A COMPARISON OF THE ANTIHEPATOTOXIC ACTIVITY BETWEEN GLYCYRRHIZIN AND GLYCYRRHETINIC ACID

被引：92

作者：

NOSE, M ^{[1
]}

ITO, M ^{[1
]}

KAMIMURA, K ^{[1
]}

SHIMIZU, M ^{[1
]}

OGIHARA, Y ^{[1
]}

机构：

[1] TERUMO CO, R&D, KANAGAWA 25901, JAPAN

来源：

PLANTA MEDICA | 1994年 / 60卷 / 02期

关键词：

18-ALPHA; BETA-GLYCYRRHIZIN; BETA-GLYCYRRHETINIC ACID; GALACTOSAMINE; CARBON TETRACHLORIDE; LIVER INJURY; RAT HEPATOCYTES; ADSORBABILITY;

D O I：

10.1055/s-2006-959435

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

A comparison of antihepatotoxic activities between glycyrrhizin (18 beta-GL) and its genuine aglycone, glycyrrhetinic acid (18 beta-GA), was carried out using in vivo and in vitro assay methods. The oral administration of 18 beta-GA at 1, 24, and 48 h before D-galactosamine (GalN) treatment significantly reduced the increase of serum transaminase activities 24h after GalN treatment, whereas 18 beta-GL did not inhibit the increase of serum transaminase activities. The intraperitoneal administration of 18 beta-GA 1h before GalN treatment restored the increase of serum transaminase activities with lower doses than 18 beta-GL. In CCl4-induced cytotoxicity of primary cultured rat hepatocytes, 18 beta-GA protected the CCl4-induced leakage of transaminase at doses of 5 to 50 mu g/ml, whereas 18 beta-GL inhibited slightly the leakage at a dose of 1000 mu g/ml. In the same way, 18 alpha-GA, the alpha-isomer of 18 beta-GA, reduced the CCl4-induced cytotoxicity more strongly than 18 alpha-GL. Furthermore, the adsorbability of 18 alpha,beta-GA on primary cultured rat hepatocytes was higher than that of 18 alpha,beta-GL. These results suggest that 18 alpha,beta-GA is a more potent antihepatotoxic agent than 18 alpha,beta-GL, and that the potency of the antihepatotoxic compounds parallels their adsorbability in hepatocytes.

引用

页码：136 / 139

页数：4

共 11 条

[1] MECHANISM OF ANTIINFLAMMATORY ACTION OF GLYCYRRHIZIN - EFFECT ON NEUTROPHIL FUNCTIONS INCLUDING REACTIVE OXYGEN SPECIES GENERATION
AKAMATSU, H
KOMURA, J
ASADA, Y
NIWA, Y
[J]. PLANTA MEDICA, 1991, 57 (02) : 119 - 121
[2] AMAGAYA S, 1984, J PHARMACOBIO-DYNAM, V7, P923
[3] METABOLISM OF GLYCYRRHIZIN BY HUMAN INTESTINAL FLORA
HATTORI, M
SAKAMOTO, T
KOBASHI, K
NAMBA, T
[J]. PLANTA MEDICA, 1983, 48 (01) : 38 - 42
[4] JU HS, 1990, ACTA PHARM SINIC, V11, P466
[5] LIVER-PROTECTIVE DRUGS .6. ASSAY-METHOD FOR ANTIHEPATOTOXIC ACTIVITY USING CARBON-TETRACHLORIDE INDUCED CYTO-TOXICITY IN PRIMARY CULTURED-HEPATOCYTES
KISO, Y
TOHKIN, M
HIKINO, H
[J]. PLANTA MEDICA, 1983, 49 (04) : 222 - 225
[6] LIVER PROTECTION DRUGS .7. ASSAY-METHOD FOR ANTIHEPATOTOXIC ACTIVITY USING GALACTOSAMINE-INDUCED CYTO-TOXICITY IN PRIMARY-CULTURED HEPATOCYTES
KISO, Y
TOHKIN, M
HIKINO, H
[J]. JOURNAL OF NATURAL PRODUCTS, 1983, 46 (06): : 841 - 847
[7] LIVER PROTECTIVE DRUGS .14. MECHANISM OF ANTIHEPATOTOXIC ACTIVITY OF GLYCYRRHIZIN .1. EFFECT ON FREE-RADICAL GENERATION AND LIPID-PEROXIDATION
KISO, Y
TOHKIN, M
HIKINO, H
HATTORI, M
SAKAMOTO, T
NAMBA, T
[J]. PLANTA MEDICA, 1984, 50 (04) : 298 - 302
[8] ENZYME LEAKAGE DUE TO CHANGE OF MEMBRANE-PERMEABILITY OF PRIMARY CULTURED RAT HEPATOCYTES TREATED WITH VARIOUS HEPATOTOXINS AND ITS PREVENTION BY GLYCYRRHIZIN
NAKAMURA, T
FUJII, T
ICHIHARA, A
[J]. CELL BIOLOGY AND TOXICOLOGY, 1985, 1 (04) : 285 - 295
[9] Rechnagel R O, 1973, CRC Crit Rev Toxicol, V2, P263, DOI 10.3109/10408447309082019
[10] SAKIYA Y, 1979, CHEM PHARM BULL, V27, P1125

← 1 2 →