• Journal of Ginseng Research
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• 제44권5호
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• pp.690-696
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• 2020

Background: As the main metabolites of ginsenosides, 20(S, R)-protopanaxadiol [PPD(S, R)] and 20(S, R)-protopanaxatriol [PPT(S, R)] are the structural basis response to a series of pharmacological effects of their parent components. Although the estrogenicity of several ginsenosides has been confirmed, however, the underlying mechanisms of their estrogenic effects are still largely unclear. In this work, PPD(S, R) and PPT(S, R) were assessed for their ability to bind and activate human estrogen receptor α (hERα) by a combination of in vitro and in silico analysis. Methods: The recombinant hERα ligand-binding domain (hERα-LBD) was expressed in E. coli strain. The direct binding interactions of ginsenosides with hERα-LBD and their ERα agonistic potency were investigated by fluorescence polarization and reporter gene assays, respectively. Then, molecular dynamics simulations were carried out to simulate the binding modes between ginsenosides and hERα-LBD to reveal the structural basis for their agonist activities toward receptor. Results: Fluorescence polarization assay revealed that PPD(S, R) and PPT(S, R) could bind to hERα-LBD with moderate affinities. In the dual luciferase reporter assay using transiently transfected MCF-7 cells, PPD(S, R) and PPT(S, R) acted as agonists of hERα. Molecular docking results showed that these ginsenosides adopted an agonist conformation in the flexible hydrophobic ligand-binding pocket. The stereostructure of C-20 hydroxyl group and the presence of C-6 hydroxyl group exerted significant influence on the hydrogen bond network and steric hindrance, respectively. Conclusion: This work may provide insight into the chemical and pharmacological screening of novel therapeutic agents from ginsenosides.

• 고려인삼학회:학술대회논문집
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• 고려인삼학회 2002년도 학술대회지
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• pp.317-334
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• 2002

Ginsenosides are metabolized (deglycosylated) by intestinal bacteria to active forms after oral administration. 20(S)-Protopanaxadiol $20-O-{\beta}-D-glucopyranoside$ (M1) and 20(S)-protopanaxatriol (M4) are the main intestinal bacterial metabolites (IBMs) of protopanaxadiol- and protopanaxatriol-type glycosides. M1 was selectively accumulated into the liver soon after its intravenous (i.v.) administration to mice, and mostly excreted as bile; however, some M1 was transformed to fatty acid ester (EMl) in the liver. EM1 was isolated from rats in a recovery dose of approximately $24mol\%.$ Structural analysis indicated that EM1 comprised a family of fatty acid mono-esters of M1. Because EM1 was not excreted as bile as Ml was, it was accumulated in the liver longer than M1. The in vitro cytotoxicity of M1 was attenuated by fatty acid esterification, implying that esterification is a detoxification reaction. However, esterified M1 (EM1) inhibited the growth of B16 melanoma more than Ml in vivo. The in vivo antitumor activity paralleled with the pharmacokinetic behavior. In the case of M4, orally administered M4 was absorbed from the small intestine into the mesenteric lymphatics followed by the rapid esterification of M4 with fatty acids and its spreading to other organs in the body and excretion as bile. The administration of M4 prior to tumor injection abrogated the enhanced lung metastasis in the mice pretreated with 2-chloroadenosine more effectively than in those pretreated with anti-asialo GMl. Both EM1 and EM4 did not directly affect tumor growth in vitro, whereas EM1 promoted tumor cell lysis by lymphocytes, particularly non-adherent splenocytes, and EM4 stimulated splenic NK cells to become cytotoxic to tumor cells. Thus, the esterification of IBM with fatty acids potentiated the antitumor activity of parental IBM through delay of the clearance and through immunostimulation. These results suggest that the fatty acid conjugates of IBMs may be the real active principles of ginsenosides in the body.

• 한국전통의학지
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• 제15권1호
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• pp.97-105
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• 2006

To study on antioxidant effects in the liver of 40-week-old mouse, the sample were orally pretreated 5mg/kg/day for 5 days with red ginseng saponin components(total saponin, protopanaxadiol saponin, protopanaxatriol saponin, ginsenoside-Rd, ginsenoside-Re, compound-K) for 5 days. The ability of saponin to protect the mouse liver from oxidative damage was examined by determining the activity of superoxide dismutase(SOD), glutathione peroxidase(GPx) and the contents of glutathione, the level of malondialdehyde, The only protopanaxadiol among the ginseng saponin fractions was significantly increased the hepatic SOD activity(p<0.01). The red ginseng saponin induced a slight increase of GPx activity, especially ginsenoside Rd, compound K and protopanaxatriol treatments significantly increased its activity. The content of glutathione was significantly increased by total saponin, protopanaxadiol and ginsenoside Rd(p<0.01), but the oxidized glutathione level was lowered in all the red ginseng saponin. Finally, the level of malondialdehyde was significantly decreased by ginsenoside Rd and protopanaxadiol. In conclusion, protopanaxadiol and ginsenoside Rd among the saponin fraction were especially increased in the activity of hepatic antioxidative enzyme and decreased the lipid peroxidation that was expressed in term of MDA formation. This comprehensive antioxidant effects of red ginseng saponin seems to be by a certain action of saponin other than a direct antioxidant action.

• 생명과학회지
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• 제26권12호
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• pp.1422-1430
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• 2016

본 연구는 RAW264.7 세포에서 lipopolysaccharide (LPS) 처리에 의한 염증매개인자의 유도에 대한 고려인삼 사포닌 분획인 20(S)-protopanaxadiol saponins (PDS)과 20(S)-protopanaxatriol saponins (PTS)의 조절효능을 탐구하였다. 이를 위해 RAW264.7 세포에 PDS 또는 PTS를 $150{\mu}g/ml$의 농도로 LPS ($10{\mu}g/ml$ 처리 이전이나 처리 이후 또는 LPS와 동시에 처리하였으며, 처리된 세포에서 nitric oxide (NO)의 방출량, 유도성 nitric oxide synthase (iNOS) 및 cyclooxygenase-2 (COX-2)의 발현 량을 분석하였다. PDS에 비하여 PTS는 RAW264.7 세포에 LPS와 동시에 처리하여 24시간 동안 배양했을 때 LPS 처리에 의해 유도된 NO의 생성을 강하게 감소시켰다. RAW264.7 세포에 LPS ($10{\mu}g/ml$를 2시간 동안 처리한 후에 PDS 또는 PTS를 $150{\mu}g/ml$ 농도로 24시간 동안 처리하면 두 인삼 사포닌 성분 모두 NO의 생성을 강하게 감소시켰다. RAW264.7 세포에 PDS 또는 PTS를 $150{\mu}g/ml$ 농도로 2시간 동안 처리한 후에 LPS ($10{\mu}g/ml$를 24시간 동안 처리했을 경우에도 두 인삼 사포닌 성분 모두 LPS 처리에 의해 유도된 NO 생성을 강하게 감소시켰다. LPS 처리에 의한 NO 생성을 저해하는 효과는 PDS에 비하여 PTS가 더 강하게 나타났다. PDS와 PTS 모두 $150{\mu}g/ml$ 처리농도에서 LPS ($10{\mu}g/ml$처리에 의해 유도된 iNOS와 COX-2의 발현 역시 상당히 감소시켰다. 따라서 본 연구의 결과는 RAW264.7 대식세포에서 PDS와 PTS 두 인삼 사포닌 성분은 LPS 처리에 의한 염증활성화에 강한 억제효과를 가지고 있음을 의미하며, 전염증성 효소인 iNOS와 COX-2 발현의 감소조절을 통하여 NO의 생성을 억제함으로써 항 염증효과가 나타남을 제시한다.

• Journal of Ginseng Research
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• 제33권4호
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• pp.316-323
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• 2009

인삼 사포닌은 면역계에 다양한 약리 효과를 발휘한다. 20(S)-프로토파낙사다이올 (PPD) 및 20(S)- 프로토파낙사트리올 (PPT)은 장내 세균에 의하여 생성되는 인삼 대사체의 일종이며 생체 내 투여 시 순환계에서 탐지된다. 활성화된 비만 세포로부터의 염증 매개체 유리에 미치는 20(S)-프로토파낙사다이올 (PPD) 및 20(S)-프로토파낙사트리올 (PPT)의 영향을 평가하였다. 인삼 사포닌 대사체를 처치 후, 히스타민 유리는 활성화된 해명 폐 비만세포에서 평가하였으며, 인터루킨-4, 인터루킨-8, 및 종양괴사인자-알파 유리는 HMC-1 비만세포에서 평가하였다. 결과는 다음과 같다. PPT는 최고 $100\;{\mu}M$ 농도에서 PMA에 의하여 자극된 HMC-1 세포로부터의 인터루킨-4 유리를 완전히 차단하였다. 또한, 이는 HMC-1 세포로부터의 인터루킨-8의 유리를, PMA와 DMSO동시 처치 시얻어진 수치를 기준으로 대략 40-50% 정도 억제하였다. PPD는 최고 $100\;{\mu}M$ 농도에서 해명 폐 비만세포로부터의 히스타민 유리를 초래하였으나 통계적 유의성은 없었다. PPD는 HMC-1 세포에 PMA와 DMSO 동시 처치 시 얻어진 수치를 기준으로 할 때, 인터루킨-4의 유리를 대략 89% 정도 억제하였으나, 인터루킨-8의 유리에는 유의적인 효과를 초래하지 않았다. 그러나 PPD 및 PPT 모두, PMA에 의하여 자극된 HMC-1 세포로부터의 종양괴사 인자-알파의 유리에는 전혀 효과를 나타내지 않았다. 그러므로 본 연구 결과는 PPD와 PPT가 경구로 투여된 인삼 추출물의 면역조절 작용을 담당하는 장내 인삼 대사체 중의 한 종류임을 제시한다.

• 약학회지
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• 제16권3호
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• pp.129-136
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• 1972

Two anti-infalmmatory glycosides, Panax saponin A, $C_{47}H_{72}O_{14}$ center dot $2H_{2}O$, m.p. $208-10^{\circ}$ and C, m.p. $196-202^{\circ}$, were isolated from the methanol extract of Panax ginseng. The anti-inflammatory activity of Panax saponin A was found to have delayed and prolonged characteristics. The partial structure of Panax saponin A was established to be ${\beta}{\betha}$'20S-protopanaxatriol-diglucoside. One of glucose residues was bound to the 20S-hydroxyl group of aglycone.

• 한국응용약물학회:학술대회논문집
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• 한국응용약물학회 1994년도 춘계학술대회 and 제3회 신약개발 연구발표회
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• pp.226-226
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• 1994

천연의 Triterpene이나 Steroid의 01igo당 배당체는 항균작용, 소염작용, 항암작용등의 유용한 생리활성을 가지는것이 많다. 따라서 이들 화합물군으로 부터 신의약품이 개발될 가능성이 매우크다 하겠다. 그러나 천연물은 그 작용이 약하거나 순수하게 다량 분리하기가 쉽지않다. 생리활성이 강하고, 부작용이 적은 배당체를 이용가능한 양만큼 다량을 순수하게 얻기 위하여는 합성의 기법이 절대적으로 필요하다. 이를 위하여 연구자는 천연의 총배당체 (배당체혼합물)로부터 aglycone을 얻고 여기에 g1ycosidation 반응으로 당을 결합시킴으로써 천연 또는 비 천연성 배당체를 합성하고 생리활성을 검토, 신물질을 창출하고자 한다. Aglycone으로는 Ginsenosides의 aglycone인 20(s)-protopanaxadiol 및 20(S)-protopanaxatriol, Soyasapogenol B, Oleanlic acid를 사용하고, 목표로하는 생리활성은 항암작용, 항군작용, alcohol 흡수 저해작용을 지향한다.

• Journal of Ginseng Research
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• 제22권3호
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• pp.200-205
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• 1998

Isolated rabbit jejunal segments were used to study the effects of ginseng total saponins (GTS) , protopanaxatriol saponins (PT) and protopanaxadiol saponins (PD) on intestinal contractility. GTS, PT and PD caused a dose-dependent decrease in intestinal spontaneous movements, and PT was the most efficacious of them. The effect of GTS, PT and PD were not blocked by pretreatment with phentolamine (10-6 M), yohimbine (10-6 M), d1-propranolol (10-6 M), naloxone(10-6∼10-5M), Nu-nitro-L-arginine methyl ester (10-4 M), methylene blue (10-5M), and N-ethylmaleimide (10-4 M). However, pretreatment with tetraethylammonium chloride (3-10 mM) antagonized the effect of GTS, PT and PD. Furthermore, 4-amlnopyridine (1 mM) also inhibited the effect of GTS, PT and PD. The results suggest that GTS, PT and PD inhibited the spontaneous movements in isolated rebait jejunum by causing hyperpolarization through an activation of K+ channels directly.

• Journal of Ginseng Research
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• 제33권3호
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• pp.165-176
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• 2009

Korean ginseng, which contains ginsenosides and polysaccharides as its main constituents, is orally administered to humans. Ginsenosides and polysaccharides are not easily absorbed by the body through the intestines due to their hydrophilicity. Therefore, these constituents which include ginsenosides Rb1, Rb2, and Rc, inevitably come into contact with intestinal microflora in the alimentary tract and can be metabolized by intestinal microflora. Since most of the metabolites such as compound K and protopanaxatriol are nonpolar compared to the parental components, these metabolites are easily absorbed from the gastrointestinal tract. The absorbed metabolites may express pharmacological actions, such as antitumor, antidiabetic, anti-inflammatory, anti-allergic, and neuroprotective effects. However, the activities that metabolize these constituents to bioactive compounds differ significantly between individuals because all individuals possess characteristic indigenous strains of intestinal bacteria. Recently, ginseng has been fermented with enzymes or microbes to develop ginsengs that contain these metabolites. However, before using these enzymes and probiotics, their safety and biotransforming activity should be assessed. Intestinal microflora play an important role in the pharmacological action of orally administered ginseng.

• 생약학회지
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• 제17권2호
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• pp.139-147
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• 1986

Ginseng saponins(GS), protopanaxadiol saponins(PD) and protopanaxatriol saponins (PT) were tested for the inhibition of the development of morphine tolerance and dependence antagonism of morphine analgesia and the loss of morphine tolerance and dependence in mice The results were as follows: 1. Inhibition of the development of morphine tolerance and dependence. 2. Antagonism of morphine analgesia. 3. Increase in the loss of morphine tolerance and dependence. Antagonism of morphine by ginseng saponins and its reversal by L-DOPA and 5-HTP suggest some possibility that catecholamines and serotonin levels might be associated with the results.