• Biomolecules & Therapeutics
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• 제21권5호
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• pp.358-363
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• 2013

In the present study, we investigated the effect of intracellular glutathione (GSH) depletion in heart-derived H9c2 cells and its mechanism. L-buthionine-S,R-sulfoximine (BSO) induced the depletion of cellular GSH, and BSO-induced reactive oxygen species (ROS) production was inhibited by glutathione monoethyl ester (GME). Additionally, GME inhibited BSO-induced caspase-3 activation, annexin V-positive cells, and annexin V-negative/propidium iodide (PI)-positive cells. Treatment with rottlerin completely blocked BSO-induced cell death and ROS generation. BSO-induced GSH depletion caused a translocation of PKC-${\delta}$ from the cytosol to the membrane fraction, which was inhibited by treatment with GME. From these results, it is suggested that BSO-induced depletion of cellular GSH causes an activation of PKC-${\delta}$ and, subsequently, generation of ROS, thereby inducing H9c2 cell death.

• 한국응용약물학회:학술대회논문집
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• 한국응용약물학회 2007년도 Proceedings of The Convention
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• pp.38-46
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• 2007

• 대한의생명과학회지
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• 제7권4호
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• pp.173-179
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• 2001

To investigate the ability to decondense sperm head penetrated into cytoplasm of the oocytes and the relationship between this ability and the level of glutatione (GSH) in mouse oocyte at various maturing stages. The fertilizability of oocytes at various stages of maturation the decondensation of sperm nucleus and the formation of male pronucleus, were observed and the levels of GSH were measured in oocyte at same stages. Besides, the relation between fertilizability and level of GSH in oocyte cytoplasm treated with L-buthionine-S, R-sulfoxmine (L-BSO), the inbitor of biosynthesis of GSH, was determined. The decondensation of sperm head was not found in GV stage and L-BSO treated oocytes. In maturing oocytes (GVBD, MI), the decondensation was found, but the formation of male pronucleus was not. The levels of GSH in oocyte cytoplasm were measured; 2.2 pmol per oocyte in the ovulated and the matured in vitro each, 1.0 pmol in GV intact oocyte, 1.3 pmol in GVBD, and 1.5 pmol in MI phase oocyte. In L-BSO treated oocytes the levels of CSH were measured 0.08~o.09 pmol per oocyte, slightly lower than GV stage oocyte. In conclusion, GSH in oocyte is supposed to be synthesized and storaged in cytoplasm during maturation. The failure of decondensation in the cytoplasm of GV stage and L-BSO treated is suggested that GSH is an essential factor in decondensing the sperm head and that the a certain level of GSH, more than in GV oocyte cytoplasm, is required in decondensation.

• Environmental Analysis Health and Toxicology
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• 제20권1호
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• pp.87-95
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• 2005

Cadmium is well known as a toxic metal and has insulin mimicking effects in rat adipose tissue. This study was undertaken to investigate the effect of CdCl₂ on glucose transport and its mechanism in 3T3 - L1 adipocytes. CdCl₂ exhibits respectively 2.2 and 2.8 fold increases in the 2-deoxyglucose uptake when exposed to 10 and 25 μM of CdCl₂ for 12 hr. To investigate the stimulating mechanism of glucose transport induced by CdCl₂. Wortmannin and PD98059 were used respectively as PI3K inhibitor and MAPK inhibitor, which did not affect 2-DOG uptake. This results suggest that induced 2-deoxy-(l-3H)-D-glucose (2-DOG) uptake by CdCl₂ may not be concerned with the insulin signalling pathway. Whereas nifedipine, a calcium channel blocker inhibited the 2- DOG uptake stimulated by CdCl₂. In addition, we also measured the increased production of Reactive oxygen substances (ROS) and glutathione (GSH) level in 3T3-L1 adipocytes to investigate correlation between the glucose uptake and increased production of ROS with H2DCFDA. CdCl₂ increased production of ROS. Induced 2-DOG uptake and increased production of ROS by CdCl₂ were decreased by N-acetylcystein (NAC). And L-buthionine sulfoximine (BSO) a potent inhibitor of γ-GCS, decreased of 2-DOG uptake. Also NAC and BSO changed the cellular GSH level, but GSH/GSSG ratio remained unchanged at 10, 25 μM of CdCl₂.

• Molecules and Cells
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• 제19권1호
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• pp.131-136
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• 2005

The ETV6-NTRK3 gene fusion, first identified in the chromosomal translocation in congenital fibrosarcoma, encodes a chimeric protein tyrosine kinase with potent transforming activity. ETV6-NTRK3-dependent transformation involves the joint action of NTRK3 signaling pathways, and aberrant cell cycle progression resulting from activation of Mek1 and Akt. The level of glutathione (GSH) was found to be markedly increased in ETV6-NTRK3-transformed NIH3T3 cells. The activities of the two GSH biosynthetic enzymes as well as of glutathione peroxidase, together with their mRNAs, were also higher in the transformed cells. The transformed cells were able to grow in the presence of GSH-depleting agents, whereas the control cells were not. L-Buthionine-(S,R)-sulfoximine (BSO) inhibited activation of Mek1 and Akt in the transformed NIH3T3 cells. These observations imply that up-regulation of GSH biosynthesis plays a central role in ETV6-NTRK3-induced transformation.

• Journal of Preventive Medicine and Public Health
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• 제35권4호
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• pp.269-274
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• 2002

Balb/c 마우스의 복강내에 Abelson leukemia virus (A-MuLV)를 주입하여 발생시킨 대식세포주 RAW 264.7 세포의 배양조건에 납과 NAC및 BSO를 첨가하여 세포생존율과 NO 및 ATP 생성량의 변화를 관찰한 결과, 납을 처리한 기본배양조건에서 RAW 264.7 세포의 생존율은 각 농도에서 차이가 없었으며 NO의 생성량은 $0.5{\mu}M$의 납농도에서부터 용량 의존적으로 감소하였으나 ATP의 생성량은 각 농도군에서 차이가 없었다. NAC을 전처리하고 납을 처리한 배양조건에서의 NO 및 ATP의 생성량은 대조군과 차이가 없었다. BSO를 전처리하고 납을 처리한 배양조건에서의 NO의 생성량은 납만 처리했을 때와 달리 각각의 농도군에서 대조군과 차이가 있었다. ATP생성량은 역시 차이가 없었다. 이상의 결과에서 납의 농도가 증가함에 따라 ATP의 생성량은 변화가 없으면서 NO가 감소하는 것을 볼 때, 납에 의한 대식세포에서 NO생성의 억제기전은 수은 및 카드뮴 등과 같이 미토콘드리아에 영향을 미쳐 ATP생성이 억제됨으로 L-arginine-NO경로에서 ATP를 필요로 하는 iNOS가 작용을 못하여 NO 생성이 저하되는 기전과는 다른 기전이 있음을 보여준다. 또한 iNOS의 조효소인 세포내 GSH를 증가시키는 NAC을 전처리했을 때 NO의 생성량이 대조군 수준으로 회복되고 세포내 GSH를 감소시키는 BSO를 전처리했을 때는 오히려 NO의 생성량에 영향을 미치지 않는 납의 농도에서조차 NO 생성의 감소가 일어난 것으로 볼 때 GSH는 대식세포에서 NO생성을 저하시키는 납의 독성에 보호작용이 있음을 확인할 수 있었다.

• Archives of Pharmacal Research
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• 제27권4호
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• pp.454-459
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• 2004

The present study investigated the effects of gossypin, 3,3',4',5,7,8-hexahydroxyflavone 8-glucoside, on the toxicity induced by oxidative stress or $\beta$-amyloid ($A_{\beta}$) in primary cultured rat cortical cells. The antioxidant properties of gossypin were also evaluated by cell-free assays. Gossypin was found to inhibit the oxidative neuronal damage induced by xanthinelxanthine oxidase or by a glutathione depleting agent, D,L-buthionine (S,R)-sulfoximine. In addition, gossypin significantly attenuated the neurotoxicity induced by $A_{{\beta}(25-35)}$. Furthermore, gossypin dramatically inhibited lipid peroxidation initiated by $Fe^{2+}$ and ascorbic acid in rat brain homogenates. It also exhibited potent radical scavenging activity generated from 1 ,1-diphenyl-2-picrylhydrazyl. These results indicate that gossypin exerts neuroprotective effects in the cultured cortical cells by inhibiting oxidative stress- and $A_{\beta}$-induced toxicity, and that the antioxidant properties of gossypin may contribute to its neuroprotective actions.

• The Korean Journal of Physiology and Pharmacology
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• 제5권3호
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• pp.271-278
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• 2001

Oxidative stress and methylglyoxal (MG), a reactive dicarbonyl metabolites produced by enzymatic and non-enzymatic reaction of normal metabolism, induced aldose reductase (AR) expression in rat aortic smooth muscle cells (SMC). AR expression was induced in a time-dependent manner and reached at a maximum of 4.5-fold in 12 h of MG treatment. This effect of MG was completely abolished by cyclohemide and actinomycin D treatment suggesting AR was synthesized by de novo pathway. Pretreatment of the SMC with N-acetyl-L-cysteine significantly down-regulated the MG-induced AR mRNA. Furthermore, DL-Buthionine-(S,R)-sulfoximine, a reagent which depletes intracellular glutathione levels, increased the levels of MG-induced AR mRNA. These results indicated that MG induces AR mRNA by increasing the intracellular peroxide levels. Aminoguanidine, a scanvenger of dicarbonyl, significantly down-regulated the MG-induced AR mRNA. In addition, the inhibition of AR activities with statil, an AR inhibitor, enhanced the cytotoxic effect of MG on SMC under normal glucose, suggesting a protective role of AR against MG-induced cell damages. These results imply that the induction of AR by MG may contribute to an important cellular detoxification of reactive aldehyde compounds generated under oxidative stress in extrahepatic tissues.

• Journal of Yeungnam Medical Science
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• 제12권1호
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• pp.32-47
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• 1995

생쥐의 백혈병세포 L1210과 항암제에 대하여 내성이 유도된 L1210AdR, L1210VcR과 L1210Cis에서 glutathione의 농도와 glutathione의 합성 조절에 관여하는 ${\gamma}$-glutamylcysteine synthetase(GCS)와 ${\gamma}$-glutamyl transpeptidase (GGT), 세포 이물질을 축합하는데 촉매하는 glutathione S-transferase(GST)의 효소 활성도와 유전자의 발현 여부를 관찰하였다. 세포내 glutathione농도(${\mu}M/mg$ protein)는 L1210이 $0.41{\pm}0.003$, L1210AdR가 $0.73{\pm}0.006$, L1210VcR은 $1.16{\pm}0.060$, L1210Cis가 $2.19{\pm}0.282$으로 모세포에 비하여 내성세포에서 통계적으로 유의한 증가를 관찰하였다. Buthionine sulfoxamine(BSO)를 1 ${\mu}M$농도로 첨가하여 12시간 배양한 세포들에서의 glutathione농도는 L1210이 88%, L1210AdR가 85%, L1210VcR이 89%, 그리고 L1210Cis는 79%의 감소를 보였다. GCS의 활성도(nM/mg protein/min)는 L1210이 104인데 비하여 L1210AdR가 128, L1210VcR는 227, 및 L1210Cis는 212로 증가하였다. GGT의 활성도(nM/mg protein/min)는 L1210이 $2.15{\pm}0.531$이었고, L1210AdR은 $2.80{\pm}0.498$, L1210VcR은 $2.42{\pm}0.389$, 그리고 L1210Cis는 $2.98{\pm}0.623$으로 내성인 세포들에서 증가하였으며 L1210AdR과 L1210Cis에서 유의하였다. GST활성도(nM/mg protein/min)는 L1210이 $16.70{\pm}4.798$이었고, L1210AdR은 $14.51{\pm}3.402$, L1210VcR은 $19.52{\pm}4.255$, L1210Cis $17.77{\pm}4.495$로 L1210VcR과 L1210Cis가 약간의 증가를 보였으며, L1210AdR은 오히려 감소를 보였다. DNA의 slot blot에서 GCS, GGT, GST 유전자의 모세포와 내성세포간에 별다른 차이를 보이지 않았다. Northern hybridization에서 GCS는 약 4.5kb 크기의 band, GST-${\pi}$는 약 1.05kb 크기의 band를 보였으며 내성세포 모두에서 발현 증가가 관찰되었다. GGT의 경우 크기가 다른 6개의 band가 보였으며 특히 11.5 kb크기의 band에서 L1210AdR과 L1 210VcR의 발현이 증가하였으며, L1210VcR에서는 L1210과 다른 내성세포에서 보이는 1.95kb크기의 band가 보이지 않고 2.2kb 크기의 다른 band가 관찰되었다. 이상에서 L1210AdR과 L1210VcR의 내성에는 mdr1 유전자가 관여하고, L1210Cis의 내성에는 특히 glutathione이 중요하다. GCS, GGT 및 GST등의 활성도 및 유전자의 발현도 내성세포들에서 증가하였으며 이중 GCS는 내성세포내의 glutathione 합성에 가장 중요한 조절인자라 할 수 있다.

• BMB Reports
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• 제36권3호
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• pp.326-331
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• 2003

The fission yeast cells that contained the cloned glutathione synthetase (GS) gene showed 1.4-fold higher glutathione (GSB) content and 1.9-fold higher GS activity than the cells without the cloned GS gene. Interestingly, $\gamma$-glutamylcysteine synthetase activity increased 2.1-fold in the S. pombe cells that contained the cloned GS gene. The S. pombe cells that harbored the multi copy-number plasmid pRGS49 (containing the cloned GS gene) showed a higher level of survival on solid media with cadmium chloride (1 mM) or mercuric chloride ($10\;{\mu}M$) than the cells that harbored the YEp357R vector. The 506 bp upstream sequence from the translational initiation point and N-terminal8 amino acid-coding region were fused into the promoteriess $\beta$-galactosidase gene of the shuttle vector YEp367R to generate the fusion plasmid pUGS39. Synthesis of $\beta$-galactosidase from the fusion plasmid pUGS39 was significantly enhanced by cadmium chloride and NO-generating S-nitroso-N-acetylpenicillamine (SNAP) and sodium nitroprusside (SN). It was also induced by L-buthionine-(S,R)-sulfoximine, a specific inhibitor of $\gamma$-glutamylcysteine synthetase (GCS). We also found that the expression of the S. pombe GS gene is regulated by the Atf1-Spc1-Wis1 signal pathway.