EC:2.5.1.18 - FACTA Search

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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)

The two major hydrophilic domains from the Saccharomyces cerevisiae plasma membrane H(+)-ATPase fused to glutathione S-transferase have been expressed in Escherichia coli. The GST-L peptide contained the hydrophilic region from Ala340 to Ser660. The GST-SL peptide contained in addition the hydrophilic region Glu162 to Val276. After solubilization of the inclusion bodies with urea, renaturation, and affinity chromatography, 3 mg of highly purified peptides were recovered per liter of E. coli culture. The purified peptides interacted with 2'(3')-O-(2,4,6-trinitrophenyl)-adenosine-5'-triphosphate (TNP-ATP), the fluorescence of which was enhanced identically upon binding of either GST-L or GST-SL. ATP competitively displaced the TNP-ATP binding. The observed dissociation constants for TNP-ATP (6.5 microM) and ATP (3 mM) are close to those found for the complete native H(+)-ATPase protein. The fluorescence of TNP-ATP was sensitive to Mg2+ indicating the existence of a Mg(2+)-binding site on the peptide. Apparent affinity for this Mg2+ site was found to vary from 50 microM at pH 7.5 to 400 microM at pH 5.5.
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PMID:Overexpression in Escherichia coli and purification of an ATP-binding peptide from the yeast plasma membrane H(+)-ATPase. 840 44

Addition of mitogenic growth factors to quiescent cells triggers complex signal transduction cascades that result in the reprogramming of gene expression and entry into the cell cycle. We have found that an oncogenic variant of the c-Raf-1 protein kinase stimulated the expression of promoters containing NF-kappa B binding sites. In situ immunofluorescence analysis revealed elevated nuclear levels of the p65 subunit of NF-kappa B in v-raf-transformed NIH 3T3 cells. Incubation of HeLa cell cytoplasmic extracts with a purified recombinant glutathione S-transferase-raf fusion protein in the presence of ATP released active NF-kappa B that could be detected by electrophoretic gel mobility shift assay. Coincubation of purified recombinant I kappa B and glutathione S-transferase-raf in the presence of ATP resulted in the phosphorylation of I kappa B. Coexpression of GAL4 (activation domain)-I kappa B and GAL4 (DNA-binding domain)-raf fusion proteins in yeast resulted in stimulation of a GAL4-responsive reporter gene, indicating that I kappa B and Raf interact physically in vivo. These results indicate that the Raf-1 kinase functions in signal transduction in part by activating the NF-kappa B transcription factor by phosphorylating I kappa B in the cytoplasmic I kappa B-NF-kappa B complex to release active NF-kappa B.
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PMID:Raf-1 protein kinase activates the NF-kappa B transcription factor by dissociating the cytoplasmic NF-kappa B-I kappa B complex. 841 86

NIMA is the protein product of the nimA gene of the filamentous fungus Aspergillus nidulans, required for progression of cells from G2 into mitosis. The protein kinase activity of NIMA, assayed by phosphorylation of beta-casein, varies during the nuclear division cycle, reaching a maximum in late G2 and M. To investigate the biochemical properties of this cell cycle-regulated protein kinase, we have expressed nimA cDNA that encodes full-length NIMA in Escherichia coli as a fusion product with glutathione S-transferase. Purified NIMA phosphorylated beta-casein, with a Km of 38 microM and Vmax of 156 nmol/min/mg. NIMA also demonstrated a Km of 69 microM for ATP. Both recombinant and cellular NIMA kinases behaved as oligomers on gel filtration chromatography, and their kinase activities were strongly inhibited by various salts. By using both protein and peptide substrates, NIMA demonstrated a serine/threonine-specific protein kinase activity. Cellular NIMA exists as a phosphoprotein, and bacterially expressed NIMA was also phosphorylated on multiple serine/threonine residues. Some of these phosphorylations appeared essential for NIMA activity as the enzyme could be dephosphorylated and inactivated in vitro by protein serine/threonine phosphatases. Use of a kinase-negative mutant of NIMA revealed that the NIMA enzyme undergoes autophosphorylation when expressed at high concentrations in bacteria. Taken together, these data suggest that cellular mechanisms may exist to regulate the phosphorylation state and activity of the NIMA protein kinase during the nuclear division cycle in A. nidulans.
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PMID:Properties and regulation of the cell cycle-specific NIMA protein kinase of Aspergillus nidulans. 847 20

A specific antiserum against the human m3-muscarinic receptor subtype was made by subcloning a variant region of the third intracellular loop of the m3-receptor (Ser345-Leu463) into a bacterial expression plasmid that produced a fusion protein with glutathione S-transferase. In immunoblot studies this anti-serum identified the human m3-receptor expressed in transfected Chinese hamster ovary (CHO) cells (CHO-m3 cells, 1343 fmol/mg protein) as a diffuse band at approximately 97-110 kDa. In vivo labeling of the ATP pool in CHO-m3 cells with [32P]orthophosphate followed by immunoprecipitation of solubilized m3-receptors revealed that the unstimulated receptor existed in a phosphorylated form. Incubation of CHO-m3 cells with the cholinergic agonist carbachol (1 mM) increased the phosphorylated state of the receptor dramatically, primarily at serine. The time course for agonist-dependent phosphorylation was very rapid occurring within seconds of agonist addition and was maintained for at least 30 min. The muscarinic antagonist atropine (10 microM) inhibited agonist-stimulated phosphorylation. Neither forskolin (10 microM) nor the calcium ionophore, ionomycin (1 microM), had any effect on the state of phosphorylation of the m3-receptor, eliminating a role for cAMP-dependent protein kinase and Ca2+/calmodulin-dependent protein kinase in the agonist-dependent phosphorylation of m3-receptors. 4 beta-Phorbol 12 beta-myristate 13 alpha-acetate (100 nM) did increase m3-receptor phosphorylation, an effect that was inhibited by the selective protein kinase C inhibitor RO-318220 (10 microM). However, agonist-stimulated m3-receptor phosphorylation was not inhibited by RO-318220 indicating that protein kinase C was not involved in agonist-induced m3-receptor phosphorylation. In conclusion the phosphorylation of m3-receptors, in vivo, was increased following the application of muscarinic agonist or PMA. The response to agonist was mediated via a kinase distinct from protein kinase C, protein kinase A and Ca2+/calmodulin dependent protein kinase, whereas the effect of 4 beta-phorbol 12 beta-myristate 13 alpha-acetate was mediated by protein kinase C.
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PMID:Rapid agonist-mediated phosphorylation of m3-muscarinic receptors revealed by immunoprecipitation. 848 62

To study the behavior of the neuroendocrine polypeptide 7B2 in the presence of calcium, various fragments of this molecule were produced in Escherichia coli as fusion proteins to glutathione S-transferase (GST). Addition of millimolar concentrations of Ca2+ to purified preparations of hybrid molecules carrying the N-terminal segment of 7B2 induced precipitation in a manner dependent on protein and cation concentrations. This precipitation occurred at pH 7.5 but not at pH 5.2. It was augmented by 4 and 8 mM ATP, and reduced by 12 and 24 mM ATP. ADP had a similar but weaker effect. Calcium failed to cause precipitation of GST alone or of GST fused to the C-terminal peptide 7B2(156-186). However, when the latter protein was mixed with a GST protein carrying a short fragment of the N-terminal region of 7B2, both proteins were precipitated by calcium. Except for the pH dependence, the behavior of 7B2 fusion proteins in the presence of calcium and adenosine nucleotides are reminiscent of those exhibited by chromogranins and secretogranins, which, like 7B2, are acidic proteins found in the secretory granules of a variety of neuroendocrine cells. As suggested for other granins, this property may underlie the segregation of 7B2 fragments into secretory granules.
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PMID:Calcium-induced aggregation of neuroendocrine protein 7B2 in vitro and its modulation by ATP. 858 12

Dematin and protein 4.2 are peripheral membrane proteins associated with the cytoplasmic surface of the human erythrocyte plasma membrane. Isoforms of dematin and protein 4.2 exist in many nonerythroid cells. In solution, dematin is a trimeric protein containing two subunits of 48 kDa and one subunit of 52 kDa. Recent determination of the primary structure of the 52 kDa subunit of dematin showed that it contains an additional 22-amino acid sequence in the headpiece domain. An alignment of the 22-amino acid insertion sequence revealed that the 52 kDa subunit of dematin shares a novel 11-amino acid motif with protein 4.2. In this communication, we report that the conserved 11-amino acid motif in dematin52 and protein 4.2 contains a nucleotide binding P-loop. Direct binding of ATP is demonstrated to the glutathione S-transferase fusion proteins containing corresponding segments of dematin52 and protein 4.2 as well as to purified protein 4.2. The binding of ATP to the recombinant domains of dematin52 and protein 4.2 is specific, saturable, and of high affinity. The nucleotide specificity of the P-loop is restricted to ATP since no detectable binding was observed with GTP. These results show that the 11-amino acid motif provides an ATP binding site in dematin52 and protein 4.2. Although the functional significance of ATP binding is not yet clear, our findings open new perspectives for the function of dematin and protein 4.2 in vivo.
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PMID:Human erythrocyte dematin and protein 4.2 (pallidin) are ATP binding proteins. 860 38

The potential role of transforming growth factor-beta in in vivo resistance was examined by administration of transforming growth factor-beta-neutralizing antibodies to animals bearing the EMT-6/Parent tumor or the antitumor alkylating resistance tumors, EMT-6/CTX or EMT-6/CDDP. Treatment of tumor bearing animals with anti-TGF-beta antibodies by intraperitoneal injection daily on days 0-8 post-tumor cell implantation increased the sensitivity of the EMT-6/Parent tumor to cyclophosphamide (CTX) and cisplatin (CDDP) and markedly increased the sensitivity of the EMT-6/CTX tumor to CTX and the EMT6/CDDP tumor to CDDP, as determined by tumor cell survival assay. Bone marrow granulocyte-macrophage colony-forming units (CFU-GM) survival was determined from these same animals. The increase in the sensitivity in the tumors upon treatment with the anti-TGF-beta antibodies was also observed in increased sensitivity of the bone marrow CFU-GM to CTX and CDDP. Treatment of non-tumor-bearing animals with the anti-TGF-beta regimen did not alter blood ATP or serum glucose level but did decrease serum lactate levels. This treatment also decreased hepatic glutathione, glutathione S-transferase, glutathione reductase, and glutathione peroxidase in non-tumor bearing animals by 40-60% but increased hepatic cytochrome P450 reductase in these normal animals. Animals bearing the EMT-6/CTX and EMT-6/CDDP tumors had higher serum lactate levels than normal or EMT-6/Parent tumor-bearing animals; these were decreased by the anti-TGF-beta regimen. Treatment of animals bearing any of the three tumors with the anti-TGF-beta regimen decreased by 30-50% the activity of hepatic glutathione S-transferase and glutathione peroxidase, and increased by 35-80% the activity of hepatic cytochrome P450 reductase. In conclusion, treatment with transforming growth factor-beta-neutralizing antibodies restored drug sensitivity in the alkylating agent-resistant tumors, altering both the tumor and host metabolic states.
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PMID:Transforming growth factor-beta in in vivo resistance. 861 16

We have investigated the kinetic properties of the slow plus end directed microtubule (MT) motor Eg5. The recombinantly expressed fusion protein E437GST, containing residues 12-437 of Eg5 fused to the N-terminus of glutathione S-transferase (GST), is dimeric and motile, translocating MTs at an average speed of 0.063 (+/-0.01) micrometers(-1). The kinetics of ATP turnover by E437GST were investigated using the fluorescent ATP analogue methylanthraniloyl-ATP (mantATP). In the absence of MTs, mantADP release from E437GST is slow (0.006 s(-1) in 50 mM NaCl) and rate-limiting. MTs accelerate this kinetic step approximately 850-fold to a maximal rate of 4.94 s(-1). Under these conditions, the steady-state rate of mantATP turnover was 1.92 s(-1), indicating that MT-activated mantADP release accounts for at least 40% of the total cycle time of the motor and is probably rate-limiting. This step is around 10-fold slower in Eg5 than in kinesin, consistent with it limiting the rate of physical stepping in both Eg5 and kinesin. The dissociation constants of the motor in the presence of various nucleotides were determined using MT pelleting assays. ADP stabilizes the weakest bound state of the motor, while ATP, ATP gamma S, AMPPNP, and apyrase all induce a shift toward tighter binding states. Overall, the data indicate that Eg5 displays strong kinetic homologies with the two other well-characterized MT motors, kinesin and non claret disjunctional, suggesting that all kinesin superfamily motors may share the same basic mechanochemistry.
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PMID:Kinetics and motility of the Eg5 microtubule motor. 865 78

Non-claret disjunctional (Ncd) is a kinesin-related microtubule motor protein in Drosophila that functions in meiotic spindle assembly in oocytes and spindle pole maintenance in early embryos. The partial loss-of-function mutant ncdD retains mitotic, but not meiotic, function. The predicted NcdD mutant protein contains a V556-->F mutation in the putative microtubule binding region of the Ncd motor domain. Here we report an analysis of the properties of recombinant Ncd and NcdD proteins. A GST-NcdD fusion protein translocated microtubules approximately 10-fold more slowly than the corresponding wild-type protein in gliding assays. The maximum microtubule-stimulated ATPase activity of an NcdD motor domain protein was reduced approximately 3-fold and an approximately 3-fold greater concentration of microtubules was required for half-maximal stimulation of ATPase activity, compared with the corresponding wild-type protein. The Km for ATP and basal rate of ATP turnover were, in contrast, similar for the NcdD mutant and wild-type Ncd motor domain proteins. Pelleting assays demonstrated that the binding of the mutant NcdD motor protein to microtubules was reduced in the absence of nucleotide, relative to wild-type. The reduced velocity of NcdD translocation on microtubules is therefore correlated with reductions in microtubule-stimulated ATPase activity and affinity of the mutant motor for microtubules. The characteristics of the NcdD motor explain its meiotic loss of function, and are consistent with partial motor activity of Ncd being sufficient for its mitotic, but not its meiotic, role.
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PMID:A point mutation in the microtubule binding region of the Ncd motor protein reduces motor velocity. 867 Aug 31

Glutathione (GSH) and glutathione-related enzyme systems in astrocytes play an important role in cellular defense against oxidative stress in the nervous system. The present study was designed to characterize the cellular responses of cultured astrocytes to chemically-induced perturbations of mitochondrial and cytosolic GSH homeostasis. Treatment of astrocytes in culture with ethacrynic acid (EA), a mitochondrion-penetrating thiol reagent, induced rapid and extensive depletion of both cytosolic and mitochondrial pools of GSH. Concomitant with the effects of EA on cellular GSH were significant and concentration-dependent increases in intracellular generation of reactive oxygen species (ROS) as indicated by the oxidation of preloaded 2',7'-dichlorofluorescein diacetate. Significant elevation of intracellular ROS occurred by 15 min following exposure to 100 microM EA and reached peak levels by 30 min which were approximately 7-fold higher than corresponding control levels. Ethacrynic acid-induced GSH depletion and intracellular ROS elevation was followed by marked decreases in glutathione reductase (GR) activity in mitochondria, and to a lesser extent, in cytosolic fractions of cultured astrocytes. This inhibitory effect was time- and concentration-dependent, and other GSH-related enzymes, glutathione peroxidase and glutathione S-transferase, were not or only slightly affected. Kinetic studies showed that EA markedly diminished V(max) values of both mitochondrial and cytosolic GR without affecting K(m), suggesting noncompetitive inhibition of this thiol-dependent enzyme. Another thiol-dependent enzyme glyceraldehyde-3-phosphate dehydrogenase was also markedly inhibited by EA in a time-dependent fashion. Subsequent decline of mitochondrial transmembrane potential (rhodamine 123 uptake) and cellular ATP production following EA treatment occurred prior to the onset of loss of cell viability as indicated by lactate dehydrogenase leakage. These results suggest that the loss of mitochondrial GSH may render the astrocytes unable to combat the pathological sequelae of endogenous oxidative stress, leading to perturbations of thiol-dependent enzyme activities, mitochondrial function and energy metabolism.
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PMID:Cellular responses of cultured cerebellar astrocytes to ethacrynic acid-induced perturbation of subcellular glutathione homeostasis. 868 Aug 62

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