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: EC:2.5.1.18 (glutathione S-transferase)
22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the maintenance of functional and morphological integrity of precision-cut rat liver slices cultured in various incubation systems and conditions for 72 h. Slices were incubated (37 degrees C) for 6, 24, 48, and 72 h in supplemented Williams E medium in 6-well plastic culture plates on a gyratory shaking platform (WPCS) or in a rotating organ culture system (ROCS) using 5% CO2--95% air (WPCS/air or ROCS/air) or 5% CO2--70% O2--25% N2 (WPCS/O2 or ROCS/O2). Biochemical and functional parameters of slices maintained in WPCS/air or WPCS/O2 were almost totally inhibited after 24 h, in keeping with the extensive and diffuse coalescing coagulative necrosis typical of post-ischemic injury affecting almost all the slice surface after 48 h. As compared to freshly isolated slices, slices maintained in ROCS/air for 72 h showed stable ATP and GSH content, increased protein synthesis, and a slight steady decrease in GST activity, while ATP and GST activity remained stable and protein synthesis and GSH content increased in slices incubated in ROCS/O2 for 72 h. The extent of coagulative necrosis was markedly lower in longitudinal sections from slices incubated for 72 h in ROCS/O2 than in ROCS/air. Transversal sections from slices kept in ROCS/air for 72 h showed a thick central band of necrotic cells edged by two peripheral layers of viable hepatocytes, whereas most of the slice was composed of viable hepatocytes lined by two thin layers of necrotic cells after 72 h in ROCS/O2. ROCS/O2 emerged as the system best preserving the histological and functional integrity of rat liver slices in long-term culture.
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PMID:Morphological and functional integrity of precision-cut rat liver slices in rotating organ culture and multiwell plate culture: effects of oxygen tension. 968 91

Type 1 protein phosphatase encoded by the GLC7 gene was purified from Saccharomyces cerevisiae as a 1:1 complex with mammalian inhibitor 2 fused to glutathione S-transferase. The complex was inactive and required treatment with Co2+ and trypsin for maximal activity. The specific activity toward phosphorylase a was about 1.8 units/mg of Glc7p, and IC50's for inhibitor 2, okadaic acid, and microcystin-LR were 7.3, 81, and 0.30 nM, respectively. The complex could be activated by glycogen synthase kinase-3 in the presence of Mg2+ and ATP to 20% of the activity seen with Co2+ and trypsin. Thus, the catalytic properties of the yeast type 1 phosphatase are similar to those of the mammalian protein phosphatase 1. The R73C mutant phosphatase from the glycogen-deficient strain, glc7-1, purified as a 1:1 complex with the inhibitor 2 fusion, had a specific activity toward phosphorylase a of 0.9 unit/mg of Glc7p, and IC50's for inhibitor 2, okadaic acid, and microcystin-LR were 13. 1, 113, and 0.37 nM, respectively. The R73C mutation slightly decreases the specific activity and sensitivity to inhibitors, suggesting that changes in biochemical properties may affect glycogen levels. However, the modest changes are consistent with our previous proposal (E. M. Reimann et al., 1993, Adv. Protein Phosphatases 7,173-182) and with the results of Stuart et al. (1994, Mol. Cell. Biol. 14, 896-905) that the mutation may selectively alter the interaction of Glc7p with regulatory proteins.
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PMID:Purification and characterization of type 1 protein phosphatase from Saccharomyces cerevisiae: effect of the R73C mutation. 972 Nov 83

The c-Mos gene product is a component of the cytostatic factor and, as such, stabilizes the maturation-promoting factor causing cell-cycle blockade at metaphase II in unfertilized eggs. The potential role of c-Mos in regulating cell-cycle progression and cell death in somatic cells remains unknown. We studied whether paclitaxel-induced M-phase arrest and apoptosis are associated with c-Mos gene expression and activation in SKOV3 ovarian carcinoma cells. The first cellular effect observed with continuous exposure to 50 ng/ml paclitaxel (ID50) was mitotic arrest with an increase in the accumulation of cyclin B1 and stimulation of cdc2/cyclin B1 kinase in a time-dependent manner during a 36-h incubation. DNA fragmentation determined by agarose gel electrophoresis and quantitation of [3H]thymidine-prelabeled genomic DNA was a later event, first detected at 24 h and peaking at 48 h (later time points were not studied). Induction of the c-Mos gene expression and activation were determined by Western blot analysis, immunoprecipitation using a polyclonal anti-mos antibody, reverse transcription-PCR assay, and 32P-ATP incorporation into c-Mos protein or the substrate of glutathione S-transferase mitogen-activated protein kinase kinase, respectively. Both induction and activation were clearly detected after 24 h of exposure to paclitaxel concentrations of >50 ng/ml, coinciding with drug-induced apoptosis. Mitogen-activated protein kinase activation preceded c-Mos gene induction. Paclitaxel-induced c-Mos gene expression was completely abrogated by cycloheximide and actinomycin D. Mos gene expression was also induced in SKOV3 cells that were treated with vinblastine but not in those that were treated with camptothecin, etoposide, or cisplatin. We concluded that tubulin-disturbing agents induce c-Mos gene expression and activation in SKOV3 ovarian carcinoma cells and that such an effect occurs after mitotic blockade and coincides with drug-induced apoptosis.
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PMID:Paclitaxel-induced apoptosis is associated with expression and activation of c-Mos gene product in human ovarian carcinoma SKOV3 cells. 972 72

Previous studies have established that a recombinant protein fragment (45A) of the egg receptor for sperm of the sea urchin Strongylocentrotus purpuratus exhibits several characteristics that are consistent with that expected of a receptor. Using a quantitative sperm binding assay with glutathione S-transferase fused to a recombinant protein containing the C-terminal half of the 45A construct immobilized on glutathione beads, it was found that the interaction between sperm and this protein is a kinetically transient event. Sperm binding to the receptor fragment reached a maximum at 20 s after adding sperm in the presence of egg jelly to beads coated with recombinant receptor. In the next 20-120 s, approximately 50-70% of the sperm detached from the beads. Similar phenomena were observed when the kinetics of sperm binding to dejellied, glutaraldehyde-fixed eggs were studied. Because the acrosome reaction, a prelude to binding, is known to be accompanied by a decrease in the ATP level of sperm, we studied the effect of various inhibitors on both sperm detachment and the level of ATP. It was found that the detachment rate increased slightly when respiration inhibitors that blocked ATP production in mitochondria were added. In contrast, the dynein ATPase inhibitor, erythro-9-[3-hydroxynonyl]adenine, which is known to inhibit flagellum motility by blocking ATP utilization, stabilized the binding of sperm to the receptor and allowed maintenance of a high internal ATP level. Immotile, tailless sperm that physically lacked dynein ATPase, and therefore sustained their internal ATP levels, also exhibited stable binding provided that the sperm and beads were physically mixed. These results suggest that the internal ATP level of the sperm controls the stability of its binding to the receptor. The possible mechanism of the detachment and its significance with respect to the overall process of fertilization are discussed.
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PMID:Sperm-egg binding in the sea urchin: a high level of intracellular ATP stabilizes sperm attachment to the egg receptor. 974 Jun 64

Using part of the dnaK gene from Bacillus subtilis as a probe, a 4. 4-kbp SacI-BglII fragment of chromosomal DNA of Bacillus brevis, a protein-hypersecreting bacterium, was cloned. Nucleotide sequencing revealed 3 open reading frames in the order of grpE-dnaK-dnaJ homologues. We purified DnaK protein to homogeneity from B. brevis HPD31 harboring a multi-copy dnaK expression plasmid. Purified DnaK showed ATPase activity which was synergistically stimulated 14-fold by the addition of glutathione S-transferase-DnaJ and glutathione S-transferase-GrpE fusion proteins. DnaK hydrolyzed not only ATP but also CTP, UTP, and GTP at about 40% of the efficiency of ATP. The specific activity of DnaK-ATPase was 7.25x10-3 unit/mg protein (the turnover number against ATP was 0.47 min-1) under our assay conditions. The DnaK dimers dissociated into monomers on addition of ATP, GTP, CTP, UTP and ATPgammaS, but not ADP or AMP. DnaK formed a stable complex with permanently unfolded carboxymethylated alpha-lactalbumin but not with native alpha-lactalbumin, and this complex was dissociated by addition of ATP/Mg. Formation of this complex was inhibited in the presence of inorganic phosphate.
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PMID:Molecular cloning of the dnaK locus, and purification and characterization of a DnaK protein from Bacillus brevis HPD31. 974 7

The serine/threonine kinase p38 is a ubiquitous, highly conserved, stress responsive, signal-transducing enzyme. It regulates the production of proinflammatory mediators and is the target of the cytokine synthesis inhibitory pyridinylimidazoles. We have expressed human p38 in Drosophila S2 cells and characterized preparations of mixed unphosphorylated/monophosphorylated (inactive) and homogeneously diphosphorylated (active) forms of the enzyme. We observed that only the active preparation of the enzyme has significant kinase activity when assayed using an ATF2-GST fusion protein as the substrate. We determined that the value of KM[ATP] in this reaction is 25 microM and that the pyridinylimidazole inhibitor of p38 kinase activity, SB203580, competes with ATP. We have found that a tritiated pyridinylimidazole, SB202190, has an equal affinity for both the active and inactive forms of the enzyme and that SB203580 competes with it equally well for binding to either form of the enzyme. However, ATP can compete with the tritiated inhibitor for binding to only the active form of the enzyme. Further, we demonstrate in vivo that at concentrations consistent with its IC50 as a cytokine inhibitor, SB203580 can inhibit stimulus-induced phosphorylation of p38 at the Thr-Gly-Tyr activation motif. Our observations suggest that pyridinylimidazoles may block the biological activity of p38 kinase by binding to the inactive form of p38 and reducing its rate of activation. Under these conditions, ATP would not effectively compete with the inhibitors in vivo.
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PMID:The activation state of p38 mitogen-activated protein kinase determines the efficiency of ATP competition for pyridinylimidazole inhibitor binding. 975 74

In this study, the role of glutathione S-transferase (GST) P1-1, the cellular reduced glutathione (GSH) status, and ATP-dependent efflux pumps in the cellular glutathione-dependent biotransformation of thiotepa and transport of the main metabolite monoglutathionylthiotepa in relation to cytotoxicity was studied in control and GST-P1-1-transfected MCF-7 cell lines. It was demonstrated that an enhanced cellular level of GST-P1-1 leads to an enhanced formation of monoglutathionylthiotepa, which is transported out of the cell into the medium. Monoglutathionylthiotepa was able to reversibly inhibit the activity of purified GST-P1-1, but only at nonphysiological concentrations, indicating that feedback inhibition of GST by its metabolites is not a relevant process in vivo. The GST activity, cellular GSH level, and/or ATP-dependent efflux of monoglutathionylthiotepa were modulated using ethacrynic acid, D,L-buthionine-S,R-sulfoximine, probenecid, and verapamil to understand the interplay between GSTs, glutathione conjugation, and efflux of glutathione conjugates in more detail. Inhibition of the GSH biosynthesis by D,L-buthionine-R,S-sulfoximine, a specific inhibitor of gamma-glutamylcysteine synthetase, significantly reduced the glutathione conjugation of thiotepa and potentiated the cytotoxicity of thiotepa. Pretreatment of cells with ethacrynic acid resulted in decreased formation of monoglutathionylthiotepa as a result of inhibition of GST in the GST-P1-1 transfectant. In addition, the intracellular amount of monoglutathionylthiotepa increased in both of the cell lines on exposure to ethacrynic acid, indicating that transport of the glutathione conjugate was partially inhibited by the glutathione conjugate of ethacrynic acid. Transport activity of monoglutathionylthiotepa could also be inhibited by probenecid and verapamil, inhibitors of organic anion transport, without influencing the biotransformation capacity of the cells. It was demonstrated that inhibition of glutathione conjugate efflux by probenecid and verapamil leads to enhanced cytotoxicity, which indicates that besides thiotepa, monoglutathionylthiotepa is also cytotoxic for the cells. Only enhanced biotransformation and subsequent transport of the glutathione conjugate into the medium (which occurs with the GST-P1-1 transfectant) results in enhanced viability. Therefore, it was concluded that only enhanced biotransformation of thiotepa represents a real detoxification pathway when the resulting conjugate is transported out of the cells. Altogether, the results indicate that it is not the overexpression of GST per se but the interplay between GSH/GST and glutathione conjugate efflux pumps that results in increased resistance to alkylating anticancer drugs such as thiotepa.
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PMID:Glutathione-dependent biotransformation of the alkylating drug thiotepa and transport of its metabolite monoglutathionylthiotepa in human MCF-7 breast cancer cells. 978 13

GST-NS1 purified from Escherichia coli and insect cells binds double-strand DNA in an (ACCA)2-3-dependent fashion under similar ionic conditions, independent of the presence of anti-NS1 antisera or exogenously supplied ATP and interacts with single-strand DNA and RNA in a sequence-independent manner. An amino-terminal domain (amino acids 1-275) of NS1 [GST-NS1(1-275)], representing 41% of the full-length NS1 molecule, includes a domain that binds double-strand DNA in a sequence-specific manner at levels comparable to full-length GST-NS1, as well as single-strand DNA and RNA in a sequence-independent manner. The deletion of 15 additional amino-terminal amino acids yielded a molecule [GST-NS1(1-275)] that maintained (ACCA)2-3-specific double-strand DNA binding; however, this molecule was more sensitive to increasing ionic conditions than full-length GST-NS1 and GST-NS1(1-275) and could not be demonstrated to bind single-strand nucleic acids. A quantitative filter binding assay showed that E. coli- and baculovirus-expressed GST-NS1 and E. coli GST-NS1(1-275) specifically bound double-strand DNA with similar equilibrium kinetics [as measured by their apparent equilibrium DNA binding constants (KD)], whereas GST-NS1(16-275) bound 4- to 8-fold less well.
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PMID:Amino acids 16-275 of minute virus of mice NS1 include a domain that specifically binds (ACCA)2-3-containing DNA. 981 8

We describe the site-specific enzymatic biotinylation of recombinant anti-estradiol Fab fragments through a 13 amino acid acceptor peptide translationally fused to the C-terminus of the Fd chain. The Fab-peptide fusion proteins were secreted to the periplasm of Escherichia coli, purified, and biotinylated in vitro using biotin ligase, biotin, and ATP. The E. coli biotin ligase (the BirA protein) was produced as a novel N-terminal fusion protein with glutathione S-transferase (GST) and purified in one step from bacterial cell lysate using a Glutathione Sepharose affinity column. The purified fusion protein worked as such (without cleavage of the GST part) for the in vitro biotinylation of the Fab fragments. After the removal of nonbiotinylated Fab fragments by monomeric avidin chromatography, the overall yield of biotinylated Fab was 40%. The site-specifically biotinylated Fab fragments (BioFab) were tested in streptavidin-coated microtitration wells, to which they were shown to bind linearly with respect to the amount of BioFab added, specifically as indicated by biotin inhibition, and tightly with a half-life of several days. Moreover, the enzymatic BioFab exhibited uniform antigen binding affinity unlike the same recombinant Fab fragments biotinylated through random chemical conjugation to surface lysines. Finally, the BioFab demonstrated its potential as a well-behaving immunoassay reagent in a model competitive assay for estradiol.
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PMID:In vitro enzymatic biotinylation of recombinant fab fragments through a peptide acceptor tail. 981 66

The posttranslational translocation of proteins across the endoplasmic reticulum (ER) membrane in yeast requires ATP hydrolysis and the action of hsc70s (DnaK homologues) and DnaJ homologues in both the cytosol and ER lumen. Although the cytosolic hsc70 (Ssa1p) and the ER lumenal hsc70 (BiP) are homologous, they cannot substitute for one another, possibly because they interact with specific DnaJ homologues on each side of the ER membrane. To investigate this possibility, we purified Ssa1p, BiP, Ydj1p (a cytosolic DnaJ homologue), and a GST-63Jp fusion protein containing the lumenal DnaJ region of Sec63p. We observed that BiP, but not Ssa1p, is able to associate with GST-63Jp and that Ydj1p stimulates the ATPase activity of Ssa1p up to 10-fold but increases the ATPase activity of BiP by <2-fold. In addition, Ydj1p and ATP trigger the release of an unfolded polypeptide from Ssa1p but not from BiP. To understand further how BiP drives protein translocation, we purified four dominant lethal mutants of BiP. We discovered that each mutant is defective for ATP hydrolysis, fails to undergo an ATP-dependent conformational change, and cannot interact with GST-63Jp. Measurements of protein translocation into reconstituted proteoliposomes indicate that the mutants inhibit translocation even in the presence of wild-type BiP. We conclude that a conformation- and ATP-dependent interaction of BiP with the J domain of Sec63p is essential for protein translocation and that the specificity of hsc70 action is dictated by their DnaJ partners.
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PMID:Specific molecular chaperone interactions and an ATP-dependent conformational change are required during posttranslational protein translocation into the yeast ER. 984 86


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