• Korean Journal of Food Science and Technology
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• v.30 no.3
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• pp.688-692
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• 1998

To detect naturally occuring antimutagenic substances from wild mushrooms in Korea, the screening for the antimutagenic compounds containing in ethanol and water extracts of 13 wild mushrooms toward benzo(a) pyrene (B(a)P) and $N-methyl-N'-nitro-N-nitrosoguanidine\;(MNNG)$ using the Ames assay system with Salmonella typhimurium TA98 and TA100 were studied. The ethanol extracts of Polyporus dispansus, Cantharellus infundibuliformis, Agaricus subrutilescens, Daedalea dickinsii, Panaeolus papilionaceus and Hydnum repandum showed significantly antimutagenic activity toward B(a)P. The water extracts of Hydnum repandum showed the strong antimutagenic activity toward B(a)P in S. typhimurium TA100, however the water extracts of the mushrooms did not show antimutagenic activity. Whereas 5 out of 13 samples exhibited antimutagenicity toward a direct mutagen of MNNG. The water extracts from mushrooms also not showed antimutagenic activity. The antimutagenic effect increased with increasing concentraion of the ethanol extracts from Polyporus dispansus.

• Journal of Ginseng Research
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• v.39 no.2
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• pp.162-168
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• 2015

Background: Although the aerial parts of hydroponic Panax ginseng are reported to contain higher contents of total ginsenosides than those of roots, the isolation and identification of active metabolites from the aerial parts of hydroponic P. ginseng have not been carried out so far. Methods: The aerial parts of hydroponic P. ginseng were applied on repeated silica gel and octadecylsilane columns to yield four glycosyl glycerides (Compounds 1-4), which were identified based on nuclear magnetic resonance, infrared, fast atom bombardment mass spectrometry, and gas chromatography/mass spectrometry data. Compounds 1-4 were evaluated for inhibition activity on NO production in lipopolysaccharide (LPS)-stimulated RAW264.7 cells. Results and conclusion: The glycosyl glycerides were identified to be (2S)-1-O-7(Z),10(Z),13(Z)-hexadecatrienoyl-3-O-${\beta}$-$\small{D}$-galactopyranosyl-sn-glycerol (1), (2S)-1-O-linolenoyl-3-O-${\beta}$-$\small{D}$-galactopyranosyl-sn-glycerol (2), (2S)-1-O-linolenoyl-2-O-linolenoyl-3-O-${\beta}$-$\small{D}$-galactopyranosyl-sn-glycerol (3), and 2(S)-1-O-linoleoyl-2-O-linoleoyl-3-O-${\beta}$-$\small{D}$-galactopyranosyl-sn-glycerol (4). Compounds 1 and 2 showed moderate inhibition activity on NO production in LPS-stimulated RAW264.7 cells [half maximal inhibitory concentration ($IC_{50}$): $63.8{\pm}6.4{\mu}M$ and $59.4{\pm}6.8{\mu}M$, respectively] without cytotoxicity at concentrations < $100{\mu}M$, whereas Compounds 3 and 4 showed good inhibition effect ($IC_{50}$: $7.7{\pm}0.6{\mu}M$ and $8.0{\pm}0.9{\mu}M$, respectively) without cytotoxicity at concentrations < $20{\mu}M$. All isolated compounds showed reduced messenger RNA (mRNA) expression of interleukin-$1{\beta}$ (IL-$1{\beta}$), IL-6, and tumor necrosis factor-${\alpha}$ in LPS-induced macrophage cells with strong inhibition of mRNA activity observed for Compounds 3 and 4.

• Journal of Acupuncture Research
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• v.31 no.1
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• pp.111-119
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• 2014

Objectives : I investigated whether Bee Venom can synergistically strengthen the cytotoxic effects of NK-92 cells, enhancing the inhibition of the growth of Lung Cancer Cells including A549 and NCI-H460 through induction of death receptor dependent extrinsic apoptosis and NO generation in the Nitro-oxide pathway. Methods : Bee Venom inhibited cell proliferation of A549 or NCI-H460 Human Lung Cancer Cells as well as NK-92 Cells. Moreover, when they were co-punctured with NK cells and concomitantly treated by 3 ${\mu}g/ml$ of Bee Venom, more influence was exerted on inhibition of proliferation of A549 or NCI-H460 Human Lung Cancer Cells than BV or NK cell co-culture alone. Results : The expression of Fas, TNFR2, DR3, DR6 in A549 Lung Cancer Cells was significantly increased by co-culture of NK-92 cells and treatment of 3 ${\mu}g/ml$ of Bee Venom, compared to co-culture of NK-92 cells alone, whereas the expression of Fas, TNFR2, DR6 in NCI-H460 Lung Cancer Cells was significantly increased by co-culture of NK-92 cells, representing no synergistic effects in the co-culture of NK-92 cell and concomitant treatment of 3 ${\mu}g/ml$ of Bee Venom. Coincidently, caspase-8, a expression of pro-apoptotic proteins in the extrinsic apoptosis pathway demonstrated same results as the above. Meanwhile, In NO generation, there is little change of NO generation in co-culture of NK-92 cells with A549 cells as well as the co-culture of NK-92 cell with them and concomitant treatment of 3 ${\mu}g/ml$ of Bee Venom, whereas increase of NO generation was shown in co-culture of NK-92 cells with NCI-H460 cells as well as the co-culture of NK-92 cell with them and concomitant treatment of 3 ${\mu}g/ml$ of Bee Venom, although synergistic effects by Bee Venom was not found. Conclusions : These present data provide that Bee Venom could be useful candidate compounds to enhance lung cancer growth inhibiting ability of NK-92 cells through DR expression and the related apoptosis.

• Journal of the Korean Society of Food Science and Nutrition
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• v.30 no.6
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• pp.1164-1170
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• 2001

Antimutagenic and antimicrobial effects of cucumber extracts were investigated. Antimutagenic effects of cucumber extract against aflatoxin (AFB$_1$) as indirect mutagen and N-methyl-N'-nitro-N-nitrcsoguanidine (MNNG) as direct mutagen using the Ames assay system with Salmonella typhimurium TA100 were studied. 1.25~5.0% of methanol extract exhibited 11 ~ 17% of antimutagenity against AFB$_1$ and 46~85% of antimutagenity against MNNG. Among fractions of methanol extract, hexane fraction exhibited the highest antimutagenic effect against AFB$_1$ (89%) and butanol fraction exhibited the highest antimutagenic effect against MNNG (95%). Antimicrobial effects of cucumber extract were investigated on the eleven microorganisms. Methanol extract showed anitimicrobial effect on eight microorganisms. Among these tested microorganisms, Klebsiella pnemonia KCTC 2208, pseudomonas aeruginosa KCTC 2004 were the most sensitively inhibited with 13 mm clear zone on holo test. Hexane fraction showed anitimicrobial effect only on Vibrio parahaemolyticus KCTC 2471. Chloroform and ethyl acetate fractions showed a weak effect. V. parahaemolyticus showed the lowest minium inhibitory concentration (MIC) (500 ppm) among eleven tested microorganisms by methanol extract. Sterilization effect of 1% methanol extract on P. aeruginosa incubation is 10 times stronger than 0.5% methanol extract. It estimated to need 26 min for the sterilization of 90% P. aeruginosa cell counts by 1% methanol extract but 250 min by 0.5% methanol extract.

• Korean Journal of Agricultural Science
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• v.28 no.1
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• pp.33-40
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• 2001

The authors attempted to derive a comprehensive quantitative structure-toxicity relationships (QSTRs) between various physicochemical parameters of phenyl substituents in fungicidal phenylthionocarbamate derivatives and toxicity evaluated using TOPKAT calculation. On the basis of this approach we made preditions for toxicity values for not yet tested substances with respect to these systems. The results suggested that the optimal values, $(B_2)_{opt.}=1.54_{\AA}$(Ames mutagenicity), $(R)_{opt.}=0.16$ (car-cinogenicity of male rat), $(\pi)_{opt.)=0.16$ (carcinogenicity of male mouse), $({\varepsilon}LOMO)_{opt}=-0.52e.v.$ ($LD_{50}$ of rat oral), $(B_3){opt.}=1.54_{\AA}$(chronic LOAEU), $(logP)_{opt.}=4.25$ ($LC_{50}$ of Fathead minnow) and $({\sigma})_{opt}=-0.68$ ($EC_{50}$ of Daphnia magna) of phenyl substituents were strongly correlated with the acute and chronic toxicities.

• Journal of Ginseng Research
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• v.35 no.2
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• pp.176-190
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• 2011

There seems to be some controversy about the effect of total ginseng saponin (TGS) on the secretion of catecholamines (CA) from the adrenal gland. Therefore, the present study aimed to determine whether TGS can affect the CA release in the perfused model of the adrenal medulla isolated from spontaneously hypertensive rats (SHRs). TGS (15-150 ${\mu}g/mL$), perfused into an adrenal vein for 90 min, inhibited the CA secretory responses evoked by acetylcholine (ACh, 5.32 mM) and high $K^+$ (56 mM, a direct membrane depolarizer) in a dose- and time-dependent fashion. TGS (50 ${\mu}g/mL$) also time-dependently inhibited the CA secretion evoked by 1.1-dimethyl-4 -phenyl piperazinium iodide (DMPP; 100 ${\mu}M$, a selective neuronal nicotinic receptor agonist) and McN-A-343 (100 ${\mu}M$, a selective muscarinic M1 receptor agonist). TGS itself did not affect basal CA secretion (data not shown). Also, in the presence of TGS (50 ${\mu}g/mL$), the secretory responses of CA evoked by veratridine (a selective $Na^+$ channel activator (50 ${\mu}M$), Bay-K-8644 (an L-type dihydropyridine $Ca^{2+}$ channel activator, 10 ${\mu}M$), and cyclopiazonic acid (a cytoplasmic $Ca^{2+}$-ATPase inhibitor, 10 ${\mu}M$) were significantly reduced, respectively. Interestingly, in the simultaneous presence of TGS (50 ${\mu}g/mL$) and N${\omega}$-nitro-L-arginine methyl ester hydrochloride [an inhibitor of nitric oxide (NO) synthase, 30 ${\mu}M$], the inhibitory responses of TGS on the CA secretion evoked by ACh, high $K^+$, DMPP, McN-A-343, Bay-K-8644, cyclopiazonic acid, and veratridine were considerably recovered to the extent of the corresponding control secretion compared with the inhibitory effect of TGS-treatment alone. Practically, the level of NO released from adrenal medulla after the treatment of TGS (150 ${\mu}g/mL$) was greatly elevated compared to the corresponding basal released level. Taken together, these results demonstrate that TGS inhibits the CA secretory responses evoked by stimulation of cholinergic (both muscarinic and nicotinic) receptors as well as by direct membrane-depolarization from the isolated perfused adrenal medulla of the SHRs. It seems that this inhibitory effect of TGS is mediated by inhibiting both the influx of $Ca^{2+}$ and Na+ into the adrenomedullary chromaffin cells and also by suppressing the release of $Ca^{2+}$ from the cytoplasmic calcium store, at least partly through the increased NO production due to the activation of nitric oxide synthase, which is relevant to neuronal nicotinic receptor blockade, without the enhancement effect on the CA release. Based on these effects, it is also thought that there are some species differences in the adrenomedullary CA secretion between the rabbit and SHR.

• Journal of Life Science
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• v.17 no.10
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• pp.1368-1373
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• 2007

Inhibitory effects of several solvent fractions from soybean on mutagenicity using Salmonella typhimurium TA 100 in Ames test and growth of human cancer cells (AGS gastric adenocarcinoma, Hep 3B hepatocellular cancinoma and HT-29 colon cancer cells) were studied. The treatment of dichloromethane and ethylacetate fractions (2.5 mg/assay) extracted from soybean to Ames test system inhibited aflatoxin $B_1\;(AFB_1)$ induced mutagenicity by 83%, respectively, and showed a higher antimutagenic effect than other solvent fractions. In case of N-methyl-N#-nitro-N-nitrosoguamidine (MNNG) induced mutagenicity, the ethylacetate fraction showed the highest inhibitory effect (by 67%) among solvent extracts, although the inhibitory effect was not stronger compared with $AFB_1$ induced mutagenicity. In sulforhodamine B (SRB) assay, the treatment of ethylacetate fraction (2 mg/assay) significantly inhibited the growth of AGS, Hep 3B and HT-29 cancer cells by 66%, 73% and 77%, respectively, followed with the intermediate and dichloromethane fractions. These results indicated that soybean fraction extracted with ethylacetate had higher inhibitory effects on $AFB_1$ and MNNG in Ames test and growth inhibition activity to human cancer cells was appeared, suggesting that soybean fraction extracted with ethylacetate may contain the biologically active compounds.

• The Korean Journal of Physiology
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• v.30 no.1
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• pp.33-41
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• 1996

The present study was aimed to investigate the role of endothelium-derived nitric oxide (NO) in the control of renin release and to examine if NO is implicated in the development of two-kidney, one clip (2K1C) hypertension. Male Sprague-Dawley rats $(150{\sim}200\; g)$ were constricted at the left renal artery. They were then supplemented with $N^{G}-nitro-L-arginine\;methyl\;ester\;(L-NAME,\; 5mg/100\;mL)$ or with L-arginine hydrochloride (400 mg/100 mL) in the drinking water. The control group was supplied with normal tap water. The sham-clipped rats were operated as in 2K1C rats except for that no clip was made. The kidneys were taken to examine in vitro release of renin at days 7 and 14 following clipping the renal artery. Northern blot analysis was also done to assess the expression of renin gene in the kidney. In sham-clipped rats, L-NAME caused a sustained increase of the blood pressure, whereas L-arginine was without effect. Neither L-NAME nor L-arginine-supplementation significantly affected the development of hypertension in 2K1C rats. Plasma renin concentration (PRC) measured on day 28 did not significantly differ among the L-NAME, L-arginine and control groups either in 2K1C or in sham-clipped rats. Renin contents (RRC) in the clipped kidney were increased, while those in the contralateral kidney were decreased. The release of renin in vitro from cortical slices was also enhanced in the clipped kidney, whereas it was attenuated in the contralateral. Comparing the RRC and in vitro release, the latter was more rapidly decreased than the former in the contralateral kidney. The renin mRNA levels in the contralateral kidney were almost at their nadir at days 7 and 14 in 2K1C rats. It is suggested that NO does not affect the development of 2K1C hypertension in which the renin-angiotensin system has been activated. The data also confirm that RRC and renin gene expression are increased in the clipped kidney and suppressed in the contralateral kidney in 2K1C rats.

• Journal of Life Science
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• v.15 no.4 s.71
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• pp.561-565
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• 2005

In this study, we report antigenotoxicity and cytotoxicity of Korean Radish extract (RJ) and its seed protein (RSP) to non-tumoral 3T3 cell line. In the case of antigenotoxicity, each cell line was treated with $10{\mu}l\;of\;100{\mu}g/ml$ N-methyl-N'-nitro-N-nitrosoguanidine(MNNG) before adding $10{\mu}l$of 10mg/ml RJ and 1mg/ml RSP to the cell. Both RJ and RS were shown $30\%\;and\;43\%$ of antigenotoxicity respectively. As a result of quantitative analysis for lactose dehydrogenase (LDH), no cytotoxic activity against 3T3 cells was detected when the cells were treated with various concentrations of RJ and RSP, RSP showed $85\%$ of antimicrobial activity against cosmetic sample (C1) assumed as contaminated by bacteria. RSP and RJ showed $79\%\;and\;76\%$ of antimicrobial activities repectively on another cosmetic sample (C4, contaminated by fungi) were treated with 10mg/ml RJ and 1 mg/ml RSP

• Environmental Mutagens and Carcinogens
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• v.26 no.4
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• pp.125-132
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• 2006

Previous studies showed that epigallocatechin gallate(EGCG) have substantial effects of suppressing the N-methyl-N'-nitro-N-nitrosoguanidine(MNNG)-initiated cell transformation process on the bases of foci formation frequency and loss of anchorage dependency. In this study we tried to clarify the molecular mechanism of suppressing the cell transformation process. Mouse cell line balb/c 3T3 A31-1-1 was exposed 2 days to MNNG followed by 15 days 12-O-tetradecanoylphorbol-13-acetate(TPA) treatment for our transformation process. EGCG was added after the time point of 24 hours exposure to TPA and incubated for 19 days. 2029 genes were selected in our transformation process that showed fold change value of 1.5 or more in the microarray gene expression analysis covering the mouse full genome. These genes were found to be involved mainly in the cell cycle pathway, focal adhesion, adherens junction, TGE-$\beta$ signaling, apoptosis, lysine degradation, insulin signaling, ECM-receptor interaction. Among the genes, we focused on the 631 genes(FC>0.5) reciprocally affected by EGCG treatment. Our study suggest that EGCG down-regulate the gene expressions of up stream signaling factors such as nemo like kinase with MAPK activity and PI3-Kinase, Ras GTPase and down stream factors such as cyclin D1, D2, H, T2, cdk6.