• 대한한의학회지
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• 제20권3호
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• pp.77-86
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• 1999

This study was undertaken to evaluate the effect of Sunghyangchungi-san (SHCS) on the oxidant-induced contraction and lipid peroxidation in rabbit carotid artery. Vascular rings isolated from rabbit carotid artery were exposed to t-butyl hydroperoxide (t-BHP), an extrinsic oxidant, and the effect of SHCS on the changes of vascular tension and lipid peroxidation induced by t-BHP was determined. t- BHP induced a slowly developing and sustained contraction of the arterial rings. SHCS effectively relaxed the arterial rings that were pre-contracted by t-BHP. The responses to SHCS were partially dose-dependent at concentrations lower than 0.5 mg/ml. When SHCS was applied prior to the exposure to t-BHP, it inhibited the t-BHP-induced contraction as well. t- BHP increased lipid peroxidation in a dose-dependent manner. SHCS as well as well-known anti-oxidants GSH and DPPD reduced significantly lipid peroxidation induced by t-BHP. SHCS partially blocked the increase in $^{45}Ca$ uptake induced by t-BHP. In contrast to SHCS, anti-oxidants GSH and DPPD failed to inhibit significantly the t- BHP-induced contraction or $^{45}Ca$ uptake. From the above results, it is suggested that SHCS relaxed t-BHP-induced contraction of rabbit carotid artery independently of its anti-oxidant action, and inhibition of $Ca^{2+}$ influx may contribute to the underlying mechanism.

• 대한의생명과학회지
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• 제9권4호
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• pp.189-193
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• 2003

This study was undertaken to investigate the effect of baicalein, a major flavone component of Scutellaria balicalensis Georgi, on oxidant-induced cell injury in renal epithelial cells. Opossum kidney cells, an established proximal tubular epithelial cells, were used as a cell model of renal epithelial cells and t-butylhydroperoxide (tBHP) as an oxidant drug model. Cell viability was measured by MTT assay and lipid peroxidation was estimated by measuring the content of malondialdehyde, a product of lipid peroxidation. Exposure of cells to tBHP caused cell death and its effect was dose-dependent over concentration range of 0.1~1.0 mM. When cells were exposed to tBHP in the presence of various concentrations (0.1~10 $\mu$M) of baicalein, tBHP-induced cell death was prevented with a manner dependent of baicalein concentration. tBHP induced A TP depletion, which was significantly prevented by baicalein. Similarly, tBHP-induced DNA damage was prevented by baicalein. tBHP produced a marked increase in lipid peroxidation and its effect was completely inhibited by baicalein. These results indue ate that tBHP induces cell injury through a lipid peroxidation-dependent mechanism in renal epithelial cells, and baicalein prevented oxidant-induced cell injury via antioxidant action inhibiting lipid peroxidation. In addition, these results suggest that baicalein may be a candidate for development of drugs which are effective in preventing and treating renal diseases.

• The Korean Journal of Physiology and Pharmacology
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• 제1권4호
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• pp.367-376
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• 1997

The effect of an organic peroxide, t-butylhydroperoxide (t-BHP), on glutamate uptake was studied in synaptosomes prepared from cerebral cortex. t-BHP inhibited the $Na^+-dependent$ glutamate uptake with no change in the $Na^+-independent$ uptake. This effect of t-BHP was not altered by addition of $Ca^{2+}$ channel blockers (verapamil, diltiazem and nifedipine) or $PLA_2$ inhibitors (dibucaine, butacaine and quinacrine). However, the effect was prevented by iron chelators (deferoxamine and phenanthroline) and phenolic antioxidants (N,N'-diphenyl-phenylenediamine, butylated hydroxyanisole, and butylated hydroxytoluene). At low concentrations (＜1.0 mM), t-BHP inhibited glutamate uptake without altering lipid peroxidation. Moreover, a large increase in lipid peroxidation by $ascorbate/Fe^{2+}$ was not accompanied by an inhibition of glutamate uptake. The impairment of glutamate uptake by t-BHP was not intimately related to the change in $Na^+-K+-ATPase$ activity. These results suggest that inhibition of glutamate uptake by t-BHP is not totally mediated by peroxidation of membrane lipid, but is associated with direct interactions of glutamate transport proteins with t-BHP metabolites. The $Ca^{2+}$ influx through $Ca^{2+}$ channel or $PLA_2$ activation may not be involved in the t-BHP inhibition of glutamate transport.

• Journal of Acupuncture Research
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• 제18권4호
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• pp.143-151
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• 2001

Objective : This study was undertaken to determine whether Scutellaria balicalensis Georgi (SbG) extract exerts the protective effect against oxidant-induced alterations in organic cation transport in the renal proximal tubule. Methods : Organic cation transport was estimated by examining alterations in tetraethylammon - ium(TEA) uptake in rabbit renal cortical slices. The slices were treated with 0.2 mM tBHP for 60 min at $37^{\circ}C$. tBHP caused an inhibition in TEA uptake by renal cortical slices. Such an effect was accompanied by depressed Na+-K+-ATPase activity and ATP depletion. tBHP also induced a significant increase in LDH release. Results : SbG prevented tBHP-induced inhibition of TEA uptake in a dose-dependent manner at the concentration ranges of 0.05-0.1%. tBHP-induced inhibition of Na+-K+-ATPase activity and ATP depletion were significantly prevented by 0.05% SbG. tBHP-induced LDH release also was blocked by SbG. tBHP caused a significant increase in lipid peroxidation and its effect was prevented by SbG. Conclusion : These results suggest that SbG prevents oxidant-induced alterations in organic cation transport in rabbit renal cortical slices. Such protective effects of SbG may be attributed to inhibition of peroxidation of membrane lipid.

• 대한한방내과학회지
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• 제25권4호
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• pp.75-85
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• 2004

목적 : 黃芩(황금)과 黃芩(황금)의 주요 flavonoid 성분인 baicalein이 신장세뇨관 상피세포에서 산화제에 의한 apoptosis에 미치는 효과를 살펴보고자 한다. 방법 : 신장세뇨관 상피세포주인 opossum kidney (OK) 세포를 유기산화제인 t-butylhydroperoxide (tBHP)에 노출시켜 apoptosis를 일으킨 후 관련된 변화를 관찰하였다. 결과 : tBHP는 농도에 의존하여 apoptosis를 유발시켰는데, 이러한 효과는 黃芩(황금)과 baicalein에 의해 농도 의존적으로 방지 되었다. tBHP에 의한 OK 세포사는 항산화제인 Trolox와 N-acetylcysteine에 의해 방지 되었다. tBHP는 mitogen-activated protein kinase의 subfamily인 extracellular signal-regulated kinase (ERK)를 활성화시켰다. ERK 억제제인 PD98059와 U0126은 tBHP에 의한 세포 사망을 방지하였다. tBHP에 의한 ERK 활성화는 U0126에 의해 억제되었으나 黃芩(황금)과 baicalein에 의해서는 영향을 받지 않았다. 철착염제인 deferoxamine은 tBHP에 의한 세포 사망과 ERK 활성화를 방지하였다. tBHP에 의한 세포 사망은 casopase 억제제인 BOD-U-FMK와 zDEVD-FMK에 의해 방지되었다. 결론 : 黃芩(황금)은 산화제에 의한 세포 사망을 방지하는데, 이는 kinase 억제, 항산화제 역할 및 철착염제의 작용에 기인하지 않았다. 黃芩(황금)의 이러한 효과는 산화제에 의관 신부전 예방 및 치료제로 개발하는데 이용될 수 있는 가능성을 보였다.

• 한국자원식물학회지
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• 제18권3호
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• pp.470-478
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• 2005

본 연구의 목적은 양파추출물의 간보호 및 항산화 효과를 조사하기 위함이다. 간 손상을 유발시키는 t-BHP (1.5 mM) 존재하에 간세포를 0, 0.01, 0.05, 0.1 및 0.3 mg/ml의 다양한 농도의 양파추출물로 1시간 동안 일차배양하였다. t-BHP는 GOT와 LDH 활성 및 TBARS 농도를 증가시켰으며 MTT값은 감소시켰다. 0.05 mg/ml 농도의 양파추출물 첨가는 t-BHP에 의해 증가된 GOT 및 LDH 활성을 감소시켰으며 0.1 mg/ml 농도의 양파추출물은 t-BHP에 의해 감소된 MTT 값을 증가시켰다. 또한 0.01 mg/ml 농도의 양파추출물 첨가는 t-BHP에 의해 증가된 TBARS 농도를 감소시켜 양파추출물이 t-BHP에 의해 유발된 간손상과 지질과산화를 억제시켰다. t-BHP 처리는 간세포의 catalase, GSH-Px 및 GSH-Rd 활성을 현저히 감소시켰다. 그러나 0.1 mg/ml 농도의 양파추출물 첨가는 t-BHP에 의해 감소된 catalase GSH-Px 및 GSH-Rd 활성을 증가시켰으며 특히 catalase 활성은 t-BHP 무첨가군 수준까지 증가시켰다. 또한 hydroxyl radical을 생성하는 Fenton 시약의 존재하에 plasmid DNA를 양파추출물과 함께 배양한 결과 양파추출물은 농도 의존적으로 hydroxyl radical에 의해 유도된 single-strand 절단을 억제하였다. 이상과 같이 간세포 일차배양에서 양파추출물은 t-BHP에 의해 유발된 간독성, 간세포 생존율 감소, 지질과산화를 농도 의존적으로 억제시켰고 또한 t-BHP에 의해 억제된 GSH-Px, GSH-Rd 및 catalase의 활성을 증가시켰다. 이와 같이 양파추출물의 간보호 및 항산화 효과는 항산화 효소 특히 catalase의 활성 증가와 hydroxyl radical에 의해 유도된 산화억제 및 이에 따른 지질과산화 억제에 기인하는 것으로 사료된다.

• 대한한의진단학회지
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• 제17권3호
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• pp.275-286
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• 2013

In the present study, antioxidant activity and protective effect of extracts from Sambucus williamsii var. coreana stems (SWC) were evaluated on tert-butyl hydroperoxide (t-BHP) induced oxidative stress in human liver (Chang) cells. Antioxidant activities of the SWC extracts were determined by various radical scavenging activities, such as DPPH, ferric reducing antioxidant power (FRAP), 2,2'-azinobis-(3-ethybenzothiazoline-6-sulfonic acid) (ABTS) radical scavenging activity and oxygen radical absorbance capacity (ORAC) assay. SWC extracts showed strong antioxidant effect on various assay. To determine the hepatoprotective effects of SWC on t-BHP induced oxidative damage, cell viability was measured using MTT assay. Pretreatment of SWC extracts showed increasing cell viability, decreasing ROS and restoring mitochondria membrane potential on t-BHP induced oxidative stress in Chang cells. Our findings suggest that SWC extracts may be considered a potential agent for therapeutic protective effect from oxidative stress through its antioxidant activity.

• 한국자원식물학회:학술대회논문집
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• 한국자원식물학회 2005년도 춘계 학술발표대회
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• pp.52-60
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• 2005

본 연구의 목적은 양파추출물의 간보호 및 항산화 효과를 조사하기 위함이다. 간 손상을 유발시키는 t-BHP (1.5mM) 존재하에 간세포를 0, 0.01, 0.05, 0.1 및 0.3 mg/ml의 다양한 농도의 양파추출물로 1시간 동안 일차배양하였다. 간세포 독성과 생존율은 배양액의 GOT와 LDH 활성 및 MTT 값으로 결정하였고, 지질과산화는 TBARS 농도로 측정하였다. 항산화에 미치는 효과는 catalase, GSH-Px, GSH-Rd 활성 및 DNA strand breaking assay로 결정하였다. t-BHP는 GOT와 LDH 활성 및 TBARS 농도를 증가시켰으며 MTT값은 감소시켰다. 0.05 mg/ml 이상 농도의 양파추출물 첨가는 1.5 mM 농도의 t-BHP에 의해 증가된 GOT 및 LDH 활성을 감소시켰으며 0.01 mg/ml 이상 농도의 양파추출물은 t-BHP에 의해 감소된 MTT 값을 증가시켰다. 또한 0.01 mg/ml 이상 농도의 양파추출물 첨가는 t-BHP에 의해 증가된 TBARS 농도를 감소시켜 양파추출물이 t-BHP에 의해 유발된 간손상과 지질과산화를 억제시켰다. 1시간 동안 1.5 mM 농도의 t-BHP 처리는 간세포의 catalase, GSH-Px 및 GSH-Rd 활성을 현저히 감소시켰다. 그러나 0.01 mg/ml 이상 농도의 양파추출물 첨가는 t-BHP에 의해 감소된 catalase, GSH-Px 및 GSH-Rd 활성을 증가시켰으며 특히 catalase 활성은 t-BHP 무첨가군 수준까지 증가시켰다. 또한 hydroxyl radical을 생성하는 Fenton 시약의 존재하에 plasmid DNA를 양파추출물과 함께 배양하였을 때양파추출물은 농도 의존적으로 hydroxyl radical에 의해 유도된 single-strand 절단을 억제하였다. 이상과 같이 간세포 일차배양에서 양파추출물은 t-BHP에 의해 유발된 간독성, 간세포 생존율 감소, 지질과산화를 농도 의존적으로 억제시켰고 또한 t-BHP에 의해 억제된 GSH-Px, GSH-Rd 및 catalase의 활성을 증가시켰다. 이와 같이 양파추출물의 간보호 및 항산화 효과는 항산화 효소, 특히 catalase의 활성 증가와 hydroxyl radical에 의해 유도된 산화억제 및 이에 따른 지질과산화 억제에 기인하는 것으로 사료된다.

• The Korean Journal of Physiology and Pharmacology
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• 제2권5호
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• pp.601-609
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• 1998

The present study was undertaken to examine the role of phospholipase $A_2\;(PLA_2)$ in oxidant-induced inhibition of phosphate transport in primary cultured rabbit renal proximal tubule cells. Uptakes of phosphate and glucose were dose-dependently inhibited by an oxidant t-butylhydroperoxide (tBHP), and the significant inhibition appeared at 0.025 mM of tBHP, whereas tBHP-induced alterations in lipid peroxidation and cell viability were seen at 0.5 mM. tBHP stimulated arachidonic acid (AA) release in a dose-dependent fashion. A $PLA_2$ inhibitor mepacrine prevented tBHP-induced AA release, but it did not alter the inhibition of phosphate uptake and the decrease in cell viability induced by tBHP. tBHP-induced inhibition of phosphate transport was not affected by a PKC inhibitor, staurosporine. tBHP at 0.1 mM did not produce the inhibition of $Na^+-K^+-ATPase$ activity in microsomal fraction, although it significantly inhibited at 1.0 mM. These results suggest that tBHP can inhibit phosphate uptake through a mechanism independent of $PLA_2$ activation, irreversible cell injury, and lipid peroxidation in primary cultured rabbit renal proximal tubular cells.

• Journal of Acupuncture Research
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• 제21권3호
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• pp.1-12
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• 2004

Objective: This study was undertaken to evaluate the role of lipid peroxidation in oxidant-induced apoptosis and effect of JS on the apoptosis in opossum kidney (OK) cells, an established renal proximal tubular cells. Methods : Exposure of cells to 0.1mM tBHP for 2hr did not induce apoptosis, but subsequent incubation in normal culture medium for 18hr after tBHP treatment induced apoptotic cell death which is dependent of tBHP concentration. Results : JS decreased tBHP-induced apoptotic cell death in a dose-dependent fashion and at concentrations higher than 0.01 mg/ml completely prevented the apoptosis. tBHP-induced apoptosis was prevented by the lipid soluble antioxidant N,N'-diphenyl-p-phenylenediamine (DPPD) and water-soluble antioxidant Trolox. tBHP increased lipid peroxidation, which was inhibited by JS and DPPD. tBHP-induced DNA damage was prevented by JS and DPPD. Conclusion : These results indicate that tBHP induces apoptosis through a lipid peroxidation-dependent mechanism and JS exerts the protective effect against the apoptosis by preventing peroxidation of membrane lipids.