Detoxification of insecticides,allechemicals and heavy metals by glutathione S‐transferase SlGSTE1 in the gut of Spodoptera litura

Insect glutathione S‐transferases (GSTs) play important roles in detoxifying toxic compounds and eliminating oxidative stress caused by these compounds. In this study, detoxification activity of the epsilon GST SlGSTE1 in Spodoptera litura was analyzed for several insecticides and heavy metals. SlGSTE1 was significantly up‐regulated by chlorpyrifos and xanthotoxin in the midgut of S. litura. The recombinant SlGSTE1 had V_max (reaction rate of the enzyme saturated with the substrate) and K_m (michaelis constant and equals to the substrate concentration at half of the maximum reaction rate of the enzyme) values of 27.95 ± 0.88 μmol/min/mg and 0.87 ± 0.028 mmol/L for glutathione, respectively, and V_max and K_m values of 22.96 ± 0.78 μmol/min/mg and 0.83 ± 0.106 mmol/L for 1‐chloro‐2,4‐dinitrobenzene, respectively. In vitro enzyme indirect activity assay showed that the recombinant SlGSTE1 possessed high binding activities to the insecticides chlorpyrifos, deltamethrin, malathion, phoxim and dichloro‐diphenyl‐trichloroethane (DDT). SlGSTE1 showed higher binding activity to toxic heavy metals cadmium, chromium and lead than copper and zinc that are required for insect normal growth. Western blot analysis showed that SlGSTE1 was induced in the gut of larvae fed with chlorpyrifos or cadmium. SlGSTE1 also showed high peroxidase activity. All the results together indicate that SlGSTE1 may play an important role in the gut of S. litura to protect the insect from the toxic effects of these compounds and heavy metals.     

Evaluation of chalcones as inhibitors of glutathione S‐transferase

Glutathione S‐transferases (GSTs) are the superfamily of multifunctional detoxification isoenzymes and play an important role in cellular signaling. In the present study, potential inhibition effects of chalcones were tested against human GST. For this purpose, GST was purified from human erythrocytes with 5.381 EU?mg^?1 specific activity and 51.95% yield using a GSH–agarose affinity chromatographic method. The effects of chalcones on in vitro GST activity were tested at various concentrations. K_i constants of chalcones were found in the range of 7.76–41.93 μM. According to the results, 4‐fluorochalcone showed a better inhibitory effect compared with the other compounds. The inhibition mechanisms of 2'‐hydroxy‐4‐methoxychalcone and 4‐methoxychalcone were noncompetitive, whereas the inhibition mechanisms of 4'‐ hydroxychalcone, 4‐ fluorochalcone, and 4,4'‐ diflurochalcone were competitive.     

Identification and characterization of the zebrafish glutathione S‐transferase Pi‐1

Zebrafish has in recent years emerged as a popular vertebrate model for use in pharmacological and toxicological studies. While there have been sporadic studies on the zebrafish glutathione S‐transferases (GSTs), the zebrafish GST gene superfamily still awaits to be fully elucidated. We report here the identification of 15 zebrafish cytosolic GST genes in NCBI GenBank database and the expression, purification, and enzymatic characterization of the zebrafish cytosolic GST Pi‐1 (GSTP1). The cDNA encoding the zebrafish GSTP1 was cloned from a 3‐month‐old female zebrafish, expressed in Eschelichia coli host cells, and purified. Purified GSTP1 displayed glutathione‐conjugating activity toward 1‐chloro‐2,4‐dinitrobenzene as a representative substrate. The enzymatic characteristics of the zebrafish GSTP1, including pH‐dependency, effects of metal cations, and kinetic parameters, were studied. Moreover, the expression of zebrafish GSTP1 at different developmental stages during embryogenesis, throughout larval development, onto maturity was examined.     

Some metals inhibit the glutathione S‐transferase from Van Lake fish gills

Glutathione S‐transferases (GSTs) are the superfamily of multifunctional detoxification isoenzymes and play important role cellular signaling. The present article focuses on the role of Cd²⁺, Cu²⁺, Zn²⁺, and Ag⁺ in vitro inhibition of GST. For this purpose, GST was purified from Van Lake fish (Chalcalburnus tarichii Pallas) gills with 110.664 EU mg^?1 specific activity and 79.6% yield using GSH‐agarose affinity chromatographic method. The metal ions were tested at various concentrations on in vitro GST activity. IC₅₀ values were found for Cd⁺², Cu⁺², Zn⁺², Ag⁺ as 450.32, 320.25, 1510.13, and 16.43 μM, respectively. K _i constants were calculated as 197.05 ± 105.23, 333.10 ± 152.76, 1670.21 ± 665.43, and 0.433 ± 0.251 μM, respectively. Ag⁺ showed better inhibitory effect compared with the other metal ions. The inhibition mechanisms of Cd²⁺ and Cu²⁺ were non‐competitive, whereas Zn²⁺ and Ag⁺ were competitive. Co²⁺, Cr²⁺, Pb²⁺, and Fe³⁺ had no inhibitory activity on GST.     

Characterization of glutathione S‐transferase in the saturniid moth,Samia Cynthia pryeri (Lep.: Saturniidae)

An enzyme, which possesses glutathione S‐transferase (GST) activity, has been found in the midgut of the saturniid moth, Samia cynthia pryeri. The enzyme was initially purified into homogeneity by ammonium sulphate fractionation, affinity chromatography, and ion‐exchange chromatography. The resulting enzyme revealed a single band with a molecular mass of 23 kDa by sodium dodecyl sulfate polyacrylamide electrophoresis under reduced conditions. When tested with 1‐chloro‐2,4‐dinitrobenzene, a universal substrate of GST, the purified remnants had an optimum pH of 8.0 for enzymatic activity, and was fairly stable at pH 5–9 and at temperatures below 40°C. The enzyme was also responsive to 4‐hydroxynonenal, a cytotoxic lipid‐peroxidation product. The present GST was inhibited by organophosphorus and pyrethroid insecticides including fenitrothion, permethrin and deltamethrin.     

斜纹夜蛾核型多角体病毒与两种亚致死剂量的农药混用对斜纹夜蛾体内三种抗氧化酶活性的影响

在(28±1)℃下,以斜纹夜蛾Spodoptera litura为靶标昆虫,测定亚致死剂量的乐斯本、除尽与斜纹夜蛾核型多角体病毒（SlNPV）混用后对幼虫SOD(超氧化物歧化酶)、CAT(过氧化氢酶)和POD(过氧化物酶)活性的影响。结果表明,乐斯本和SlNPV混合悬液处理后斜纹夜蛾体内SOD活性显著高于清水、病毒和乐斯本单独处理组,12 h、24 h和36 h时分别为清水对照的1.18、1.35和1.25倍; 除尽和SlNPV混合悬液处理后12 h,其酶活性低于清水、SlNPV和除尽单独处理组。乐斯本和病毒混合悬液处理后,斜纹夜蛾体内CAT活性高于清水、病毒和乐斯本单独处理组,12 h、24 h和36 h时分别为清水对照组的2.79、1.09和1.53倍; 除尽和病毒的混合悬液处理后,其酶活性除12 h时明显高于清水对照外,其他时间均低于清水对照。在正常和中毒的斜纹夜蛾体内均未测出POD活性。可见,农药与病毒混合处理主要影响了CAT活性。     

Benzyl isothiocyanate attenuates the hydrogen peroxide‐induced interleukin‐13 expression through glutathione S‐transferase P induction in T lymphocytic leukemia cells

We investigated the effect of benzyl isothiocyanate (BITC) on the hydrogen peroxide‐induced gene expression of a T‐helper‐2 cytokine, interleukin (IL)‐13, in T lymphocytic leukemia Jurkat cells. The 24‐h pretreatment of BITC significantly inhibited the IL‐13 expression enhanced by hydrogen peroxide. Although the BITC pretreatment did not change the enhanced level of the phosphorylated c‐Jun N‐terminal kinase (JNK), it significantly inhibited the nuclear translocation of c‐Jun induced by hydrogen peroxide. BITC also increased the protein expression of glutathione S‐transferase (GST) isozymes, GSTP1/2, as well as the total GST activity. A GSTP1/2‐specific inhibitor, 6‐(7‐nitro‐2,1,3‐benzoxadiazol‐4‐ylthio)hexanol (NBDHEX), significantly counteracted the inhibitory effect of BITC on the hydrogen peroxide‐enhanced IL‐13 upregulation as well as the c‐Jun nuclear translocation. Taken together, these results suggested that BITC inhibits the oxidative stress‐mediated IL‐13 mRNA expression, possibly through interference of the c‐Jun phosphorylation by GSTP.     

Activity of glutathione S‐transferase and esterase enzymes in Helicoverpa armigera (Hübner) after exposure to entomopathogenic fungi

Helicoverpa armigera, a polyphagous insect of crops and vegetables, is acquiring resistance against many commercial insecticides. The present study shows variations in the activity of two detoxification enzymes, namely esterase and glutathione S‐transferase (GST), in H. armigera after exposure to different isolates of entomopathogenic fungi. After treatment of larvae with the different isolates (Day 0), samples were collected on three days (Days 3, 5 and 7) for enzyme analysis. High GST activity was found in samples of hemolymph, intestine and fat bodies of H. armigera following treatment with Beauveria bassiana (isolate Bb‐08), Metarhizium anisopliae (isolates Ma‐11.1 and Ma‐4.1), and Isaria fumosorosea (isolates If‐02 and If‐2.3). High esterase activity was recorded in samples of the intestine and fat bodies on various days after treatment, whereas increased esterase activity in hemolymph was noted only in samples from Day 5 after treatment with M. anisopliae (Ma‐4.1). The detection of high GST and esterase activity demonstrates the possibility of the development of resistance against these microbial control agents in H. armigera.     

Inhibition effects of pesticides on glutathione‐S‐transferase enzyme activity of Van Lake fish liver

Glutathione‐S‐transferases (GSTs) have a function in xenobiotic metabolism. They are a significant multifunctional family with a wide variety of catalytic activities. In the current study, we determined in vitro inhibition effects of 2,4‐dichlorophenoxyacetic acid dimethylamine salt (2,4‐D DMA), haloxyfop‐P‐methyl, glyphosate isopropylamine, dichlorvos, and λ‐cyhalothrin on purified GST. For this purpose, GST were purified from Van Lake fish (Chalcalburnus tarichii Pallas) liver with 29.25 EU mg^?1 specific activity and 10.76% yield using GSH–agarose affinity chromatographic method. The pesticides were tested at various concentrations on in vitro GST activity. K_i constants were calculated as 0.17 ± 0.01, 0.25 ± 0.05, 3.72 ± 0.32, 0.42 ± 0.06, and 0.025 ± 0.004 mM, for 2,4‐D DMA, haloxyfop‐P‐methyl, glyphosate isopropylamine, dichlorvos, and λ‐cyhalothrin, respectively. λ‐Cyhalothrin showed a better inhibitory effect compared to the other pesticides. The inhibition mechanisms of λ‐cyhalothrin were competitive, while the other pesticides were noncompetitive.     

Glutathione S‐transferase π complexes with and stimulates Na+,K+‐ATPase

Glutathione S‐transferase (GST) was found to complex with the Na⁺,K⁺‐ATPase as shown by binding assay using quartz crystal microbalance. The complexation was obstructed by the addition of antiserum to the α‐subunit of the Na⁺,K⁺‐ATPase, suggesting the specificity of complexation between GST and the Na⁺,K⁺‐ATPase. Co‐immunoprecipitation experiments, using the anti‐α‐subunit antiserum to precipitate the GST‐Na⁺,K⁺‐ATPase complex and then using antibodies specific to an isoform of GST to identify the co‐precipitated proteins, revealed that GSTπ was complexed with the Na⁺,K⁺‐ATPase. GST stimulated the Na⁺,K⁺‐ATPase activity up to 1.4‐fold. The level of stimulation exhibited a saturable dose–response relationship with the amount of GST added, although the level of stimulation varied depending on the content of GSTπ in the lots of GST received from supplier. The stimulation was also obtained when recombinant GSTπ was used, confirming the results. When GST was treated with reduced glutathione, GST activity was greatly stimulated, whereas the level of stimulation of the Na⁺,K⁺‐ATPase activity was similar to that when untreated GST was added. When GST was treated with H₂O₂, GST activity was greatly diminished while the stimulation of the Na⁺,K⁺‐ATPase activity was preserved. The results suggest that GSTπ complexes with the Na⁺,K⁺‐ATPase and stimulates the latter independent of its GST activity. Copyright © 2012 John Wiley & Sons, Ltd.     

N‐nitrosodimethylamine changes the expression of glutathione S‐transferase in the liver of male mice: The role of antioxidants

The present study investigated the protective effect of gossypol, selenium, zinc, or glutathione (GSH) against dimethylnitrosamine (DMN)‐induced hepatotoxicity in the livers of male mice. The expression and the activity of glutathione S‐transferase (GST), levels of GSH, and free radicals (malondialdehyde (MDA)), as well as the activity of glutathione reductase were determined after the treatment of mice for seven consecutive days with low or high doses of gossypol, selenium, zinc, or GSH. In experimental groups, DMN was administered as a single dose for 2 h after the repeated dose treatments of mice for seven consecutive days with each antioxidant. DMN reduced the expression and inhibited the activity of GST. However, repeated treatments of mice with low‐dose gossypol or high dose of either selenium or GSH followed by a single dose of DMN induced the expression and the activity of GST. In contrast, low‐dose treatments of mice with zinc, selenium, or GSH followed by a single dose of DMN reduced the expression and the activity of GST compared to either control or DMN‐treated groups. In addition, high‐dose treatment with either gossypol or selenium markedly induced the levels of GSH compared to either control or DMN‐treated groups. Interestingly, pretreatment of mice with high dose of either gossypol or selenium for seven consecutive days followed by a single dose of DMN decreased the levels of MDA, whereas DMN induced such levels. It is concluded that high dose of either gossypol or selenium is a stronger protector than zinc and GSH in ameliorating the toxic effects of DMN. © 2008 Wiley Periodicals, Inc. J Biochem Mol Toxicol 22:389–395, 2008; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/jbt.20255     

Molecular cloning and characterization of a sigma‐class glutathione S‐Transferase from the freshwater mussel Hyriopsis cumingii

A full‐length cDNA of a sigma‐like glutathione S‐transferase (GST) was identified from Hyriopsis cumingii (HcGSTS). The deduced amino acid sequence of HcGSTS was found to comprise 203 amino acid residues and to contain the distinct highly conserved glutathione binding site of N‐terminal and the relatively diverse substrate binding site of C‐terminal. Alignment analysis and phylogenetic relationship suggested that the HcGSTS is a sigma‐class GST. The mRNA of HcGSTS was constitutively expressed in all tested tissues, the strongest expression being in the hepatopancreas. The mRNA expression of HcGSTS was significantly up‐regulated (P < 0.05) in all assessed tissues after stimulation of the mussels with peptidoglycan (PGN) and LPS, the only exception being when the gills were challenged with PGN. The expression of HcGSTS mRNA in kidney and foot was also significantly up‐regulated (P < 0.05) by microcystin‐LR. Recombinant HcGSTS exhibited high activity towards the substrate 1‐chloro‐2,4‐dinitrobenzene. The optimal pH was 8.0 and temperature 35 °C.     

Structures of yeast glutathione‐S‐transferase Gtt2 reveal a new catalytic type of GST family

Glutathione‐S‐transferases (GSTs) are ubiquitous detoxification enzymes that catalyse the conjugation of electrophilic substrates to glutathione. Here, we present the crystal structures of Gtt2, a GST of Saccharomyces cerevisiae, in apo and two ligand‐bound forms, at 2.23 Å, 2.20 Å and 2.10 Å, respectively. Although Gtt2 has the overall structure of a GST, the absence of the classic catalytic essential residues—tyrosine, serine and cysteine—distinguishes it from all other cytosolic GSTs of known structure. Site‐directed mutagenesis in combination with activity assays showed that instead of the classic catalytic residues, a water molecule stabilized by Ser129 and His123 acts as the deprotonator of the glutathione sulphur atom. Furthermore, only glycine and alanine are allowed at the amino‐terminus of helix‐α1 because of stereo‐hindrance. Taken together, these results show that yeast Gtt2 is a novel atypical type of cytosolic GST.     

斜纹夜蛾3种SlitPBPs的组织表达模式分析

性信息素结合蛋白(pheromone binding proteins,PBPs)能够与性信息素分子结合,从而启动昆虫的寻偶及交配行为。本研究采用半定量RT-PCR技术分别对斜纹夜蛾3种性信息素结合蛋白SlitPBP1、SlitPBP2和SlitPBP3基因在雌、雄虫不同组织的基因表达模式进行了比较分析。组织表达模式结果表明,SlitPBP1基因只在雌、雄虫触角和雌虫前足中表达而在其他组织中无表达;SlitPBP2基因在雌虫的触角、喙、前足、中足、后足、翅膀和雄虫的触角、喙、前足、翅膀中均有表达,且在同一部位,SlitPBP2基因在雌虫的表达量均高于雄虫相应部位的表达量;除雌、雄虫的胸部外,SlitPBP3在雌、雄虫的触角、喙、前足、中足、后足、腹部和翅膀中均有较高水平的表达。可见,SlitPBP1、SlitPBP2和SlitPBP3基因在斜纹夜蛾不同组织的表达模式各不相同。本研究结果可为深入研究不同SlitPBPs蛋白在斜纹夜蛾生长发育过程中的不同生理功能提供科学参考。     

Expression,purification, and characterization of pro‐phenoloxidase‐activating serine protease from Spodoptera litura

One of the important trigger molecules for innate immunity is a serine protease that activates zymogen phenol oxidase (PPO). Central to wound healing response is the activation of phenol oxidase zymogen. Molecular characterization of phenol oxidase has been recently reported by us. Here, we report isolation, cloning, expression, and purification of prophenol oxidase activating enzyme 1 (slppae1) from polyphagous pest, Spodoptera litura. SLPPAE1 is induced within 6 h of physical injury. The structural features of the mature polypeptide are reminiscent of other lepidopteran PPAE in having a signal peptide, propeptide, and catalytically active polypeptide. The cDNA has been expressed in Sf21 cells using baculovirus expression vector. Fractionation of expressing Sf21 cells revealed its expression in the membranes. The recombinant protein was solubilized from membranes and purified by Ni‐NTA affinity chromatography. The purified enzyme is catalytically active on chromogenic substrate, activates recombinantly expressed prophenol oxidase (PPO) of S. litura, and is sensitive to inhibition by aprotenin. N‐terminal sequencing of processed phenol oxidase revealed 11 kDa propeptide instead of in‐silico predicted 6 kDa polypeptide. © 2009 Wiley Periodicals, Inc.     

Purification of fat body glutathione S‐transferase from the desert locust Schistocerca gregaria: investigation of flavonoid inhibitory effects on enzyme activity

Focus on the development of botanical insecticides such as polyphenols may represent an alternative method to chemical control. In the present study, total glutathione concentration and its related antioxidant enzymes in foregut, midgut, hindgut and fat body homogenates of the desert locust Schistocerca gregaria are examined. Glutathione S‐transferase (GST) activity exhibits a significantly higher value in fat bodies compared with other tissues. A simple and reproducible procedure for the purification of S. gregaria fat body GST is established and the purified enzyme is shown to be homogenous. The purified GST displays a typical Michaelis behaviour with respect to its substrates. Characterization of the GST, including optimum pH, substrate specificity and inhibitor effects, is carried out. The ability of some flavonoids to inhibit S. gregaria fat body GST activity is examined. High‐performance liquid chromatography analysis indicates that the major components in Glycyrrhiza glabra roots are 18α‐glycyrrhetinic acid, quercetin and rutin, and the major components in Hibiscus sabdariffa calyx are cyanidin 3‐O‐glucoside chloride and delphinidin. Quercetin and delphinidin chloride exhibit strong GST inhibition and the inhibition type is determined for both. Rutin shows a smaller inhibitory effect, whereas 18α‐glycyrrhetinic acid and cyanidin have no effect. Inhibition of S. gregaria fat body GST activity would be expected to prevent, or at least delay, the development of resistance to chemical pesticides. Among the examined levels of the antioxidant enzymes, total glutathione concentration and its related enzymes in foregut, midgut, hindgut and fat body crude homogenates of S. gregaria GST activity exhibit a significantly higher value in fat bodies compared with other tissues. Some flavonoids that are detected in H. sabdariffa calyx and G. glabra root extracts are the most effective inhibitors of the purified S. gregaria fat body GST activity. Inhibition of S. gregaria fat body GST activity by quercetin and delphinidin (major compounds detected by HPLC) would be expected to prevent, or at least delay, the development of resistance to chemical pesticides.     

Microarray expression profiling of Spodoptera litura in response to oxidative stress

To examine the expression profile of oxidative stress responsive genes in Spodoptera litura, we constructed a cDNA library from S. litura injected with hydrogen peroxide (H(2)O(2)). Using a microarray chip composed of 2,964 cDNAs, we screened gene expression at 1, 3, 5, 7, and 9 h post H(2)O(2) injection. Data were clustered into 15 groups of genes that behave similarly across each time course. Seventy-three genes were identified as being at least twofold up- or downregulated after treatment with H(2)O(2) in S. litura. We constructed expressed sequence tags (ESTs) for genes that changed at least twofold after treatment with H(2)O(2) . The functional classification of these ESTs based on Gene Ontology showed that the ESTs are rich in genes involved in oxidoreductase activity (5.7%), defense (14.3%), cellular process (22.9%), and development (17.1%).