• Title/Summary/Keyword: Glycyrrhizin(GL)

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The Extract of the Glycyrrhizin from Glycyrrhizae Radix and Antibacterial Activity of the Treated Fabrics (감초로 부터 글리시리진의 추출 및 직물의 항균성)

  • Lee, Young-Sook;Jang, Jeong-Dae
    • Fashion & Textile Research Journal
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    • v.15 no.2
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    • pp.286-293
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    • 2013
  • This study investigates the attachment of glycyrrhizin to fabric using an X-ray photoelectron spectrophotometer( XPS). XPS spectra analysis showed that carbon content on treated fabrics with 0.2% glycyrrhizin increased to 2.699% for silk, 2.829% for nylon, 1.505% for cotton, respectively. The results show that glycyrrhizin is absorbed on treated fabrics. The glycyrrhizin extraction method makes radix glycyrrhizae powder 10g treat the first and the second treatment with ethanol, remove impurities on $75^{\circ}C$; subsequently, it is treated for 10 hours with ethanol 75% on $85^{\circ}C$ and lyophilizated. As the result, glycyrrhizin is extracted 1.7g in GL-I, 1.1 g in GL-II. As the result of abstracting glycyrrhizin with two methods, pure glycyrrhizin was abstracted 45.9% in GL-I, 74.9% in GL-II. GL-I, GL-II; in addition, glycyrrhizin( Japan) on TLC plate was separated in Rf 0.6. By GL-II extract method, this experiment obtained glycyrrhizin 15 g treated in a bath ratio set to 1: 100. Silk fabric was treated at $80^{\circ}C$, 60 min. in, nylon fabric $10^{\circ}C$, 70 min., and cotton fabric $30^{\circ}C$, 80 min.; subsequently, silk, nylon, cotton fabrics showed a 99.9% antibacterial activity for Staphylococcus aureus and Klebsiella pneumoniae.

Studies on the Processing of Crude Drugs (IV) -Physico-chemical Transformation of Glycyrrhizin in Glycyrrhizae Radix by Processing- (한약수치에 관한 연구(제4보) -수치에 의한 감초중 Glycyrrhizin의 물리화학적 변화-)

  • Kim, Nam-Jae;Jin, Young-Ho;Hong, Nam-Doo
    • Korean Journal of Pharmacognosy
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    • v.26 no.1
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    • pp.31-39
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    • 1995
  • In order to investigate the chemical and pharmacological characterization of crude drug processing, the triterpenoidal constituents of Glycyrrhizae Radix(GR) were examined. Processed GR has been often used to reinforce and change the efficacy of GR. Glycyrrhizin(GL) is one of the main constituents of GR. Following procedure described in the oriental medicinal reference, GR and GL were heated at $140^{\circ}C{\sim}240^{\circ}C$ in GC oven. And then, the content of GL in the processed GR and GL was analyzed by HPLC. GL was transformed to $18-{\beta}-glycyrrhetic\;acid\;mono-{\beta}-D-glucuronide(GM)$ and glycyrrhetic acid(GA) by processing at $170^{\circ}C$. Determination of the content of GL increasing the heating temperature showed that GL was decomposed by heat above $150^{\circ}C$. It was also found that the content of GL in GR processed by heat above $170^{\circ}C$ remakeably decreased.

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Effect of Glycyrrhizin on Apoptosis of Transplanted-L1210 cells in mice (글리시르히진이 생쥐에 이식된 L1210 세포의 아포프토시스에 미치는 영향)

  • Eun, Jae-Soon;Kwon, Jin;Oh, Chan-Ho
    • YAKHAK HOEJI
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    • v.42 no.3
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    • pp.324-329
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    • 1998
  • These experiments were conducted to investigate effects of glycyrrhizin (GL) on apoptosis of transplanted-L1210 cells in mice. GL induced apoptosis of transplanted-Ll2lO cells. GL increased nitric oxide production from peritoneal macrophages of L1210 cells-transplanted mice. NOC12, nitric oxide donor, induced apoptosis of L1210 cells in vitro. The apoptosis of L1210 cells were enhanced by co-culture of the peritoneal macrophages of GL-administered mice and L1210 cells in vitro, and was inhibited by L-NMMA. These results suggest that the apoptosis of transplanted-Ll2lO cells is partly induced by nitric oxide produced from peritoneal macrophages in GL-administered mice.

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Metabolism of glycyrrhizin and baicalin by human intestinal bacteria

  • Kim, Dong-Hyun;Jang, Il-Sung;Lee, Hyeong-Kyu;Jung, Eun-Ah;Lee, Kyeu-Yup
    • Archives of Pharmacal Research
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    • v.19 no.4
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    • pp.292-296
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    • 1996
  • By human intestinal bacteria, glycyrrhizin (18${\beta}$-glycyrrhetic acid ${beta}$-D-glucuronyl.${\alpha}$-D-glucuronic acid, GL) and baicalin (baicalein ${\beta}$-D-glucuronic acid) were metabolized to glycyrrhetinic acid and baicalin, respectively. However, .${\alpha}$-glucuronidase of Bacteroides JY-6 isolated from human intestinal bacteria hydrolyzed GL or 18.${\beta}$-glycyrrhetinic acid ..${\alpha}$-D-glucuronic acid to 18${\beta}$-glycyrrhetic acid but did not baicalin. However, E. coli ${\beta}$-glucironidase from human intestinal bacteria hydrolyzed baicalin to baicalein, but did not GL.${\beta}$-Glucuronidase of mammalian tissues hydrolyzed both GL and baicalin.

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Effect of Glycyrrhizin on Lymphocytes Subpopulation Change of L1210 cells-transplanted Mice (글리시르히진이 L1210세포를 이식한 생쥐의 Lymphocytes Subpopulation 변화에 미치는 영향)

  • Eun, Jae-Soon;Yum, Jung-Yul;Jeon, Hoon;Oh, Chan-Ho
    • YAKHAK HOEJI
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    • v.44 no.6
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    • pp.566-571
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    • 2000
  • We have previously observed that glycyrrhizin(GL) inhibits the proliferation of transplanted-L1210 cells via the production of nitric oxide from peritoneal macrophages. In the present study, we examined the effect of GL on Iymphocytes subpopulation change of L1210 cells-transplanted mice. GL increased the population of $CD4^-CD8^+$ cells of thymocytes in L1210 cells-transplanted mice and the lucigenin chemiluminescence of human polymorphonuclear cells. These results suggest that the proliferation of transplanted-L1210 cells is partly inhibited by an enhancement of cytotoxic T cells population and phagocytic activity in GL-administered mice.

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Streptococcus LJ-22, a human intestinal bacterium, transformed glycyrrhizin to 18$\beta$-glycyrrhetinic acid monoglucuronide

  • Kim, Dong-Hyun;Lee, Seoung-Won;Park, Hae-Young;Han, Myung-Joo
    • Proceedings of the Korean Society of Applied Pharmacology
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    • 1998.11a
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    • pp.125-125
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    • 1998
  • Glycyrrhizin (18$\beta$-glycyrrhetic acid $\beta$-D-glucuronyl a-D-glucuronic acid, GL), a main component of liquore extract (Glycyrrhiza glabra), is ingested orally as a component in the oriental medicine. By human intestinal bacteria, glycyrrhizin (18$\beta$-glycyrrhetinic acid $\beta$-D-glucuronyl a-D-glucuronic acid, GL) was metabolized to glycyrrhetinic acid (GA): main pathway metabolizing GL to GA by glucuronidases of Bacteroides J-37 (Kim et al., 1997) and Eubacterium sp strain GLH (Akao et al., 1987) and minor pathway metabolizing GL to GA via 18$\beta$-glycyrrhetic acid D-glucuronic acid (GAMG) by $\beta$-glucuronidase of Streptococcus LJ-22 and glucuronidases of Bacteroides J-37 / E. coli. $\beta$-Glucuronidase from Streptococcus LJ-22 hydrolyzed GL to GAMG, not GA. $\beta$-Glucuronidase of Streptococcus LJ-22 hydrolyzed $\beta$-glucuronic acid conjugates of polysaccharides rather than aglycone-$\beta$-glucuronides Optimal pH of Streptococcus LJ-22 $\beta$-glucuronidase was 5-6 and its molecular weight was 250 kDaltons. Km for GL was 0.37mM.

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Herbal Medicines Are Activated by Intestinal Microflora

  • Kim, Dong
    • Natural Product Sciences
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    • v.8 no.2
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    • pp.35-43
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    • 2002
  • Glycosides of herbal medicines, such as glycyrrhizin, ginsenosides, kalopanaxsaponins, rutin and ponicirin, were studied regarding their metabolic fates and pharmacological actions in relation to intestinal bacteria using germ-free, gnotobiotic and conventional animals. When glycyrrhizin (GL) was orally administered, $18{\beta}-glycyrrhetinic\;acid\;(GA)$, not GL, was detected in plasma and intestinal contents of gnotobiotic and conventional rats. However, GA could not be detected in germ-free rats. When GL was incubated with human intestinal bacteria, it was directly metabolized to GA (>95%) or via $18{\beta}-glycyrrhetinic\;acid-3-{\beta}-D-glucuronide$(>5%). Orally administered GL was effective in gnotobiotic and conventional rats for liver injury induced by carbon tetrachloride, but was not effective in germ-free rats. When ginseng saponins were orally administered to human beings, compound K in the plasma was detected, but the other protopanxadiol saponins were not detected. The compound K was active for tumor metastasis and allergy. When kalopanaxsaponins were incubated with human intestinal microflora, they were metabolized to kalopanaxsaponin A, kalopanaxsaponin I and hederagenin. These metabolites were active for rheumatoid arthritis and diabetic mellitus while the other kalopanxsaponins were not. When flavonoid glycosides were orally administered to animals, aglycones and/or phenolic acids were detected in the urine. The metabolic pathways proceeded by intestinal bacteria rather than by liver or blood enzymes. These metabolites, aglycones and phenolic acids, showed antitumor, antiinflammatory and antiplatelet aggregation activities. These findings suggest that glycosides of herbal medicines are prodrugs.

Effect of Glycyrrhizin on the Aoptosis of Melanoma Cells in Mel/ret Transgenic Mice (Glycyrrhizin이 Mel/ret transgenic mice에서의 melanoma 세포의 apoptosis에 미치는 영향)

  • 오찬호;염정열
    • KSBB Journal
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    • v.13 no.6
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    • pp.718-723
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    • 1998
  • The effect of glycyrrhizin on melanoma cells was investigated. DNA fragmentation in cultured melanoma cells was promoted by the addition of glycyrrhizin in a dose dependent manner. Administration(i.m.) of glycyrrhizin to Mel/ret transgenic mice resulted in apoptosis induction, reduction of mitochondrial transmembrane potential in melanoma cells. Decreased B220+ B cells were recovered by the treatment of glycyrrhizin in splenocytes and mesenteric lymph node cells, while Thy-1+ T cells were not influenced. Results suggested that glycyrrhizin acted as an inducer of apoptosis of melanoma cells and an immuno-potentiator via recovered B lymphocyte population in Mel/ret transgenic mice.

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Optimization of Fermentation Medium for Glycyrrhizin Biotransformation to Monoglucuronyl-glycyrrhetinic Acid by Plackett-Burman and Box-Behnken Design

  • Quan, Yanling;Wang, Lin;Liu, Yisheng;Cong, Jingxiang;Xie, Shengquan;Wu, Xiuhong
    • Korean Chemical Engineering Research
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    • v.53 no.3
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    • pp.321-326
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    • 2015
  • Plackett-Burman (PB) and Box-Behnken (BB) experimental designs were used to optimize fermentation variables for the biotransformation of glycyrrhizin (GL) to monoglucuronyl-glycyrrhetinic acid (MGGA). The PB design was first used to screen the important factors among the medium variables. The steepest ascent method was used to approach the optimum range for each of these factors. The BB design was finally used to analyze the response surfaces of the screened factors for further optimization. The optimized conditions for this system were 0.7 g/L $MgSO_4{\cdot}7H_2O$, 1.19 g/L GL, and cultivation for six days. The biotransformation of GL to MGGA could reach up to 35.72%, which is a good result for this kind of transformation.

Anti-Allergic Activity of 18$\beta$-Glycyrrhetinic acid-3-O-$\beta$-D-glucuronide

  • Park, Hae-Young;Park, Sung-Hwan;Yoon, Hae-Kyung;Han, Myung-Joo;Kim, Dong-Hyun
    • Archives of Pharmacal Research
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    • v.27 no.1
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    • pp.57-60
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    • 2004
  • Glycyrrhizin (18$\beta$-glycyrrhetinic acid-3-O-$\beta$-D-glucuronopyranosyl-(1$\rightarrow2)-\beta$-D-glucuronide, GL) was transformed to 18$\beta$-glycyrrhetinic acid-3-O-$\beta$-D-glucuronide (GAMG) by Streptococcus LJ-22. The antiallergic activities of GL and GAMG was measured using a RBL cell assay system and contact hypersensitivity model mice. GAMG exhibited anti-allergic activity with $IC_{50}$ values of 0.28 mM. GAMG, which is sweeter than GL, and 18$\beta$-glycyrrhetinic acid, which is a GAMG metabolite by human intestinal bacteria, also inhibited the passive cutaneous anaphylaxis and skin contact inflammation. In conclusion, GAMG may be useful as a new sweet food additive and an anti-allergic agent.