• 제목/요약/키워드: Glutathione S-transferases (GSTs)

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랫드에서 Butylated Hydroxyanisole에 의한 Glutathione S-Transferases 유도 및 Cyclophosphamide로 유발된 기형에 대한 예방효과 (Effects of Butylated Hydroxyanisole on Glutathione S-Transferases Activity and Cyclophosphamide-Induced Teratogenicity in Rats)

  • 강현구;이창희;이기창;이지은;김하정;최은경;윤영원;김윤배
    • Toxicological Research
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    • 제19권3호
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    • pp.181-187
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    • 2003
  • Effects of repeated treatment with butylated hydroxyanisole (BHA) on the induction of glutathione S-transferases (GSTs) and teratogenicity of cyclophosphamide were investigated in rats. Pregnant rats were orally treated with BHA (50 mg/kg) for 7 days, from days 6 to 12 of gestation, and intraperitoneally challenged with cyclophosphamide (15 mg/kg) 2 hr after the final treatment. On day 20 of gestation, the maternal and fetal abnormalities were examined. Separately, a part of rats was sacrificed for the assay of hepatic and placental GSTs activities on day 12 of gestation following 7-day treatment with BHA. Cyclophosphamide, administered on day 12 of gestation, induced 43.2% of fetal death and resorption, and 100% of malformations in live fetuses, in contrast to low fetal resorption (8.7%) and malformations (8%) in control group. The malformations include cranial defect and exencephaly (100%), micrognathia and tongue extrusion (100%), limb defects (40%), renal pelvic dilatation (39%), and cleft palate (15%). Interestingly, BHA induced GSTs activities by 62% and 46% over the control in liver and placenta, respectively, and remarkably reduced the fetal resorption (13.9%) and malformations, resulting in 62% of cranial defect and exencephaly, 68% of micrognathia and tongue extrusion, 29% of limb defects, and 14% of renal pelvic dilatation. Taken together, it is suggested that a long-term pretreatment with BHA could substantially prevent fetuses from abortion and malformations following intrauterine exposure to teratogens including cyclophosphamide by inducing phase II antioxidant enzymes such as GSTs.

Benzoazole계 화합물이 glutathione-S-transferases의 유도발현에 미치는 영향 (Expression of Rat Hepatic Glutathione-S-Transferases by Benzoazoles)

  • 서경원;김연정;김태완;김효정;조민경;김상건
    • Environmental Analysis Health and Toxicology
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    • 제13권3_4호
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    • pp.55-61
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    • 1998
  • Glutathione-S-transferases (GSTs) detoxify electrophilic xenobiotics and reactive metabolites. Recently benzene-fused heterocycles have been shown to increase the total amount of hepatic GSTs in rats. Primarily this study aimed to determine the induction of GSTs by benzoazoles (BAs) including benzoxazole (BX), 2-methylbenzoxazole (M-BX), 2,5-dimethyl benzoxazole (D-BX), benzothiazole (BT), aminobenzothiazole (A-BT) and 2-mercaptobenzothiazole (M-BT) in rats. Hepatic cytosol and poly(A)$^+$ mRNA were prepared from rats after oral administration of BX, BT, M-BX, D-BX, A-BT and M-BT for 5 consecutive days at doses of 1 mmol/kg. Western immunoblot and northern blot analysis were conducted with rabbit anti-GST Ya, Yb$_1$, Yb$_2$, Yc antibodies and cDNA probes containing = 500 bps in the specific coding regions of Ya, Yb$_1$, Yb$_2$, Yc$_1$, and Yc$_2$, respectively. All BAs increased the amount of enzymes and mRNA levels of GSTs. BT was the most effective inducer of GSTs among the compounds examined in this study. Although A-BT and M-BT, the derivatives of BT, induced GSTs, these chemicals had lesser effect on induction of GSTs than BT. The derivatives of BX also induced less GSTs than the parent compound and the addition of methyl group to the benzene ring of BX reduced the induction of GSTs. BAs had better inductive effects on the class $\alpha$(Ya, Yc) than class $\mu$ GSTs (Yb$_1$, Yb$_2$). BAs enhanced mRNA levels of GSTs in parallel with the protein levels. These results indicate that 1) most of BAs induced various isozymes of GSTs, 2) the induction of GSTs appears to be correlated with the chemical structure of the derivatives, and 3) the expression of GST by BAs is presumably under the transcriptional regulation.

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Comparative Investigation of Glutathione S-Transferases, Glyoxalase-I and Alliinase Activities in Different Vegetable Crops

  • Hossain, Md Daud;Rohman, Md Motiar;Fujita, Masayuki
    • Journal of Crop Science and Biotechnology
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    • 제10권1호
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    • pp.19-26
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    • 2007
  • Glutathione S-transferases(GSTs, EC 2.5.1.18), glyoxalase-I(EC 4.4.1.5) and alliin lyase(alliinase, EC 4.4.1.4) are important enzyme systems in plant bodies. The first two are mainly detoxifying enzymes that utilize glutathione(GSH) in the defense mechanism, and the last one is mainly involved in secondary metabolism and relevant to sulfur compounds derived from GSH. The activities of the three enzymes have been investigated in soluble extracts of vegetable crops, including pumpkin, cabbage, broccoli, radish, carrot, potato, sweet potato, mungbean, and onion. GST activities were detected in all of the vegetables, and the extract of onion bulb exhibited the highest specific activity(648 nmol/min/mgP). The putative GSTs of most of the vegetables were found to be induced by ethanol. The activities of GSTs in onion bulb were found to be markedly inhibited by S-hexyl glutathione and were also inhibited by S-butyl glutathione and S-propyl glutathione. The anti-CmGSTF1 antiserum recognized a thick band for putative onion GST. The estimated glyoxalase-I activity level was also high in onion bulb(4540 nmol/min/mgP), indicating that the thick band detected by Western blot analysis might result from partial recognition of glyoxalase-I by the antiserum. The specific activities for glyoxalase-I were moderate in radish and carrot, and the extracts of other vegetables had rather low levels of activities. The extract of onion also showed the highest specific activity level for alliinase(2069nmol pyruvate/mgP). The extracts of other vegetables also had alliinase activities, although the estimated values were much lower than that of onion.

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Quizalofop-Ethyl이 콩과 옥수수의 Glutathione-S-Transferases와 Carboxylesterase의 활성에 미치는 영향 (Effect of Quizalofop-Ethyl on Glutathione-S-Transferases and Carboxylesterase Activity of Soybean and Corn Plants)

  • 김희권;김명석;박인진;서용택
    • 한국환경농학회지
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    • 제16권4호
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    • pp.365-372
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    • 1997
  • 콩과 옥수수에서 glutatione-S-transferases와 carboxylesterase의 생화학적 특성과 quizalofopethyl 처리에 따른 식물체내 효소의 활성 변화를 조사한 결과는 다음과 같다. GSTS의 최적 pH는 8.2이고, Km값은 콩 $6.7{\times}10^{-3}M$, 옥수수 $2.5{\times}10^{-3}M$이었으며, Vmax는 콩 50nmole/mg/min, 옥수수 20nmole/mg/min이었다. Carboxylesterase의 최적 pH는 6.2${\sim}$7.0 범위이고, Km값은 콩 $4.2{\times}10^{-4}M$, 옥수수 $2.5{\times}10^{-4}M$이었으며, Vmax는 콩 33 nmole/mg/min, 옥수수 10nmole/mg/min이었다. 콩과 옥수수에 살포된 quizalofop-ethyl은 콩과 옥수수의 GSTs와 carboxy-lesterase의 활성을 감소시켰고, quizalofop-ethyl 80ppm을 처리했을때 콩은 10일이 경과후 회복되었지만, 옥수수는 3일이 경과후 고사하였다.

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Repression of γ-Glutamylcysteine Synthetase and Glutathione S-Transferases by Metformin, an Anti-diabetic Agent, in H4IIE Rat Hepatocytes

  • Bae, Eun-Ju;Cho, Min-Joo;Kim, Sang-Geon
    • Toxicological Research
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    • 제23권2호
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    • pp.127-133
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    • 2007
  • Metformin is a drug used to lower blood sugar levels in patients with type 2 diabetes via activation of adenosine monophosphate (AMP)-activated protein kinase (AMPK). The primary objective of this study was to investigate whether metformin at the pharmacologically effective concentrations affects the expressions of ${\gamma}$-glutamylcysteine synthetase and phase II antioxidant genes in the H4IIE cell. Treatment of the cells with either metformin or 5-aminoimidazole-4-carboxamide riboside (AICAR) abrogated tert-butylhydroxyquinone (t-BHQ) induction of ${\gamma}$-glutamylcysteine synthetase, a rate limiting enzyme of GSH synthesis. The ability of t-BHQ to induce glutathione S-transferases (GSTs), a major class of phase II detoxifying enzymes that playa critical role in protecting cells from oxidative stress or electrophiles, was also inhibited by the agents. Transcriptional gene repression by metformin was verified by the GSTA2 promoter luciferase assay. Moreover, either metformin or AICAR treatment significantly decreased t-BHQ-dependent induction of other GSTs (i.e., $GST{\mu}$ and $GST{\pi}$ forms). Taken together, our data indicate that metformin treatment may result in the repression of ${\gamma}$-glutamylcysteine synthetase and glutathione S-transferase genes possibly via AMPK activation.

Suppressive Effects of Coumarins on Pumpkin Seedling Growth and Glutathione S-Transferase Activity

  • Hossain, Md. Daud;Li, Jing;Guo, Shirong;Fujita, Masayuki
    • Journal of Crop Science and Biotechnology
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    • 제11권3호
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    • pp.187-192
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    • 2008
  • The effects of some coumarins(coumarin, 7-hydroxycoumarin, scopoletin and esculetin) were investigated on pumpkin(Cucurbita maxima Duch.) seedlings and on pumpkin glutathione S-transferases(GSTs). Coumarin and esculetin suppressed the growth of seedlings, especially the elongation of roots as well as hypocotyls. Among the compounds tested, only esculetin inhibited the activity of a particular pumpkin GST by 50%, CmGSTU3 toward 1-chloro-2, 4- dinitrobenzene(CDNB) and at a concentration of 22 ${\mu}M$. Both ethylacetae(EtOAc) and water fractions in pumpkin seedlings and different organs of one-month-old pumpkin plants contained esculetin or similar hydrophobic fluorescent substances as well as hydrophilic substances, which showed different degrees of inhibitory effects on CmGSTU3 activity.

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Molecular Cloning of the cDNA for Glutathione S-transferase Gene Homologue from the Mole Cricket, Gryllotalopa orientalis

  • Kim, Iksoo;Lee, Kwang-Sik;Kim, Jin-Won;Ryu, Kang-Sun;Sohn, Hung-Dae;Jin, Byung-Rae
    • 한국잠사학회:학술대회논문집
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    • 한국잠사학회 2003년도 제46회 춘계 학술연구 발표회
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    • pp.68-68
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    • 2003
  • The glutathione-S-transferases (GSTs) are enzymes responsible for the protection of cells from chemical toxicants and oxidative stress. In insects, GSTs have been particularly known to be implicated in the resistance to insecticides. In this study, a cDNA encoding the GST gene homologue was isolated from the cDNA library of the mole cricket, Gryllotalpa orientalis. (omitted)

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An Updated Pooled Analysis of Glutathione S-transferase Genotype Polymorphisms and Risk of Adult Gliomas

  • Yao, Lei;Ji, Guixiang;Gu, Aihua;Zhao, Peng;Liu, Ning
    • Asian Pacific Journal of Cancer Prevention
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    • 제13권1호
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    • pp.157-163
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    • 2012
  • Objective: Glutathione S-transferases (GSTs) are multifunctional enzymes that play a crucial role in the detoxification of both the endogenous products of oxidative stress and exogenous carcinogens. Recent studies investigating the association between genetic polymorphisms in GSTs and the risk of adult brain tumors have reported conflicting results. The rationale of this pooled analysis was to determine whether the presence of a GST variant increases adult glioma susceptibility by combining data from multiple studies. Methods: In our meta-analysis, 12 studies were identified by a search of the MEDLINE, HIGHWIRE, SCIENCEDIRECT and EMBASE databases. Of those 12, 11 evaluated GSTM1, nine evaluated GSTT1 and seven evaluated GSTP1 Ile105Val. Between-study heterogeneity was assessed using ${\chi}^2$-based Q statistic and the $I^2$ statistic. Crude odds ratios (ORs) with corresponding 95% confidence intervals (CIs) were used to estimate the association between GSTM1, GSTT1 and GSTP1 polymorphisms and the risk of adult gliomas. Results: The quantitative synthesis showed no significant evidence to indicate an association exists between the presence of a GSTM1, GSTT1 or GSTP1 Ile105Val haplotype polymorphism and the risk of adult gliomas (OR, 1.008, 1.246, 1.061 respectively; 95% CI, 0.901-1.129, 0.963-1.611, 0.653-1.724 respectively). Conclusions: Overall, this study did not suggest any strong relationship between GST variants or related enzyme polymorphisms and an increased risk of adult gliomas. Some caveats include absence of specific raw information on ethnic groups or smoking history on glioma cases in published articles; therefore, well-designed studies with a clear stratified analysis on potential confounding factors are needed to confirm these results.

Exploring the molecular characteristics, detoxification functions, and immune responses of two glutathione S-transferases in redlip mullet (Liza haematochelia)

  • Jeongeun Kim;Welivitiye Kankanamge Malithi Omeka;Qiang Wan;Jehee Lee
    • Fisheries and Aquatic Sciences
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    • 제27권5호
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    • pp.314-328
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    • 2024
  • The mechanism for the elimination of xenobiotics undergoes three different phases of reactions in organisms. Among these, glutathione S-transferases (GSTs) are classified as phase II detoxification enzymes, catalyzing the conjugation of electrophilic substrates to glutathione or reduced hydroperoxides. This study aimed to investigate the molecular characteristics, detoxification functions, and immune responses of GST omega (LhGSTO1) and kappa (LhGSTK1) in redlip mullet. The open reading frames of LhGSTO1 (720 bp) and LhGSTK1 (687 bp) encoded proteins of 239 and 228 amino acids, respectively. Sequence analysis revealed that LhGSTO1 and LhGSTK1 possessed GSH-binding sites in their N-terminal domains. Substrate-binding sites in the C-terminal domain were exclusively identified in LhGSTO1. In the tissue-specific transcription profile analysis, both LhGSTO1 and LhGSTK1 were ubiquitously expressed in all tissues of healthy mullets. Temporal expression analysis of LhGSTO1 and LhGSTK1 in the blood showed that their expression was significantly modulated by polyinosinic:polycytidylic (poly I:C), lipopolysaccharide (LPS), and Lactococcus garvieae. Different chemical and cellular assays were performed to assess the detoxification and cellular protective abilities of the two proteins. A substrate specificity test using the recombinant proteins revealed that both proteins possessed specific activity toward 1-chloro-2,4-dinitrobenzene (CDNB). In the disk diffusion assay, the smallest clearance zones were observed for LhGSTO1 and LGSTK1 against CdCl2. In the cell protection assay, both LhGSTO1 and LhGSTK1 showed significant Cd detoxification ability compared to the control. Collectively, these results demonstrate that GST omega and kappa are involved in host defense against immune stimulants and xenobiotics in redlip mullet.

Genetic mapping and sequence analysis of Phi class Glutathione S-transferases (BrGSTFs) candidates from Brassica rapa

  • Park, Tae-Ho;Jin, Mi-Na;Lee, Sang-Choon;Hong, Joon-Ki;Kim, Jung-Sun;Kim, Jin-A;Kwon, Soo-Jin;Zang, Yun-Xiang;Park, Young-Doo;Park, Beom-Seok
    • Journal of Plant Biotechnology
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    • 제35권4호
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    • pp.265-274
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    • 2008
  • Glutathione S-transferases (GSTs) are multifunctional proteins encoded by a large gene family divided into Phi, Tau, Theta, Zeta, Lambda and DHAR classes on the basis of sequence identity. The Phi(F) and Tau(U) classes are plant-specific and ubiquitous. Their roles have been defined as herbicide detoxification and responses to biotic and abiotic stresses. Fifty-two members of the GST super-family were identified in the Arabidopsis thaliana genome, 13 members of which belong to the Phi class of GSTs (AtGSTFs). Based on the sequence similarities of AtGSTFs, 11 BAC clones were identified from Brassica rapa. Seven unique sequences of ORFs designated the Phi class candidates of GST derived from B. rapa (BrGSTFs) were detected from these 11 BAC clones by blast search and sequence alignment. Some of BrGSTFs were present in the same BAC clones indicating that BrGSTFs could also be clustered as usual in plant. They were mapped on B. rapa linkage group 2, 3, 9 and 10 and their nucleotide and amino acid sequences were highly similar to those of AtGSTFs. In addition, in silico analysis of BrGSTFs using Korea Brassica Genome Project 24K oligochip and microarray database for cold, salt and drought stresses revealed 15 unigenes to be highly similar to AtGSTFs and six of these were identical to one of BrGSTFs identified in the BAC clones indicating their expression. The sequences of BrGSTFs and unigenes identified in this study will facilitate further studies to apply GST genes to medical and agriculture purposes.