摄入异烟肼对家蚕幼虫体内谷胱甘肽氧化还原循环和谷胱甘肽S-转移酶活性的影响

为了建立家蚕Bombyx mori的药物筛选和毒性评价模型, 以剂量为2 000 mg/kg的抗结核模药异烟肼饲喂家蚕5龄第3天幼虫后检测其中肠和脂肪体的抗氧化解毒相关代谢的变化。结果表明： 雌蚕中肠组织中, 总谷胱甘肽(GSH+2GSSG)、 还原型谷胱甘肽(reduced glutathione, GSH)和氧化型谷胱甘肽(oxidized glutathione, GSSG)含量均呈现迅速上升再缓慢下降趋势; 谷胱甘肽S 转移酶(glutathione S-transferase, GST)活性升高到较大值后逐渐降低; GSH/GSSG的比值下降表明, 在72 min后中肠组织向氧化态转移。脂肪体组织中, 总谷胱甘肽、 GSH和GSSG含量变化均呈现迅速下降再迅速上升的趋势; GST活性达到最大值后逐渐降低后趋于平稳; GSH/GSSG比值升高表明, 在72 min后脂肪体组织向还原态转移。无论雌蚕还是雄蚕, 总谷胱甘肽、 GSH和GSSG含量以及GST活性均是脂肪体高于中肠。雌蚕的总谷胱甘肽含量、 GSH和GSSG含量高于雄蚕, 但雄蚕的GST活性高于雌性。结果说明, 摄入异烟肼引起了家蚕幼虫体内谷胱甘肽氧化还原状态的改变和酶活性的变化, 在这个过程中脂肪体起主要解毒代谢作用。     

The role of glutathione in the isomerization of delta 5-androstene-3,17-dione catalyzed by human glutathione transferase A1-1

Human glutathione transferase (GST) A1-1 efficiently catalyzes the isomerization of Delta(5)-androstene-3,17-dione (AD) into Delta(4)-androstene-3,17-dione. High activity requires glutathione, but enzymatic catalysis occurs also in the absence of this cofactor. Glutathione alone shows a limited catalytic effect. S-Alkylglutathione derivatives do not promote the reaction, and the pH dependence of the isomerization indicates that the glutathione thiolate serves as a base in the catalytic mechanism. Mutation of the active-site Tyr(9) into Phe significantly decreases the steady-state kinetic parameters, alters their pH dependence, and increases the pK(a) value of the enzyme-bound glutathione thiol. Thus, Tyr(9) promotes the reaction via its phenolic hydroxyl group in protonated form. GST A2-2 has a catalytic efficiency with AD 100-fold lower than the homologous GST A1-1. Another Alpha class enzyme, GST A4-4, is 1000-fold less active than GST A1-1. The Y9F mutant of GST A1-1 is more efficient than GST A2-2 and GST A4-4, both having a glutathione cofactor and an active-site Tyr(9) residue. The active sites of GST A2-2 and GST A1-1 differ by only four amino acid residues, suggesting that proper orientation of AD in relation to the thiolate of glutathione is crucial for high catalytic efficiency in the isomerization reaction. The GST A1-1-catalyzed steroid isomerization provides a complement to the previously described isomerase activity of 3beta-hydroxysteroid dehydrogenase.     

Structure-guided activity restoration of the silkworm glutathione transferase Omega GSTO3-3

Glutathione transferases (GSTs) are ubiquitous detoxification enzymes that conjugate hydrophobic xenobiotics with reduced glutathione. The silkworm Bombyx mori encodes four isoforms of GST Omega (GSTO), featured with a catalytic cysteine, except that bmGSTO3-3 has an asparagine substitution of this catalytic residue. Here, we determined the 2.20-Å crystal structure of bmGSTO3-3, which shares a typical GST overall structure. However, the extended C-terminal segment that exists in all the four bmGSTOs occupies the G-site of bmGSTO3-3 and makes it unworkable, as shown by the activity assays. Upon mutation of Asn29 to Cys and truncation of the C-terminal segment, the in vitro GST activity of bmGSTO3-3 could be restored. These findings provided structural insights into the activity regulation of GSTOs.     

即时浸酸显著降低滞育家蚕卵的还原型与氧化型谷胱甘肽比值

即时浸酸在阻止家蚕Bombyx mori卵滞育发动的同时, 显著提高了家蚕卵H₂O₂含量。还原型谷胱甘肽（reduced glutathione, GSH）与氧化型谷胱甘肽（oxidized glutathione, GSSG）的比值是一种氧化胁迫状态的动态指标。为了调查即时浸酸是否造成滞育家蚕卵氧化胁迫, 本研究利用分光光度法分别测定了滞育家蚕卵和5 min即时浸酸滞育家蚕卵中GSH和GSSG含量以及谷胱甘肽转移酶（glutathione-S-transferase, GST）活性。结果表明: 处理后24 h, 即时浸酸处理家蚕卵的总谷胱甘肽（GSH+2GSSG）含量、 GSH含量、 GSSG含量、 GSH/GSSG比值和GST活性分别相当于同期滞育家蚕卵的204%, 78%, 550%, 14%和97%。据此推测, 即时浸酸在阻止滞育发动的同时, 可能通过促进GSH氧化为GSSG, 而显著降低了GSH/GSSG比值, 使家蚕卵处于过氧化状态。     

Variation in glutathione status associated with induction and initiation of diapause in eggs of the bivoltine strain of the silkworm Bombyx mori

For the bivoltine (Dazao) strain of the silkworm Bombyx mori L., diapause expression in progeny is induced by exposure to conditions of 25 °C and continuous illumination (LL) during the maternal generation, whereas an environment of 15 °C and constant darkness (DD) results in nondiapause progeny. Initiation of diapause in progeny can be prevented by treatment of diapause‐programmed eggs with hydrochloric acid (HCl) at approximately 24 h post‐oviposition. To investigate whether glutathione is involved in the regulation of diapause induction and initiation in this species, measurements of total glutathione, reduced glutathione (GSH), oxidised glutathione (GSSG), GSH/GSSG ratio, glutathione S‐transferase (GST) and peroxiredoxins (Prdx) are compared in eggs incubated under LL and DD conditions, and between diapause eggs and those treated with HCl. Compared with DD, eggs incubated under LL have higher total glutathione (GSH + 2GSSG), lower GSH, higher GSSG, a lower GSH/GSSG ratio, lower GST activity and higher Prdx activity at stages 20–25 of maternal embryogenesis. The lower ratio of GSH/GSSG is indicative of pro‐oxidative conditions during diapause induction, which may result from the stronger oxidation of GSH. Compared with HCl‐treated eggs, diapause eggs have lower total glutathione, no difference in GSH, lower GSSG, a higher GSH/GSSG ratio, no difference in GST activity and lower Prdx between 36 and 72 h post‐oviposition. The higher ratio GSH/GSSG is indicative of reducing conditions during diapause initiation, which may a result of the weaker oxidation of GSH. Moreover, variations of Prdx and GST suggest that Prdx rather than GST plays an important role in the oxidation of GSH during the induction and initiation of diapause.     

Effects of extract of Ginkgo biloba leaves and its constituents on carcinogen-metabolizing enzyme activities and glutathione levels in mouse liver

The effects of a standardized extract of Ginkgo biloba L. leaves (EGb) and its terpene constituents, bilobalide and ginkgolides, on the activities of detoxification enzymes, i.e., glutathione S-transferases (GSTs) and DT-diaphorase, and glutathione contents, were investigated in the mouse liver. Oral treatment with EGb (100-1,000 mg/kg) and bilobalide (10-30 mg/kg) once a day for 4 days caused a dose-dependent elevation in GST activity. Ginkgolide A (30 mg/kg, for 4 days) also significantly elevated GST activity, whereas ginkgolide B and ginkgolide C at the same dose had no effects. EGb significantly increased the protein level of GST pi, and bilobalide significantly increased those of GST alpha and GST mu Moreover, EGb-treatment and bilobalide-treatment caused significant elevations in DT-diaphorase activity and in hepatic glutathione contents.     

Effects of phenol compounds, glutathione analogues and a diuretic drug on glutathione S-transferase, glutathione reductase and glutathione peroxidase from canine erythrocytes.

1. Phenol compounds (ellagic acid, quercetin and purpurogallin), glutathione analogues (S-hexylglutathione and S-octylglutathione) and a diuretic drug (ethacrynic acid) were compared for their inhibitory effects on glutathione S-transferase (GST), glutathione reductase (GR) and glutathione peroxidase (GSH-Px) in the canine erythrocytes. 2. All these compounds inhibited GST activity; quercetin was found to be the most potent inhibitor. 3. Ellagic acid, purpurogallin, quercetin and ethacrynic acid inhibited GR activity; S-hexylglutathione and S-octylglutathione had no effect on GR and GSH-Px activities. 4. Quercetin and purpurogallin inhibited GST non-competitively toward glutathione, whereas ellagic acid showed a competitive inhibition. Ellagic acid and purpurogallin inhibited GR non-competitively toward oxidized glutathione.     

New products in the hepoxilin pathway: isolation of 11-glutathionyl hepoxilin A3 through reaction of hepoxilin A3 with glutathione S-transferase

We describe herein the metabolism of hepoxilin A3 (HxA3) by glutathione S-transferase (GST) into a glutathione conjugate. The reaction was carried out with HxA3 (unlabelled and 14C-labelled) and glutathione (unlabelled and tritium labelled). When two isomers of HxA3 were reacted with GST, two products were formed. Only one product was formed when a single isomer of HxA3 was used. The isomeric product HxB3 was marginally active indicating considerable specificity in the reaction with GST. The products were characterized by retention of tritium from glutathione and by comparison of their migration on high performance liquid chromatography with authentic reference compounds. The products bear the structure, 11-glutathionyl HxA3.     

Purification and subunit-structural and immunological characterization of five glutathione S-transferases in human liver, and the acidic form as a hepatic tumor marker

Five glutathione S-transferase (GST, EC 2.5.1.18) forms were purified from human liver by S-hexylglutathione affinity chromatography followed by chromatofocusing, and their subunit structures and immunological relationships to rat liver glutathione S-transferase forms were investigated. They were tentatively named GSTs I, II, III, IV and V in order of decreasing apparent isoelectric points (pI) on chromatofocusing. Their subunit molecular weights assessed on SDS-polyacrylamide gel electrophoresis were 27 (Mr X 10(-3)), 27, 27.7,27 and 26, respectively, (26, 26, 27, 26, and 24.5 on the assumption of rat GST subunit Ya, Yb and Yc as 25, 26.5 and 28, respectively), indicating that all forms are composed of two subunits identical in size. However, it was suggested by gel-isoelectric focusing in the presence of urea that GSTs I and IV are different homodimers, consisting of Y1 and Y4 subunits, respectively, which are of identical Mr but different pI, while GST II is a heterodimer composed of Y1 and Y4 subunits. This was confirmed by subunit recombination after guanidine hydrochloride treatment. GST III seemed to be identical with GST-mu with regard to Mr and pI. GST V was immunologically identical with the placental GST-pi. On double immunodiffusion or Western blotting using specific antibodies to rat glutathione S-transferases, GST I, II and IV were related to rat GST 1-1 (ligandin), GST III(mu) to rat GST 4-4 (D), and GST V (pi) to rat GST 7-7 (P), respectively. GST V (pi) was increased in hepatic tumors.     

Characterization of Cytosolic Glutathione S-Transferase in Spruce Needles

Active glutathione S-transferase (GST) has been purified from needles of Norway spruce (Picea abies L. Karst.). Two isoforms of the enzyme which exhibit different physico-chemical and catalytic properties were separated by (NH₄)₂SO₄ fractionation, affinity chromatography on epoxy-activated 4% cross-linked beaded agarose, using glutathione as the ligand, ion-exchange chromatography, and isoelectric focusing. The isozymes have pI values of 5.5 (GST I) and 4.3 (GST II). Both GST isozymes are homodimeric proteins with subunit sizes of 26 kD (GST I), and 23 kD (GST II). The kinetic properties of the enzymes are described and compared with other plants GSTs. Only GST II is able to conjugate the pesticides fluorodifen and alachlor.     

Three-dimensional structure of Schistosoma japonicum glutathione S-transferase fused with a six-amino acid conserved neutralizing epitope of gp41 from HIV.

The 3-dimensional crystal structure of glutathione S-transferase (GST) of Schistosoma japonicum (Sj) fused with a conserved neutralizing epitope on gp41 (glycoprotein, 41 kDa) of human immunodeficiency virus type 1 (HIV-1) (Muster T et al., 1993, J Virol 67:6642-6647) was determined at 2.5 A resolution. The structure of the 3-3 isozyme rat GST of the mu gene class (Ji X, Zhang P, Armstrong RN, Gilliland GL, 1992, Biochemistry 31:10169-10184) was used as a molecular replacement model. The structure consists of a 4-stranded beta-sheet and 3 alpha-helices in domain 1 and 5 alpha-helices in domain 2. The space group of the Sj GST crystal is P4(3)2(1)2, with unit cell dimensions of a = b = 94.7 A, and c = 58.1 A. The crystal has 1 GST monomer per asymmetric unit, and 2 monomers that form an active dimer are related by crystallographic 2-fold symmetry. In the binding site, the ordered structure of reduced glutathione is observed. The gp41 peptide (Glu-Leu-Asp-Lys-Trp-Ala) fused to the C-terminus of Sj GST forms a loop stabilized by symmetry-related GSTs. The Sj GST structure is compared with previously determined GST structures of mammalian gene classes mu, alpha, and pi. Conserved amino acid residues among the 4 GSTs that are important for hydrophobic and hydrophilic interactions for dimer association and glutathione binding are discussed.     

Studies on the developmental expression of glutathione S-transferase isoenzymes in human heart and diaphragm

The developmental expression of the basic, near-neutral and acidic isoenzymes of glutathione S-transferase (RX:glutathione R-transferase, EC 2.5.1.18) has been studied in heart and diaphragm. Neither these enzymes nor the putative muscle-specific GST4 isoenzyme demonstrated any developmental trends in expression. In vitro hybridisation and SDS-discontinuous polyacrylamide gel electrophoresis were used to show that the GST4 isoenzyme is a homodimer composed of monomers that have a slightly larger molecular weight than the near-neutral isoenzyme. The sensitivity of GST4 to inhibitors also appeared similar to that of the GST1 2 isoenzyme. Immunodiffusion and immunoblotting techniques were used to show that the acidic enzyme in muscle is immunologically identical to that in other tissues.     

Structure-Activity Relationship of Methyl 4-Aminobenzoate Derivatives as Being Drug Candidate Targeting Glutathione Related Enzymes: in Vitro and in Silico Approaches

A thiol compound, glutathione, is essential for healthy cell defence against xenobiotics and oxidative stress. Glutathione reductase (GR) and glutathione S-transferase (GST) are two glutathione-related enzymes that function in the antioxidant and the detoxification systems. In this study, potential inhibitory effects of methyl 4-aminobenzoate derivatives on GR and GST were examined in vitro. GR and GST were isolated from human erythrocytes with 7.63 EU/mg protein and 5.66 EU/mg protein specific activity, respectively. It was found that compound 1 (methyl 4-amino-3-bromo-5-fluorobenzoate with K_i value of 0.325±0.012 μM) and compound 5 (methyl 4-amino-2-nitrobenzoate with K_i value of 92.41±22.26 μM) inhibited GR and GST stronger than other derivatives. Furthermore, a computer-aided method was used to predict the binding affinities of derivatives, ADME characteristics, and toxicities. Derivatives 4 (methyl 4-amino-2-bromobenzoate) and 6 (methyl 4-amino-2-chlorobenzoate) were estimated to have the lowest binding energies into GR and GST receptors, respectively according to results of in silico studies.     

水稻中一个谷胱甘肽转移酶基因的克隆、表达和酶活性分析

OsGSTL1是位于水稻3号染色体上的一个λ类谷胱甘肽转移酶基因,由8个内含子和9个外显子组成,编码一个由243个氨基酸组成的多肽链。将OsGSTL1克隆到酵母表达载体pYTV上,转化大肠杆菌,然后再转化酵母菌PEP4。Western印迹分析表明外源OsGSTL1基因在转基因酵母中表达,分析半乳糖诱导表达的酵母粗提液的谷胱甘肽转移酶活性表明:转基因酵母的谷胱甘肽转移酶较非转基因酵母和未诱导的酵母高,说明OsGSTL1在转基因酵母中受半乳糖的诱导表达,具有谷胱甘肽转移酶活性。     

GST/ AEP 融合蛋白原核表达载体的构建、表达及鉴定

目的：为进一步研究抗癫痫肽（And—epilepsy peptide,AEP）的抗痫机制及筛选其相关作用蛋白,进行GST／AEP融合蛋白原核表达载体的构建及融合蛋白的表达。方法：通过PCR基因扩增对AEP基因进行扩增,并将其克隆于谷胱甘肽-S-转移酶（GST）融合蛋白表达质粒pGEX-4T-1中,经酶切、序列鉴定分析后,用该重组质粒转化大肠杆菌B121（DE3）,经IPTG诱导获得表达,并采用Western Blot进行检测。结果：成功构建了AEP原核表达载体,并在大肠杆菌B121中获得表达。结论：成功构建了GST／AEP原核表达载体,并表达了GST／AEP融合蛋白。     

Characterization of the electrophile binding site and substrate binding mode of the 26-kDa glutathione S-transferase from Schistosoma japonicum

The 26-kDa glutathione S-transferase from Schistosoma japonicum (Sj26GST), a helminth worm that causes schistosomiasis, catalyzes the conjugation of glutathione with toxic secondary products of membrane lipid peroxidation. Crystal structures of Sj26GST in complex with glutathione sulfonate (Sj26GSTSLF), S-hexyl glutathione (Sj26GSTHEX), and S-2-iodobenzyl glutathione (Sj26GSTIBZ) allow characterization of the electrophile binding site (H site) of Sj26GST. The S-hexyl and S-2-iodobenzyl moieties of these product analogs bind in a pocket defined by side-chains from the beta1-alpha1 loop (Tyr7, Trp8, Ile10, Gly12, Leu13), helix alpha4 (Arg103, Tyr104, Ser107, Tyr111), and the C-terminal coil (Gln204, Gly205, Trp206, Gln207). Changes in the Ser107 and Gln204 dihedral angles make the H site more hydrophobic in the Sj26GSTHEX complex relative to the ligand-free structure. These structures, together with docking studies, indicate a possible binding mode of Sj26GST to its physiologic substrates 4-hydroxynon-2-enal (4HNE), trans-non-2-enal (NE), and ethacrynic acid (EA). In this binding mode, hydrogen bonds of Tyr111 and Gln207 to the carbonyl oxygen atoms of 4HNE, NE, and EA could orient the substrates and enhance their electrophilicity to promote conjugation with glutathione.     

Molecular characterization of the sigma class gutathione S-transferase from Chilo suppressalis and expression analysis upon bacterial and insecticidal challenge

The insect glutathione S-transferases (GSTs) play an important role in the detoxification of xenobiotic compounds and are related to insecticides resistance. The full-length cDNA sequences encoding the sigma class GST protein (CsGSTsigma) was cloned from the Asiatic rice borer, Chilo suppressalis (Walker), one of the most important rice pests in Asia. The comparison of amino acid sequences showed that CsGSTsigma is highly similar to the sigma GST isolated from the domestic silkworm, Bombyx mori (L.). A homology model of CsGSTsigma was constructed and its binding environment for GSH is identical to that in the equivalent site of sigma GST from the fruit fly, Drosophila melanogaster Meigen. The developmental changes of the relative mRNA expression levels of CsGSTsigma were examined in Asiatic rice borer, and the highest expression level of this gene is in adult followed by the third-instar larvae stage. Furthermore, one gram-positive bacterium and two chemical insecticides were found to be able to induce the increasing expression of CsGSTsigma, suggesting that CsGSTsigma might work as an antioxidant enzyme to against the negative effects caused by both pathogens and xenobiotics.