• Archives of Pharmacal Research
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• v.16 no.1
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• pp.32-35
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• 1993

Four titerpenoids were isolated from the roots of Dipsacus asper. On the basis of chemical and spectral evidence, the structures of these compounds have been elucidated to be hederagenin(1), hederagenin $3-O-\alpha-L-$arabinoside(2). $3-O-\alpha-$L-arabinopyranosyl hederagenin $2B-O-\beta$-D-glucopyranosyl ester(3) and hederagenin $28-O-\beta$-D-glucopyranosyl(1->6)-$\beta$-D-glucopyranosyl ester(4). The new glycoside, 4, was named dipsacus saponin A.

• YAKHAK HOEJI
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• v.26 no.1
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• pp.1-8
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• 1982

Derivation of triterpenoids and then the screening for corticomimetics among them is our primary interest. $C_{11}$-oxo-triterprenoids except glycyrrhetinic acid are rarely found in the plant kingdom. Based on the facts that $C_{3}$ and $C_{11}$-Oxo-group are essential for the corticoid-like-activity through its competitive inhibition on the corticoid-5.betha.-reductase, it was attempted to produce artificial inhibitor on the enzyme by introducing $C_{11}$-oxo group to the triterpenoids of oleanene series such as oleanolic acid and hederagenin. We could obtain the $C_{11}$-oxo-oleanolic acid m.p. $264-6^{\circ}$, uv ${\lambda}max$ 249 and $C_{11}$-oxo-hederagenin amorp. uv ${\lambda}max$ 251 by acetylation, $CrO_{3}$-oxid., and deacetylation. Glycyrrhetinic acid, a natural 11-oxo-compound and the other 11-oxo-derivatives of oleanolic acid and hederagenin were compared in their inhibitory activity on the corticoid-5.betha.-reductase. The inhibitory activity of those compound were decreased in the order of $C_{11}$-oxo-oleanolic acid, $C_{11}$-oxo- hederagenin, glycyrrhetinic acid. This suggests more strong corticomimetic activity of those artificially derived $C_{11}$-oxo-oleanolic acid and $C_{11}$-oxa-hederagenin. Their Ki value were $4.6{\times}10^{-4}M$ and $5.8{\times}10^{-4}M$ respectively.

• Archives of Pharmacal Research
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• v.22 no.3
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• pp.317-319
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• 1999

Anticomplementary activity of hederagenin and related saponins isolated from Dipsacus asper was investigated in vitro. HN saponin F (3) was most potent with $IC_{50}$ value of$ 3.7{\times}10^{-5} M$ followed by 3-O-${\beta}-D-glucopyranosyl-(1{\rightarrow} 3)-{\alpha}-L-rhamnopyranosyl-(1{\rightarrow}2)-{\beta}-L-arabinopyranosyl$ hederagenin $28-O-{\beta}-D-glucopyranosyl-(1{\rightarrow}6)-beta$-D-glucopyrano side (8), $3-O-{\beta}-L-arabinopyranosyl$ hederagenin $28-O-{\beta}-D-glucopyranosyl-(1{\rightarrow}6)-{\beta}-D-glucopyranoside$ (5), dipsacus saponin A (4), and hederagenin (1) on the classical pathway (CP) of complement system, while the saponins 3-5 did not show the inhibition of hemolysis and rather increase the hemolysis on the alternative pathway (AP). However, all of C-3 monodesmosides [prosapogenin CP (2), dipsacus saponin B (6), and dipsacus saponin C (7)] evoked hemolysis directly on the erythrocytes.

• Archives of Pharmacal Research
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• v.12 no.1
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• pp.42-47
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• 1989

From the roots of Puisatiila koreana, three monodesmosides(pulsatilla saponins A, B and D) and two bisdesmosides(pulsatilla saponins F and H) were isolated. The structure of these saponins have been determined as hederagenin 3-O-${\beta}$-L-rhamnopyranosyl($1{\to}2$)- ${\alpha}$-L-arabinopyranoside(A), hederagenin 3-O-${\beta}$-D-glucopyrano syl($1{\to}4$) - ${\alpha}$-L-arabinopyranoside(B), hederagenin 3-O- ${\alpha}$-L-rhamnopyranosyl ($1{\to}2$)-[${\beta}$-D-glucopyranosyl($1{\to}4$]-${\alpha}$-L-arabinopyranoside(D), 3-O-${\alpha}$-L-rhamnopyranosyl($1{\to}2$)-{${\alpha}$-L-arabinopyranosyl hederagenin 28-O-${\alpha}$-L-rhamnopyrano syl($1{\to}4$)-${\beta}$-D-glucopyrano syl($1{\to}6$)-${\beta}$-D-glucopyranosyI ester (F) and 3-O-${\alpha}$-L-rhamnopyranosyl($1{\to}2$)-[${\beta}$-D-glucopyranosyl($1{\to}4$)]- ${\alpha}$-L-arabinopyranosyl hederagenin 28-O-${\alpha}$-L-lharnnopyranosyl($1{\to}4$)-${\beta}$-D-glucopyranosyl($1{\to}6$)-${\beta}$-D-glucop yranosyl ester(H) on the basis of chemical and spectral studies. Pulsatilla saponin B is the first report of its presence in plants but saponins A, D, F, and H have recently been isolated from the same genus p. cernua.

• YAKHAK HOEJI
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• v.35 no.3
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• pp.236-239
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• 1991

Two triterpenoid saponins were isolated from the methanol extract of Caltha minor leave(Ranunculaceae). The structure of these saponin were elucidated as hederagenin-3-O-$\alpha$-rhamnopyranosyl(1$\rightarrow$2)-$\alpha$-L-arabinopyrano side and 3-O-$\alpha$-L-rhamnopyranosyl(1$\rightarrow$2)-$\alpha$-L-arabinopyranosyl hederagenin 28-O-$\alpha$-L-rhamnopyranosyl(1$\rightarrow$4)-$\beta$-D-glucopyranosyl(1$\rightarrow$6)-$\beta$-D-glucopyranosyl ester.

• Journal of the Korean Society of Food Science and Nutrition
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• v.45 no.3
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• pp.307-312
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• 2016

We studied the effects of oleanolic acid and hederagenin on acute alcohol-induced hepatotoxicity in mice. Oleanolic acid [10 and 20 mg/kg body weight (BW)/d] or hederagenin (10 and 20 mg/kg BW/d) was orally administered to the study group for 1 week. On the last day of treatment, ethanol (5 g/kg BW) was orally administered to induce acute liver injury. The oleanolic acid-treated group showed lower levels of alanine aminotransferase compared to the ethanol-treated group (EtOH). The mRNA expression level of alcohol dehydrogenase was significantly increased in the high dosage oleanolic acid-treated group compared with the control and EtOH groups. The glutathione levels of the oleanolic acid or hederagenin-treated groups were elevated significantly compared with those of the control and EtOH groups. The mRNA expression levels of glutathione synthetic enzymes were also elevated in the oleanolic acid-treated groups. The oleanolic acid or hederagenin-treated groups also showed lower levels of mRNA expression of tumor necrosis factor alpha. Thus, these results show that oleanolic acid and hederagenin could reduce oxidative stress and hepatotoxicity in ethanol-treated mouse liver.

• Archives of Pharmacal Research
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• v.14 no.1
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• pp.7-11
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• 1991

Three triterpenoid saponins were isolated from the methanol extract of the stem bark of Kalopanax pictum Nakai var. magnificum (Araliaceae). The structures of these saponins were identified as hederagenin 3-O-${\alpha}$-L-arabinopyranoside, hederagenin-3-O-${\alpha}$-L-rhamnopyranosyl$(1{\rightarrow}2)$-${\alpha}$-L-arabinopyranoside and 3-O-${\alpha}$-L-rhamnopyranosyl(1{\rightarrow}2)-${\alpha}$-L-arabinopyranosyl hederagenin 28-O-${\alpha}$-L-rhamnopyranosyl$(1{\rightarrow}4)$-${\beta}$-D-glucopyranosyl$(1{\rightarrow}6)$-${\beta}$-D-glucopyranosyl ester.

• Archives of Pharmacal Research
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• v.28 no.9
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• pp.1053-1056
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• 2005

Cytotoxic activitiy of seven hederagenin saponins isolated from the root of Dipsacus asper were investigated in vitro against L1210, HL-60 and SK-OV-3 tumor cell lines by the MTT method. $3-O-\alpha-L-rhamnopyranosyl-(1{\rightarrow}2)-\alpha-L -arabinopyranosyl$ hederagenin (2),\;$3-O-\beta-D­xylopyranosyl-( 1{\rightarrow}3)-\alpha-L-Rhamnopyranosyl-(1{\rightarrow}2)-\alpha-L -arabinopyranosyl$ hederagenin (6) and $3-O-\beta-D-glucopyranosyl-(1{\rightarrow}3)-\alpha-L-rhamnopyranosyl-( 1{\rightarrow}2)-\alpha-L-arabinopyranosyl$ hederagenin (7) exhibited the potent cytotoxicity against the three tumor cell lines with $IC_{50}$ values ranging from 4.7 to 8.7 ${\mu}g/mL$, with the exception of compound 7, which exhibited weak cytotoxic activity against SK-OV-3 $(IC_{50}\;22.5\;{\mu}g/mL)$. Other compounds did not exhibit any cytotoxic activity $(IC_{50}>30{\mu}g/mL)$.

• Food Science and Preservation
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• v.17 no.3
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• pp.311-319
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• 2010

Four saponins (1~4) were isolated from Akebia quinata pericarp through bioassay-guided fractionation. Pericarps of A. quinata were extracted with ethanol and sequentially fractionated with dichloromethane, ethyl acetate, butanol and water. Compounds 1~4 from the butanol fraction were identified as 3-O-${\alpha}$-L-arabinopyranosyl hederagenin (${\delta}$-hederin), 3-O-${\alpha}$-L-rhamnopyranosyl (1${\rightarrow}$2) ${\alpha}$-L-arabinopyranoly oleanolic acid (${\beta}$-hederin), 3-O-${\beta}$-D-xylopyranosyl (1${\rightarrow}$3) ${\alpha}$-L-arabinopyranosyl hederagenin (saponin C), and 3-O ${\alpha}$-L-rhamnopyranosyl (1${\rightarrow}$2) ${\alpha}$-L-arabinopyranosyl hederagenin (${\alpha}$-hederin) based on the spectroscopic evidences, respectively. Oleanolic acid and hederagenin were identified as the corresponding sapogenins by acid-hydrolysis. These compounds exhibited strong cytotoxic activity in MTS [3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxy-methoxyphenyl)-2-(4-sulfophenyl)-2H- tetrazolium, inner salt] assay on HepG2 cells. ${\beta}$-Hederin obviously attenuated the expression of bcl-2, an anti-apoptotic protein. All of the compounds also induced the activity of caspase-3, an apoptotic enzyme, while ${\alpha}$-hederin was the most potent activator of the enzyme. Our data demonstrate for the first time the apoptosis-inducing activity of A. quinata. These results suggest that A. quinata could be used as a potential source of natural cancer chemopreventive agents.

• Korean Journal of Pharmacognosy
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• v.28 no.2
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• pp.93-98
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• 1997

Rutin, ${\alpha}-hederin$ and kalopanax saponin B and a mixture of hederagenin and 23-hydroxyursolic acid were isolated from the aerial parts of Patrinia scabiosaefolia Fisch.