7 breast carcinoma cells that we recently showed lack caspase-3 owing to the functional deletion of the CASP-3 gene. Tumor necrosis factor- or staurosporine-induced apoptosis of caspase-3-deficient MCF-7 cells resulted in cleavage of the death substrates PARP, Rb, PAK2, DNA-PKcs, gelsolin, and DFF-45, but not alpha-fodrin. In contrast, all these substrates including alpha-fodrin were cleaved in apoptotic HeLa cells expressing caspase-3. Introduction of CASP-3 cDNA, but not CASP-10 cDNA, into MCF-7 cells restored alpha-fodrin cleavage. In addition, tumor necrosis factor- or staurosporine-induced apoptosis of MCF-7 cells stably expressing pro-caspase-3 also resulted in alpha-fodrin cleavage. Although the specific caspase inhibitory peptides Z-VAD-fmk and Z-DEVD-fmk prevented apoptosis of MCF-7 cells, we were unable to detect activation of caspases 2 and 7, which are known to be inhibited by Z-DEVD-fmk. Together our results suggest that caspase-3 is essential for cleavage of alpha-fodrin, but dispensable for the cleavage of PARP, Rb, PAK2, DNA-PKcs, gelsolin, and DFF-45 and imply that one or more caspases other than caspases 2, 3, and 7 is activated and plays a crucial role in the cleavage of these substrates in MCF-7 cells.
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PMID:Caspase-3 is required for alpha-fodrin cleavage but dispensable for cleavage of other death substrates in apoptosis. 962 43

Tumor necrosis factor (TNF) signal transduction is a complex process involving activation of receptor-linked and stress-sensitive signaling cascades that stimulate apoptosis in some tumor cell lines. Initial studies suggested that these signaling events cooperatively induced TNF responses, but recent studies suggest that some of these signals antagonize the apoptotic response or play no discernible role in cell death. As TNF induces cellular stress and activates several stress-sensitive cascades that may play a role in apoptosis, TNF-induced stress signaling was examined in MCF-7 cells and compared with a variant MCF-7 cell line resistant to TNF-mediated apoptosis (MCF-7/3E9). TNF rapidly stimulated both NF-kappaB and JNK activation in MCF-7 and MCF-7/3E9 cells, but JNK activation was significantly reduced (threefold) in apoptotically resistant cells. TNF also stimulated p53, p21WAF1, and Bax accumulation with subsequent PARP cleavage and nucleosomal DNA laddering in MCF-7 cells but did not stimulate these processes in MCF-7/3E9 cells. Importantly, 3E9 cells retained wild-type p53 function, induced p21WAF1 in response to DNA damage, and expressed almost equal sensitivity to other stress stimuli (gamma-radiation, chemotherapeutic agents) as parental MCF-7 cells. These results suggest that selective defects in TNF-activated stress cascades are associated with reduced sensitivity to TNF but not other cell death stimuli. Loss of potent TNF-mediated activation of JNK and p53 cascades may permit tumor cells to evade receptor-mediated apoptosis but have only limited influence on cellular sensitivity to other agents that effectively engage these stress pathways.
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PMID:JNK and p53 stress signaling cascades are altered in MCF-7 cells resistant to tumor necrosis factor-mediated apoptosis. 1021 65

TRAIL, Tumor necrosis factor-related apoptosis-inducing ligand), a member of the TNF family, is known to be cytotoxic for a high proportion of tumor cell lines. However, successful application of TRAIL in tumor therapy may depend on finding other agents that can potentiate its antitumor effects. The present study showed that the cytostatic/cytotoxic TRAIL activity against U937 cells could be significantly augmented by proteasome inhibitor PSI, as revealed by MTT assay. Increased cytostatic/cytotoxic effect on U937 cells by TRAIL/PSI combined treatment was caused by apoptosis, as shown by an increased PARP cleavage rate. TRAIL/PSI did not affect the level of mRNA expression for TRAIL receptors (DR4, DR5, DcR1) and other apoptosis signal transduction molecules (TRADD, caspase-8).
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PMID:Augmented pro-apoptotic effects of TRAIL and proteasome inhibitor in human promonocytic leukemic U937 cells. 1139 70

Tumor necrosis factor (TNF) is one of the most potent activators of nuclear transcription factor NF-kappaB, c-Jun N-terminal protein kinase (JNK), and apoptosis in a wide variety of cells. The biological effects of TNF are mediated through sequential interactions of various cytoplasmic proteins with intracellular domains of TNF receptors. Whether signal transducer and activator of transcription-1 (STAT1), which mediates interferon (IFN) signaling, also plays any role in the TNF-mediated activation of NF-kappaB, JNK, and apoptosis has not been established. Here, we report our investigation of the role of STAT1 in TNF signaling using STAT1-deficient U3A and STAT1-stably transfected U3A-PSG91 cells. IFNalpha inhibited the proliferation of STAT1-expressing U3A-PSG91 cells but had no effect on STAT1-negative U3A cells. TNF alone, even up to 10 nM, had no effect on the proliferation of either U3A-PSG91 or U3A cells. Irrespective of STAT1 status, TNF induced cytotoxic effects in the presence of cycloheximide (CHX) in both cell types. Additionally, TNF-induced caspase-3 and caspase-8 activation and TNF-induced PARP cleavage were unaffected by the presence or absence of STAT1. TNF activated NF-kappaB, consisting of p50 and p65, in both U3A and U3A-pSG91 cells in a dose- and time-dependent manner, but the degree and rate of activation were slightly lower in U3A cells, as were IkappaBalpha degradation and NF-kappaB-dependent reporter gene expression. STAT1 was, however, required for IFNalpha-mediated downregulation of TNF-induced NF-kappaB activation. TNF activated JNK in both cell types, but dose and time of exposure required for optimum activation differed slightly. Thus, overall our results indicate that STAT1 plays a minimal role in TNF-mediated cellular responses.
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PMID:Lack of requirement of STAT1 for activation of nuclear factor-kappaB, c-Jun NH2-terminal protein kinase, and apoptosis by tumor necrosis factor-alpha. 1183 5

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL/Apo2L) has been shown to induce apoptosis in malignant cells without harming normal cells. To determine the antitumor potential of TRAIL against prostate cells, we undertook a comprehensive study that included eight prostate cancer cells lines (CWR22Rv1, Du145, DuPro, JCA-1, LNCaP, PC-3, PPC-1, and TsuPr1) and primary cultures of normal prostate epithelial cells (PrEC). Cells were tested for susceptibility to soluble TRAIL in the presence or absence of the chemotherapeutic agent doxorubicin. TRAIL was also delivered by an adenoviral vector. Our results reveal that Du145, DuPro, LNCap, TsuPr1, and PrEC were resistant to 100 ng/mL TRAIL. JCA-1 and PPC-1 were slightly sensitive (20% killing) and PC-3 and CWR22Rv1 exhibited the highest sensitivity to TRAIL (30% and 50% killing, respectively). The combination of 10 ng/mL TRAIL with doxorubicin resulted in 60-80% cytotoxicity in seven of eight prostate cancer cells. TRAIL-mediated apoptosis involved cleavage of Bid, caspase-3, and PARP, and required caspase-8 and -9 activity. Full-length TRAIL delivered by an adenoviral vector (AdTRAIL-IRES-GFP) killed prostate cancer cell lines and PrEC without requisite doxorubicin cotreatment. Therefore, expression of the transgene from a tissue-specific promotor would make gene therapy with AdTRAIL-IRES-GFP a possibility.
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PMID:Resistance of prostate cancer cells to soluble TNF-related apoptosis-inducing ligand (TRAIL/Apo2L) can be overcome by doxorubicin or adenoviral delivery of full-length TRAIL. 1185 34

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL, Apo2 ligand) effectively kills multiple myeloma (MM) cells in vitro irrespective of refractoriness to dexamethasone and chemotherapy. Because clinical trials with this anticancer agent are expected shortly, we investigated the signaling pathway of TRAIL-induced apoptosis in MM. We detected rapid cleavage of caspases-8, -9, -3, and -6, as well as the caspase substrates poly(ADP-ribose) polymerase (PARP) and DNA fragmentation factor-45 (DFF45), but not caspase-10, upon TRAIL treatment in sensitive MM cells, pointing to caspase-8 as the apical caspase of TRAIL signaling in MM cells. These phenomena were not observed or were significantly delayed in TRAIL-resistant MM cells, suggesting that resistance may arise from inhibition at the level of caspase-8 activation. Higher levels of expression for various apoptosis inhibitors, including FLICE-inhibitory protein (FLIP), and lower procaspase-8 levels were present in TRAIL-resistant cells and sensitivity was restored by the protein synthesis inhibitor cycloheximide (CHX) and the protein kinase C (PKC) inhibitor bisindolylmaleimide (BIM), which both lowered FLIP and cellular inhibitor of apoptosis protein-2 (cIAP-2) protein levels. Forced expression of procaspase-8 or FLIP antisense oligonucleotides also sensitized TRAIL-resistant cells to TRAIL. Moreover, the cell permeable nuclear factor (NF)-kappaB inhibitor SN50, which sensitizes TRAIL-resistant cells to TRAIL, also inhibited cIAP2 protein expression. Finally, CHX, BIM, and SN50 facilitated the cleavage and activation of procaspase-8 in TRAIL-resistant cells, confirming that inhibition of TRAIL-induced apoptosis occurs at this level and that these agents sensitize MM cells by relieving this block. Our data set a framework for the clinical use of approaches that sensitize MM cells to TRAIL by agents that inhibit FLIP and cIAP-2 expression or augment caspase-8 activity.
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PMID:Intracellular regulation of tumor necrosis factor-related apoptosis-inducing ligand-induced apoptosis in human multiple myeloma cells. 1238 43

Tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) is one of the latest members of the TNF superfamily known to induce apoptosis in a wide variety of tumor cells. Some cell types, however, are quite resistant to TRAIL. We investigated the effect of ectopic expression of Bcl-2 and Bcl-xL on TRAIL-induced apoptosis in human acute myelogenous leukemia HL-60 cells. We found that HL-60 cells, which express TRAIL receptors (also called death receptor, DR) DR4, DR5, and Dc (decoy) R2, are highly sensitive to TRAIL-induced cytotoxicity. Greater than 90% killing occurred within 24 h of TRAIL treatment. The expression of Bcl-2 and Bcl-xL, however, completely abolished the TRAIL-induced cytotoxic effects. Treatment of HL-60 cells with TRAIL induced caspase-8 activation within 2-4 h, but no activation could be seen in Bcl-2-expressing or Bcl-xL-expressing cells. TRAIL also induced cleavage of BID, which was also abolished by Bcl-2 and Bcl-xL. Similarly, TRAIL activated caspase-3 and caspase-7 in control cells but not in cells expressing Bcl-2 or Bcl-xL. Cleavage of the caspase-3 substrate poly(ADP-ribose) polymerase (PARP), was abrogated by ectopic expression of Bcl-2 and Bcl-xL. Inhibition of caspases by the pan-caspase inhibitor, benzyloxycarbonyl-valine-alanine-aspartate-fluoromethylketone (zVAD-fmk) abolished the TRAIL-induced apoptosis. Overall, these results indicate that TRAIL-induced apoptosis involves activation of caspase-8, caspase-7, caspase-3, and BID cleavage, and Bcl-2 and Bcl-xL prevents TRAIL-induced apoptosis by abrogating caspase activation and BID cleavage.
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PMID:Ectopic expression of Bcl-2 and Bcl-xL inhibits apoptosis induced by TNF-related apoptosis-inducing ligand (TRAIL) through suppression of caspases-8, 7, and 3 and BID cleavage in human acute myelogenous leukemia cell line HL-60. 1191 10

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

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) has been shown to exert potent cytotoxic activity against many tumor cells but not normal cells. However, some tumor cells are resistant to TRAIL, and it has not been determined how this occurs. In the present study, we obtained three subgroups of Jurkat clones with TRAIL-sensitive, -partial resistant and -resistant phenotypes. We found that most TRAIL-resistant and -partial resistant clones expressed low levels of DR5, whereas most TRAIL-sensitive clones expressed high levels of Death Receptor (DR5). However, there were clones with a range of different TRAIL-sensitivities that had similar levels of DR5 expression. The expression levels of DR4 and the decoy receptors, DcR1 and DcR2, did not correlate with TRAIL sensitivities. We also compared the subgroups in terms of the expression of Fas-associated death domain protein (FADD), the levels of activation of Receptor Interacting Protein (RIP) and caspases, and cleavage of Poly (ADP-Ribose)Polymerase (PARP). Basal expression levels of FADD were not significantly different among the subgroups. After treatment with TRAIL, both TRAIL-sensitive and partial resistant clones showed high levels of activation of caspase-3, caspase-8, RIP and PARP. Relative basal level and induced level of Phosphoprotein over Expressed in Diabetes/Phosphoprotein Enriched in Astrocytes (PED/PEA-15) after TRAIL treatment were compared in the clones. Basal levels of PED/PEA-15 expression were similar among sensitive, partial resistant and resistant clones. TRAIL did not change the PED/PEA-15 level in the clones. In addition, transduction and expression of the dominant negative form of the I-kBalpha gene did not change TRAIL-sensitivities. Our results showed that the expression levels of DR5, the activation levels of caspase-8, -3 and RIP were critical factors in determining TRAIL-sensitivities in Jurkat cells. The results of our study also suggest that cells with different TRAIL-sensitivities arise through multiple mechanisms even within a single cell line.
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PMID:Analysis of the phenotypes of Jurkat clones with different TRAIL-sensitivities. 1270 64

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