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)

Amino acid transporter B(0)/ASC transporter 2 (ATB(0)/ASCT2) is responsible for most glutamine uptake in human hepatoma cells. Because this transporter is not expressed in normal hepatocytes, we hypothesized that its expression is necessary for growth of human liver cancer cells. To test this hypothesis, Sloan Kettering hepatoma (SK-Hep) cells were stably transfected with an inducible 1.3-kb ATB(0)/ASCT2 antisense RNA expression plasmid under the transcriptional control of mifepristone, a synthetic steroid. Induced antisense RNA expression in monolayer cultures decreased ATB(0)/ASCT2 mRNA levels by 73% and glutamine transport rates by 65% compared with controls after 24 h, leading to a 98% decrease in cell number after 48 h. Cellular death was attributable to apoptosis based on cellular blebbing, caspase-3 activation, vital dye and terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling staining, and poly-(ADP-ribose) polymerase (PARP) cleavage. Transporter knockdown also markedly increased activities of caspases-2 and -9, marginally enhanced caspase-8 activity, and dramatically increased ASCT1 mRNA levels, presumably as a futile compensatory response. Apoptosis elicited via transporter silencing was not attributable to the double-stranded RNA-dependent protein kinase R (PKR) pathway. For comparison, glutamine deprivation also caused apoptotic cell death but with slower temporal kinetics, stimulated caspases-2 and -3 but not caspases-8 or -9 activities, and led to considerable PARP cleavage. Thus ASCT2 suppression exerts proapoptotic effects transcending those of glutamine starvation alone. We conclude that ATB(0)/ASCT2 expression is necessary for SK-Hep cell growth and viability and suggest that it be further explored as a selective target for human hepatocellular carcinoma.
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PMID:Inducible antisense RNA targeting amino acid transporter ATB0/ASCT2 elicits apoptosis in human hepatoma cells. 1456 74

DNA damage occurs in ischemia, excitotoxicity, inflammation, and other disorders that affect the central nervous system (CNS). Extensive DNA damage triggers cell death and in the mature CNS, this occurs primarily through activation of the poly(ADP-ribose) polymerase-1 (PARP-1) cell death pathway. PARP-1 is an abundant nuclear enzyme that, when activated by DNA damage, consumes nicotinamide adenine dinucleotide (NAD)+ to form poly(ADP-ribose) on acceptor proteins. The mechanisms by which PARP-1 activation leads to cell death are not understood fully. We used mouse astrocyte cultures to explore the bioenergetic effects of NAD+ depletion by PARP-1 and the role of NAD+ depletion in this cell death program. PARP-1 activation was induced by the DNA alkylating agent, N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), using medium in which glucose was the only exogenous energy substrate. PARP-1 activation led to a rapid but incomplete depletion of astrocyte NAD+, a near-complete block in glycolysis, and eventual cell death. Repletion of intracellular NAD+ restored glycolytic function and prevented cell death. The addition of non-glucose substrates to the medium, pyruvate, glutamate, or glutamine, also prevented astrocyte death after PARP-1 activation. These studies suggest PARP-1 activation leads to rapid depletion of the cytosolic but not the mitochondrial NAD+ pool. Depletion of the cytosolic NAD+ pool renders the cells unable to utilize glucose as a metabolic substrate. Under conditions where glucose is the only available metabolic substrate, this leads to cell death. This cell death pathway is particularly germane to brain because glucose is normally the only metabolic substrate that is transported rapidly across the blood-brain barrier.
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PMID:NAD+ as a metabolic link between DNA damage and cell death. 1556 37

It is known that small glutamine-rich TPR-containing protein (SGT) is the member of TPR motif family. However, the biological functions of SGT remain unclear. In this paper, we report that SGT plays a role in apoptotic signaling. Ectopic expression of SGT enhances DNA fragment and nucleus breakage after the induction of apoptosis. Increasing mRNA level of SGT is also observed in 7721 cells undergoing apoptosis, knockdown the expression of endogenous SGT contributes to the decrease of apoptosis of 7721 cells. Deletion analysis reveals that TPR domain is critical to pro-apoptotic function of SGT. Furthermore, we demonstrated that the PARP cleavage and cytochrome c release are enhanced when SGT is overexpressed in 7721 cells during apoptosis. Collectively, our results indicate that SGT is a new pro-apoptotic factor.
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PMID:Overexpression of small glutamine-rich TPR-containing protein promotes apoptosis in 7721 cells. 1571 Apr 26

During Chinese hamster ovary (CHO) cell culture for foreign protein production, cells are subjected to programmed cell death (PCD). A rapid death at the end of batch culture is accelerated by nutrient starvation. In this study, type II PCD, autophagy, as well as type I PCD, apoptosis, was found to take place in two antibody-producing CHO cell lines, Ab1 and Ab2, toward the end of batch culture when glucose and glutamine were limiting. The evidence of autophagy was observed from the accumulation of a common autophagic marker, a 16 kDa form of LC3-II during batch culture. Moreover, a significant percentage of the total cells (80% of Ab1 cells and 86% of Ab2 cells) showed autophagic vacuoles containing cytoplasmic material by transmission electron microscopy. An increased level of PARP cleavage and chromosomal DNA fragmentation supported that starvation-induced apoptosis also occurred simultaneously with autophagy.
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PMID:Nutrient deprivation induces autophagy as well as apoptosis in Chinese hamster ovary cell culture. 1768 Jun 85

Benzo[a]pyrene (BaP), a member of polycyclic aromatic hydrocarbons (PAH), has been reported to induce cell death in various cell types. However, the underlying mechanisms are controversial. In the present study, we report that BaP induces necrotic cell death in human hepatoma (HepG(2)) cells. The process is dependent on the activation of poly(ADP-ribose)polymerase-1 (PARP-1), a nuclear enzyme responsible for repairing DNA damage. Once activated, PARP-1 catalyzes the formation of ADP-ribose polymers on acceptor proteins at the expense of NAD(+). Incubation of cells with high extracellular concentration of NAD(+) (5mM) after BaP treatment caused an elevation in intracellular NAD(+) level and blocked cell death. Inhibitor of PARP-1 suppressed both overactivation of PARP-1 activity and NAD(+) depletion. Moreover, addition of pyruvate (5mM), but not glutamate (5mM) or glutamine (5mM), could restore ATP production and prevent cell death. These results elucidated a sequence of events linking cellular metabolism to the progression of cell death induced by this organic toxicant.
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PMID:Benzo[a]pyrene-induced necrosis in the HepG(2) cells via PARP-1 activation and NAD(+) depletion. 1824 66

The etiology of oral squamous cell carcinoma has been linked to environmental carcinogens, such as activated aromatic heterocyclic radicals and epoxides. Our previous work on implantable and 7,12-dimethylbenz[a]anthracene (DMBA)-induced breast cancer showed that oral glutamine (GLN) inhibited tumor growth possibly through stimulation of host - and selective inhibition of tumor glutathione (GSH). This finding was associated with up-regulation of NK cell activity, decreased IGF-1 and TGF-beta in the circulation and downregulation of PI-3K/Akt antiapoptotic signaling in tumors. The present study was designed to investigate the effect of topically applied GLN on DMBA-induced hamster buccal pouch squamous cell carcinoma. Histopathological alterations in buccal pouches were studied by light microscopy. GLN and GSH levels in blood and buccal mucosa were determined using specific enzyme assays. The protein expression of bax, bcl-2 and PARP was determined by western blotting. H-ras and p53 genes were examined for presence of mutations using direct DNA sequencing. Fourteen weeks after DMBA application none of the GLN-supplemented animals developed tumors, while all of the control animals had well developed squamous cell carcinomas. The inhibition of DMBA-carcinogenesis by GLN application was associated with increased arterial GLN and GSH, elevated buccal mucosa GSH as well as induction of bax and PARP, and inhibition of bcl-2. H-ras and p53 were wild type. The results from this study in combination with our previous data suggest that the chemopreventive effects of GLN are exerted by enhancing the antioxidant status of the body and activation of apoptosis.
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PMID:Glutamine prevents DMBA-induced squamous cell cancer. 1863 90

During recombinant Chinese hamster ovary (rCHO) cell culture, various events, such as feeding with concentrated nutrient solutions or the addition of base to maintain an optimal pH, increase the osmolality of the medium. To determine the effect of hyperosmotic stress on two types of programmed cell death (PCD), apoptosis and autophagy, of rCHO cells, two rCHO cell lines, producing antibody and erythropoietin, were subjected to hyperosmotic stress resulting from NaCl addition (310-610 mOsm/kg). For both rCHO cell lines, hyperosmolality up to 610 mOsm/kg increased cleaved forms of PARP, caspase-3, caspase-7, and fragmentation of chromosomal DNA, confirming the previous observation that apoptosis was induced by hyperosmotic stress. Concurrently, hyperosmolality increased the level of accumulation of LC3-II, a widely used autophagic marker, which was determined by Western blot analysis and confocal microscopy. When glucose and glutamine concentrations were measured during the cultures, glucose and glutamine concentrations in the culture medium at various osmolalities (310-610 mOsm/kg) showed no significant differences. This result suggests that induction of PCD by hyperosmotic stress occurred independently of nutrient depletion. Taken together, autophagy as well as apoptosis was observed in rCHO cells subjected to hyperosmolality.
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PMID:Hyperosmotic stress induces autophagy and apoptosis in recombinant Chinese hamster ovary cell culture. 2001 38

The DNA-damaging agent N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) causes cardiomyocyte death as a result of energy loss from excessive activation of poly-(ADP) ribose polymerase-1 (PARP-1) resulting in depletion of its substrates nicotinamide adenine dinucleotide (NAD) and ATP. Previously we showed that the chemotherapeutic agent vincristine (VCR) is cardioprotective. Here we tested the hypothesis that VCR inhibits MNNG-induced PARP activation. Adult mouse cardiomyocytes were incubated with 100 micromol/L MNNG with or without concurrent VCR (20 micromol/L) for 2 to 4 hours. Cardiomyocyte survival was measured using the trypan blue exclusion assay. Western blots were used to measure signaling responses. MNNG-induced cardiomyocyte damage was time- and concentration-dependent. MNNG activated PARP-1 and depleted NAD and ATP. VCR completely protected cardiomyocytes from MNNG-induced cell damage and maintained intracellular levels of NAD and ATP. VCR increased phosphorylation of the prosurvival signals Akt, GSK-3beta, Erk1/2, and p70S6 kinase. VCR delayed PARP activation as evidenced by Western blot and by immunofluorescence staining of poly (ADP)-ribose, but without directly inhibiting PARP-1 itself. Known PARP-1 inhibitors also protected cardiomyocytes from MNNG-induced death. Repletion of ATP, NAD, pyruvate, and glutamine had effects similar to PARP-1 inhibitors. We conclude that VCR protects cardiomyocytes from MNNG toxicity by regulating PARP-1 activation, intracellular energy metabolism, and prosurvival signaling.
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PMID:Vincristine attenuates N-methyl-N'-nitro-N-nitrosoguanidine-induced poly-(ADP) ribose polymerase activity in cardiomyocytes. 2037 13

Endoplasmic reticulum (ER) stress and apoptotic cell death play an important role in the pathogenesis and perpetuation of inflammatory bowel disease (IBD). We aimed to explore the potential of glutamine to reduce ER stress and apoptosis in a rat model of experimental IBD. Colitis was induced in male Wistar rats by intracolonic administration of 30 mg of 2,4,6-trinitrobenzene sulfonic acid (TNBS). Glutamine (25 mg/dL) was given by rectal route daily for 2 d or 7 d. Both oxidative stress (TBARS concentration and oxidised/reduced glutathione ratio) and ER stress markers (CHOP, BiP, calpain-1 and caspase-12 expression) increased significantly within 48 h of TNBS instillation, and glutamine attenuated the extent of the changes. Glutamine also inhibited the significant increases of ATF6, ATF4 and spliced XBP-1 mRNA levels induced by TNBS instillation. TNBS-colitis resulted in a significant increase in p53 and cytochrome c expression, and a reduced Bcl-xL expression and Bax/Bcl-2 ratio. These effects were significantly inhibited by glutamine. Treatment with the amino acid also resulted in significant decreases of caspase-9, caspase-8 and caspase-3 activities. Double immunofluorescence staining showed co-localization of CHOP and cleaved caspase-3 in colon sections. Phospho-JNK and PARP-1 expression was also significantly higher in TNBS-treated rats, and treatment with glutamine significantly decreased JNK phosphorylation and PARP-1 proteolysis. To directly address the effect of glutamine on ER stress and apoptosis in epithelial cells, the ER stress inducers brefeldin A and tunicamycin were added to Caco-2 cells that were treated with glutamine (5 mM and 10 mM). The significant enhancement in PERK, ATF6 phosphorylated IRE1, BiP and cleaved caspase-3 expression induced by brefeldin A and tunicamycin was partly prevented by glutamine. Data obtained indicated that modulation of ER stress signalling and anti-apoptotic effects contribute to protection by glutamine against damage in TNBS-induced colitis.
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PMID:Glutamine treatment attenuates endoplasmic reticulum stress and apoptosis in TNBS-induced colitis. 2320 35

The ADP-ribosyltransferases TccC3 and TccC5 are the biologically active TcC components of the tripartite Photorhabdus luminescens Tc toxin, which consist of TcA, TcB, and TcC components. TcA is the binding and membrane translocation component. TcB is a functional linker between TcC and TcA and also involved in the translocation of the toxin. While TccC3 ADP-ribosylates actin at threonine 148, TccC5 modifies Rho proteins at glutamine 61/63. Both modifications result in major alteration of the actin cytoskeleton. Here we discuss structure and function of the Tc toxin and compare its ADP-ribosyltransferase activities with other types of actin and Rho modifying toxins.
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PMID:Photorhabdus luminescens toxins TccC3 and TccC5: insecticidal ADP-ribosyltransferases that modify threonine and glutamine. 2490 44

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