DrugBank:APRD00631 - FACTA Search

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Query: DrugBank:APRD00631 (Gel)
14,881 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Cytosol from trout liver, gills and intestinal caeca has substantial glutathione S-transferase activity. 2. Gel-exclusion and ion-exchange chromatography suggest that trout liver has several glutathione S-transferases with different molecular weights and ionic charges. 3. A component capable of binding lithocholic acid eluted together with glutathione S-transferase activity. Some of the transferase activity did not elute together with binding activity. 4. The enzymic activity from trout liver was less stable at 37 degrees C than that from rat liver. 5. The glutathione S-transferases of fish liver have a similar specific activity to those of rat liver but different molecular properties.
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PMID:A comparison of the glutathione S-transferases of trout and rat liver. 31 20

1. The partial purification of two lithocholic acid-binding proteins from liver 100 000g supernatants is described. 2. Gel-filtration, (NH4)2SO4 fractionation, Ca3(PO4)2 fractionation and ion-exchange chromatography were used. 3. Both proteins exhibited glutathione S-transferase activity; one may be the non-specific anion-binding protein ligandin. 4. Glutathione S-transferase activity of one of the binding proteins was inhibited by lithocholic acid.
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PMID:Partial purification of two lithocholic acid-binding proteins from rat liver 100 000g supernatants. 92 57

Glutathione transferases (GST) are dimeric enzymes that take part in many detoxification processes. A previous report described the use of a glutathione-Sepharose affinity matrix for the purification of human liver GST. The method involved the use of 5 mM glutathione in a high pH buffer, and the yields were nearly 100%. This method and adapted techniques have now been applied to rat liver GST. Selective GST elution can be obtained in several different ways: by stepwise change of the pH and/or glutathione concentration, and by linear gradient elution. Gel electrophoresis showed, however, that none of the fractions contained pure GST isoenzymes. Also, less than 50% of the total rat liver GST was eluted with 5 mM glutathione, in contrast to the results with human liver GST. A glutathione concentration of 30 mM is necessary for quantitative desorption of rat liver GST from a glutathione-Sepharose column.
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PMID:Selective elution of soluble rat liver glutathione transferases from a glutathione-Sepharose affinity column. 207 2

Binding of cefpiramide (CPM) and other beta-lactam antimicrobial agents to 2(3)-tert-butyl-4-hydroxyanisole (BHA)-induced liver glutathione (GSH) S-transferases (EC 2.5.1.18) from CD-1 mice was studied. A marked induction of hepatic GSH S-transferase from mice fed BHA was observed. Gel chromatography of liver cytosol from mice fed BHA showed an increased binding of CPM, cefotetan and cefazolin to BHA-induced GSH S-transferases. The extent of their binding to GSH S-transferase seemed to be correlated with the extent of their excretion into the bile. Binding of CPM to the GSH S-transferase fraction was inhibited by both indocyanine green, which is known to bind liver GSH S-transferases intensively, and by cefoperazon, which is mainly excreted into the bile. This study suggests that GSH S-transferases are the main binding proteins of CPM in the liver cytosol fraction and play an important role as carrier proteins of CPM and some antimicrobial agents in mouse liver.
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PMID:Effects of 2(3)-tert-butyl-4-hydroxyanisole pretreatment on cefpiramide binding to mouse glutathione S-transferases. 260 20

Rats were injected intraperitoneally with phenobarbital (PB) and 3-methylcholanthrene (MC) which are microsomal enzyme inducers, and methyl iodide (MeI), cobalt chloride (CoCl2) and tri-o-cresyl phosphate (TOCP) which are inhibitors of the enzymes glutathione transferase, cytochrome (cyt) P-450 and carboxylesterase, respectively, and then challenged with soman (i.p.) to know its LD50. Pretreatment with PB and MC increased and TOCP decreased, whereas MeI as well as CoCl2 did not alter the LD50 value of soman in rats. The 1/2 LD50 dose of soman did not affect the liver microsomal cyt P-450 level, but significantly lowered carboxylesterase (CaE) and cholinesterase (ChE) activities in liver microsomes and in blood plasma. Induction of plasma CaE was more important than microsomal CaE in PB-mediated protection against soman toxicity. Gel filtration of plasma into four protein fractions for their relative soman binding capacity showed that a high-molecular-weight protein fraction (180,000 daltons on SDS-PAGE) which had no CaE activity could bind soman 6 times more than the low-molecular-weight CaE-containing protein fraction (60,000 daltons on SDS-PAGE).
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PMID:Role of carboxylesterase in protection against soman toxicity. 276 74

The cytosolic fraction of adult Schistosoma mansoni contains glutathione S-transferase (EC 2.5.1.18) activity, determined with the prototype substrate 1-chloro-2,4-dinitrobenzene, that is 5- to 50-fold greater than that found in other metazoan parasites. A survey of several model substrates revealed that enzymes in male and female schistosomes have distinct but overlapping substrate specificities. Four forms of glutathione S-transferase were detected, three of which, SmGST-1, SmGST-2, and SmGST-3, were purified to apparent homogeneity by glutathione affinity chromatography and HPLC chromatofocusing. The purified enzymes displayed very similar catalytic and physicochemical properties. They could be distinguished by differences in activity with ethacrynic acid and trans-4-phenyl-3-buten-2-one, but not with aryl halide substrates. The isoelectric points of SmGST-1, SmGST-2, and SmGST-3 were estimated to be 7.2, 7.1, 6.9, respectively. A polyclonal antiserum to SmGST-3 cross-reacted with the other two forms, but not with other soluble schistosome proteins. Each of the purified enzymes displayed an apparent subunit molecular weight of 28,500 by polyacrylamide gel electrophoresis under denaturing conditions. Gel filtration chromatography yielded a molecular weight of 30,800 for the catalytically active form of the enzyme. Unlike all known glutathione S-transferases, the three enzyme forms purified from S. mansoni appear to be catalytically active monomeric proteins.
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PMID:Purification of three cytosolic glutathione S-transferases from adult Schistosoma mansoni. 339 16

The glutathione transferase from T. infestans is able to render aqueous metabolites when incubated in vitro with malathion, parathion and fenitrothion. It is a soluble enzyme present in every developmental stage and widely distributed in all insect organs. The purification procedure applied, consisting of fractionation with ammonium sulfate and Bio-Gel P-60 chromatography, gives an unique molecular form catalytically active using methyl iodide as substrate in polyacrylamide gel electrophoresis (PAGE). One of the most active substrates is the 1-chloro-2,4-dinitrobenzene (CDNB), with an activity maximum at pH 7.5 and at 45 degrees C temperature. Its activation energy calculated from an Arrhenius plot is 14,846 cal mol-1. The enzyme susceptibility to inhibition by thiol reagents shows three degrees of responses; slight, moderate or high, depending on the compounds used. The kinetics of the enzyme catalysed reaction with the purified fraction is complex, and resembles that reported for glutathione S-transferase A from rat liver, showing a biphasic kinetic mechanism in which the reaction pathway depends on the concentration of GSH. In general, the properties of this insect enzyme are similar to those enzymes isolated from vertebrate organisms.
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PMID:Distribution and properties of glutathione S-transferase from T. infestans. 353 Jun 29

Double-stranded cDNA sequences for rat alpha 1-acid glycoprotein and rat glutathione S-transferase mRNAs were inserted into the Pst I site of bacteriophage M13mp7 and used to develop a new method for preparing specific cDNA hybridization probes directly from cloned template DNA. A palindrome sequence surrounding the Pst I site in the vector DNA permitted single-stranded DNA isolated from the recombinant phage to fold back, thus forming a stable hybrid bounded on the ends by a large loop of M13mp7 single-stranded DNA and a small loop of inserted foreign DNA. A primer corresponding to an internal sequence of the foreign DNA was hybridized, then Escherichia coli DNA polymerase I was used to synthesize a 32P-labeled complementary DNA copy of the cloned inserted DNA. The single-stranded cDNA reaction product was easily isolated by subsequent sedimentation through alkaline sucrose gradients. Gel electrophoresis of the labeled cDNA product, after denaturation with glyoxal, indicated a single discrete band with an electrophoretic mobility corresponding to the length of the inserted DNA sequence. About 95% of the cDNA product formed S1 nuclease-resistant hybrids in hybridization reactions with excess RNA in solution. DNA sequences complementary to the M13mp7 vector DNA were not detected in the cDNA product. Thus, these M13mp7-derived probes are the functional equivalent of cDNA copies to mRNAs and can be employed for quantitative measurements of mRNA concentration. This simple, rapid method probably can be used for most cloned DNA sequences to yield single-stranded radioactively labeled DNA, without contaminating vector DNA sequences, for virtually any hybridization requirement.
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PMID:Simple rapid method for the synthesis of radioactively labeled cDNA hybridization probes utilizing bacteriophage M13mp7. 627 92

To investigate a possible function of plasma albumin in the vectorial transport of organic anions by the liver, the plasma disappearance of sulfobromophthalein (BSP) and its interaction with plasma and liver cytosolic proteins were studied in normal rats and mutant Nagase analbuminemic rats (NAR). After intravenous administration of BSP, plasma BSP decreased rapidly in both NAR and control animals: plasma clearance values of BSP in NAR and controls were 12.45 and 7.40 ml/min per kg, respectively. Gel exclusion Sephadex G-100 chromatography of BSP with control rat serum revealed a protein peak in the void volume and another in the albumin fraction. BSP chromatographed exclusively with the albumin fraction; binding of BSP to plasma albumin occurred stoichiometrically. Similar studies with NAR serum revealed a single protein peak, in the void volume; a small amount of BSP chromatographed with this protein peak. The amount of BSP that chromatographed with NAR serum protein(s) was 8% of that with control rat serum albumin. Sephadex G-100 chromatography of BSP with control rat liver cytosol revealed four peaks of protein-bound BSP in fractions corresponding to the void volume (fraction X), albumin, glutathione S-transferases (fraction Y, Mr 45,000), and fraction Z (Mr 12,000); fraction Y was the major component of BSP binding. Gel chromatography of NAR liver cytosol with BSP revealed three BSP peaks, fractions X, Y, and Z; fraction X was the major component of BSP binding. Total BSP binding by 30 mg of hepatic cytosolic proteins was 4.5 nmol for controls and 10.4 nmol for NAR. Isoelectric focusing of liver cytosol revealed no quantitative or qualitative differences in glutathione S-transferase isozymes between control and mutant animals. Intravenously administered BSP (5 mumol/kg) rapidly appeared in bile as the free form and the glutathione conjugate in normal rats and NAR; 41% and 57% of injected BSP was excreted within 60 min in NAR and control rat bile, respectively. These results indicate that binding of BSP to plasma albumin is not indispensable to transhepatocyte transport of BSP in vivo.
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PMID:Plasma clearance of sulfobromophthalein and its interaction with hepatic binding proteins in normal and analbuminemic rats: is plasma albumin essential for vectorial transport of organic anions in the liver? 658 79

The metabolism of [75Se]selenite was studied in rhesus monkeys. In blood samples taken various times after injection, Sephadex G-150 gel filtration revealed that the majority of the 75Se was associated with hemoglobin and low-molecular-weight compounds in erythrocytes up to 24 hours after selenium injection. Subsequently a gradual increase of 75Se occurred in glutathione peroxidase (GSH-Px) with a concurrent decrease of label with hemoglobin. In contrast to the erythrocytes, over 80% of the labeled selenium in plasma was associated with one peak 3 hours and later after injection. This major protein eluted at a position similar to GSH-Px on gel filtration, but subsequent chromatography on diethylaminoethyl (DEAE)-Sephacel separated the radiolabeled protein from GSH-Px. Gel filtration of heart, muscle, brain and pancreas cytosol revealed two major selenium-containing proteins, whereas one was predominant in liver and kidney. The major selenium peak was associated with GSH-Px in liver but not in the kidney. GSH-Px activity with either organic or inorganic peroxides as substrates and glutathione transferase activity were higher in liver than kidney.
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PMID:Metabolism of [75Se]selenite by rhesus monkeys. 674 31

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