Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gamma-aminobutyric acid receptor type A (GABA(A)) receptor-associated protein (GABARAP) is a member of a growing family of intracellular membrane trafficking and/or fusion proteins and has been implicated in plasma membrane targeting and clustering of GABA(A) receptors. GABARAP interacts with microtubules and the gamma2 subunit of GABA(A) receptor and modulates channel kinetics. From crystal structures of GABARAP in high salt concentration it has been proposed that oligomerization of GABARAP might take place in a head-to-tail fashion. In this study, we report that GABARAP self-associates and dimerizes in physiological salt concentrations. We find no evidence for higher order complex larger than a dimer. By using deletion constructs of GABARAP we show that interaction takes place between amino acid 36 and 68. We further narrow the interacting domain by inhibiting the self-association, by adding GABARAP-derived synthetic peptides in GST pull-down assays and shows that the interaction specifically takes place in the previously identified GABARAP-GABA(A) receptor interaction domain from amino acid 41-51. The identification of binding domains in GABARAP allows for the study of GABARAP functions, including GABA(A) receptor dynamics.
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PMID:Biochemical identification of the binding domain in the GABA(A) receptor-associated protein (GABARAP) mediating dimer formation. 1236 94

There has been some speculation about the salt independence of Schistosoma japonicum glutathione S-transferase (Sj26GST, EC. 2.5.1.18), but this aspect has not been carefully studied before. To establish the basis for a further development of this dependence, we have performed a methodical study of the influence of some important ions and their concentration on the binding properties of glutathione to Sj26GST by means of isothermal calorimetry and fluorescence quenching. Salts like NaCl, Na(2)SO(4) and MgSO(4) do not change practically the affinity of the protein for its substrate, whilst MgCl(2) has the effect of decreasing the affinity as its concentration rises. However, the enthalpy change is not affected by all the salts studied, and so, the entropy change is the causal factor in dropping the affinity. We also looked at the conformational stability of the protein under different conditions to check the structural changes they provide, and found that the unfolding parameters are practically not affected by the salt concentration. We discuss the results in terms of the chaotropic nature of the ions implied.
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PMID:Salt influence on glutathione--Schistosoma japonicum glutathione S-transferase binding. 1256 23

The human papillomavirus (HPV) capsid consists of 360 copies of the major capsid protein, L1, arranged as 72 pentamers on a T=7 icosahedral lattice, with substoichiometric amounts of the minor capsid protein, L2. In order to understand the arrangement of L2 within the HPV virion, we have defined and biochemically characterized a domain of L2 that interacts with L1 pentamers. We utilized an in vivo binding assay involving the coexpression of recombinant HPV type 11 (HPV11) L1 and HPV11 glutathione S-transferase (GST) L2 fusion proteins in Escherichia coli. In this system, L1 forms pentamers, GST=L2 associates with these pentamers, and L1+L2 complexes are subsequently isolated by using the GST tag on L2. The stoichiometry of L1:L2 in purified L1+L2 complexes was 5:1, indicating that a single molecule of L2 interacts with an L1 pentamer. Coexpression of HPV11 L1 with deletion mutants of HPV11 L2 defined an L1-binding domain contained within amino acids 396 to 439 near the carboxy terminus of L2. L2 proteins from eight different human and animal papillomavirus serotypes were tested for their ability to interact with HPV11 L1. This analysis targeted a hydrophobic region within the L1-binding domain of L2 as critical for L1 binding. Introduction of negative charges into this hydrophobic region by site-directed mutagenesis disrupted L1 binding. L1-L2 interactions were not significantly disrupted by treatment with high salt concentrations (2 M NaCl), weak detergents, and urea concentrations of up to 2 M, further indicating that L1 binding by this domain is mediated by strong hydrophobic interactions. L1+L2 protein complexes were able to form virus-like particles in vitro at pH 5.2 and also at pH 6.8, a pH that is nonpermissive for assembly of L1 protein alone. Thus, L1/L2 interactions are primarily hydrophobic, encompass a relatively short stretch of amino acids, and have significant effects upon in vitro assembly.
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PMID:Interactions between papillomavirus L1 and L2 capsid proteins. 1266 88

Pathogenic Yersinia species (Y. enterocolitica, Y. pestis, and Y. pseudotuberculosis) make use of a virulence plasmid-encoded type three secretion system (TTSS) to inject effector proteins into host cells. Y. enterocolitica YscM1 (LcrQ in Y. pestis and Y. pseudotuberculosis) and its homologue YscM2 are regulatory components of the TTSS that are also secreted by this transport apparatus. YscM1 and YscM2 share 57% identity and are believed to be functionally equivalent. We have recombinantly expressed and purified YscM1 and YscM2 in Escherichia coli. After expression as glutathione S-transferase (GST) fusions purification to near homogeneity was achieved by glutathione-Sepharose affinity chromatography followed by PreScission protease treatment to cleave off GST and gel filtration on a Superdex 75 column. Such recombinant YscM1 and YscM2 bound efficiently to the specific chaperone SycH, indicating proper folding of the purified proteins. Gel filtration analyses revealed that both YscM1 and YscM2 formed homodimers. The YscM1 and YscM2 homodimers could be dissociated at high ionic strength, indicating that salt bridges essentially contribute to the dimerization. We further demonstrated that YscM1 and YscM2 are susceptible to thrombin cleavage.
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PMID:Recombinant Yersinia enterocolitica YscM1 and YscM2: homodimer formation and susceptibility to thrombin cleavage. 1455 Jun 33

Since ethacrynic acid (EA), an SH modifier as well as glutathione S-transferase (GST) inhibitor, has been suggested to induce apoptosis in some cell lines, its effects on a human colon cancer cell line DLD-1 were examined. EA enhanced cell proliferation at 20-40 microM, while it caused cell death at 60-100 microM. Caspase inhibitors did not block cell death and DNA ladder formation was not detected. Poly(ADP-ribose) polymerase, however, was cleaved into an 82-kDa fragment, different from an 85-kDa fragment that is specific for apoptosisis. The 82-kDa fragment was not recognized by antibody against PARP fragment cleaved by caspase 3. N-Acetyl-L-cysteine (NAC) completely inhibited EA-induced cell death, but 3(2)-t-butyl-4-hydroxyanisole or pyrrolidinedithiocarbamate ammonium salt did not. Glutathione (GSH) levels were dose-dependently increased in cells treated with EA and this increase was hardly affected by NAC addition. Mitogen-activated protein kinase (MAPK) kinase (MEK) 1, extracellular signal-regulated kinase (ERK) 1 and GST P1-1 were increased in cells treated with 25-75 microM EA, while c-Jun N-terminal kinase (JNK) 1 and p38 MAPK were markedly decreased by 100 microM EA. NAC repressed EA-induced alterations in these MAPKs and GST P1-1. p38 MAPK inhibitors, SB203580 and FR167653, dose-dependently enhanced EA-induced cell death. An MEK inhibitor, U0126, did not affect EA-induced cell death. These studies revealed that EA induced cell death concomitantly with a novel PARP fragmentation, but without DNA fragmentation. p38 MAPK was suggested to play an inhibitory role in EA-induced cell death.
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PMID:Characterization of cell death induced by ethacrynic acid in a human colon cancer cell line DLD-1 and suppression by N-acetyl-L-cysteine. 1455 62

The human delta epithelial sodium channel (deltaENaC) subunit is related to the alpha-, beta-, and gammaENaC subunits that control salt homeostasis. DeltaENaC forms an amiloride-sensitive Na+ channel with the beta and gamma subunits. However, the in vivo function of deltaENaC is not known. To gain insight into the function of deltaENaC, a yeast two-hybrid screen of a human brain cDNA library was carried out using the C- and N-terminal domains of deltaENaC. A novel deltaENaC-interacting protein called Murr1 (mouse U2af1-rs1 region) was isolated in the C-terminal domain screen. Murr1 is a 21-kDa protein mutated in Bedlington terriers suffering from copper toxicosis. The interaction of Murr1 and deltaENaC was confirmed by glutathione S-transferase pulldown assay and coimmunoprecipitation. To test the functional significance of the interaction, Murr1 was coexpressed with deltabetagammaENaC in Xenopus oocytes. Murr1 inhibited amiloride-sensitive sodium current in a dose-dependent manner. In addition, deletion of the last 59 amino acids of deltaENaC abolished the inhibition. Murr1 also bound to the beta- and gammaENaC subunits and inhibited alphabetagammaENaC sodium current. Therefore, these results suggest that Murr1 is a novel regulator of ENaC.
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PMID:Identification of Murr1 as a regulator of the human delta epithelial sodium channel. 1464 14

Kinase Suppressor of Ras1 (KSR1) functions as a positive modulator of Ras-dependent signaling either upstream of or parallel to Raf-1, and pharmacologic inactivation of KSR1 may serve as a treatment for Rasdriven malignancies such as pancreatic cancer (Xing, H. R., Cordon-Cardo, C., Deng, X., Tong, W., Campodonico, L., Fuks, Z., and Kolesnick, R. (2003) Nat. Med. 9, 1266-1268). Although some studies demonstrated a requirement for KSR1 kinase activity for its action, others suggested KSR1 acts primarily as a scaffold facilitating assembly of the c-Raf-1/MEK module. We recently established a two-stage in vitro reconstitution assay to measure KSR1 kinase activity (Xing, H. R., Lozano, J., and Kolesnick, R. (2000) J. Biol. Chem. 275, 17276-17280). In this assay, KSR1, immunopurified to apparent homogeneity, never comes in contact with recombinant kinases other than c-Raf-1. In the first assay stage, activated KSR1 is incubated with recombinant c-Raf-1 and ATP. In the second stage, activated c-Raf-1 is separated from KSR1, and incubated with unactivated MEK1, unactivated MAPK, Elk-1, and ATP. Elk-1 phosphorylation serves as a specific readout for MAPK activation. However, because KSR1 constitutively associates with MEK1 and this interaction appears critical for KSR1 scaffolding function, it has been argued that the kinase activity detected is an artifact of KSR1-bound MEK1. To address these concerns, we depleted as much as 90% of KSR1-bound MEK1 by high salt washing without altering KSR1 kinase activity. Further, a complete inactivation of KSR1-bound MEK1 by pretreating with the MEK inhibitor PD 98059 prior to the first assay stage did not alter KSR1 kinase activity. In addition, the omission of exogenous recombinant GST-MEK1 from the reaction mixture during the second assay stage abolished Elk-1 phosphorylation confirming KSR1-bound MEK1 does not support MAPK activation in our in vitro assay. Moreover, a kinase-inactive mutant, FLAG-Ki-KSR1(D683A/D700A), which efficiently interacts with endogenous MEK1, lacks kinase activity. These results collectively support our contention that the kinase activity of KSR1 is an intrinsic property of this protein independent of KSR1-bound endogenous MEK.
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PMID:The kinase activity of kinase suppressor of Ras1 (KSR1) is independent of bound MEK. 2427 36

We investigated the potential of chronic administration of an oral daily dose (10 mg/kg) of the dietary flavonoid quercetin to prevent hypertension and oxidative stress induced by deoxycorticosterone acetate (DOCA)-salt in rats. We have compared its effects to those produced by the well-known anti-hypertensive drug verapamil, administered orally (20 mg/kg/day). Quercetin and verapamil treatments reduced systolic blood pressure of DOCA-salt rats in approximately 67.6 and 63.3% respectively, producing no effect in control animals. Both drugs reduced significantly hepatic and renal hypertrophy induced by DOCA-salt administration, while only quercetin prevented cardiac hypertrophy. Decreased endothelium-dependent relaxation to acetylcholine of aortic rings from DOCA-salt-treated rats was improved by quercetin, but verapamil only enhanced it in the presence of superoxide dismutase (SOD) plus catalase. Increased plasma and heart thiobarbituric acid reactive substances (TBARS) and total glutathione (GSH) levels in liver and heart, decreased liver glutathione peroxidase (GPX) and liver and kidney glutathione transferase (GST) activities were observed in DOCA-salt-treated rats compared to the control animals. The antihypertensive effect of quercetin was accompanied by normalisation of plasma TBARS values, improvement of the antioxidant defences system in heart and liver, restoring total GSH levels in both organs and altered liver GST and GPX activities, and improving kidney GST activity. Verapamil treatment only restored GSH levels in heart, having no effect on other alterations induced by DOCA-salt chronic administration in the antioxidant defences analysed. In conclusion, quercetin shows both antihypertensive and antioxidant properties in this model of mineralocorticoid hypertension, while verapamil exhibits only antihypertensive effects.
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PMID:Effects of chronic quercetin treatment on antioxidant defence system and oxidative status of deoxycorticosterone acetate-salt-hypertensive rats. 1512 12

In addition to their catalytic functions, GSTs (glutathione S-transferases) bind a wide variety of structurally diverse non-substrate ligands. This ligandin function is known to result in the inhibition of catalytic function. The interaction between hGSTA1-1 (human class Alpha GST with two type 1 subunits) and a non-substrate anionic ligand, BSP (bromosulphophthalein), was studied by isothermal titration calorimetry and inhibition kinetics. The binding isotherm is biphasic, best described by a set of two independent sites: a high-affinity site and a low-affinity site(s). The binding stoichiometries for these sites are 1 and 3 molecules of BSP respectively. BSP binds to the high-affinity site 80 times more tightly (K(d)=0.12 microM) than it does to the low-affinity site(s) (K(d)=9.1 microM). Binding at these sites is enthalpically and entropically favourable, with no linkage to protonation events. Temperature- and salt-dependent studies indicate the significance of hydrophobic interactions in the binding of BSP, and that the low-affinity site(s) displays low specificity towards the anion. Binding of BSP results in the release of ordered water molecules at these hydrophobic sites, which more than offsets unfavourable entropic changes during binding. BSP inhibition studies show that the binding of BSP to its high-affinity site does not inhibit hGSTA1-1. This site, located near Trp-20, may be related to the buffer-binding site observed in GSTP1-1. The low-affinity-binding site(s) for BSP is most probably located at or near the active site of hGSTA1-1. Binding to this site(s) results in non-competitive inhibition with respect to CDNB (1-chloro-2,4-dinitrobenzene) (K(i)(BSP)=16.8+/-1.9 microM). Given the properties of the H site and the relatively small size of the electrophilic substrate CDNB, it is plausible that the active site of the enzyme can simultaneously accommodate both BSP and CDNB. This would explain the non-competitive behaviour of certain inhibitors that bind the active site (e.g. BSP).
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PMID:Characterization of bromosulphophthalein binding to human glutathione S-transferase A1-1: thermodynamics and inhibition kinetics. 1514 39

The tripeptide glutathione (GSH) represents the major brain thiol and is essential for prevention of oxidative stress. Using monochlorobimane to label intracellular GSH in a glutathione S-transferase catalyzed reaction we have examined the kinetics of GSH metabolism including its rate of conjugation, total GSH content, synthesis, and efflux in astrocyte cultures under basal conditions and after induction of antioxidant response element (ARE)-mediated gene expression by the transcription factor Nrf2. In the presence of a cerebral spinal fluid-like salt solution astrocytes could not synthesize detectable levels of GSH. Addition of GSH precursors, cystine, glutamate, and glycine, rapidly restored GSH synthesis. Astrocytes were able to use either glutamate or glutamine as precursors equally for GSH synthesis. Using the small molecule chemical inducer tert-butylhydroqunione (tBHQ) we report that induction of ARE-mediated gene expression is associated with a coordinated increase in GSH content and synthesis rate with little effect on the rate of GSH conjugation or efflux. Consistent with the effect of the inducer, adenovirus-mediated overexpression of the transcription factor Nrf2 that mediates tBHQ's effects also increased GSH content, confirming that GSH metabolism can be regulated by the Nrf2 pathway.
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PMID:Coordinate regulation of glutathione metabolism in astrocytes by Nrf2. 1558 88


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