• Journal of Ginseng Research
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• 제42권3호
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• pp.255-263
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• 2018

Orally administered ginsengs come in contact with the gut microbiota, and their hydrophilic constituents, such as ginsenosides, are metabolized to hydrophobic compounds by gastric juice and gut microbiota: protopanxadiol-type ginsenosides are mainly transformed into compound K and ginsenoside Rh2; protopanaxatriol-type ginsenosides to ginsenoside Rh1 and protopanaxatriol, and ocotillol-type ginsenosides to ocotillol. Although this metabolizing activity varies between individuals, the metabolism of ginsenosides to compound K by gut microbiota in individuals treated with ginseng is proportional to the area under the blood concentration curve for compound K in their blood samples. These metabolites such as compound K exhibit potent pharmacological effects, such as antitumor, anti-inflammatory, antidiabetic, antiallergic, and neuroprotective effects compared with the parent ginsenosides, such as Rb1, Rb2, and Re. Therefore, to monitor the potent pharmacological effects of ginseng, a novel probiotic fermentation technology has been developed to produce absorbable and bioactive metabolites. Based on these findings, it is concluded that gut microbiota play an important role in the pharmacological action of orally administered ginseng, and probiotics that can replace gut microbiota can be used in the development of beneficial and bioactive ginsengs.

• Journal of Ginseng Research
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• 제46권4호
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• pp.550-560
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• 2022

Background: The effect of ginsenoside Rh2 (G-Rh2) on mast cell-mediated anaphylaxis remains unclear. Herein, we investigated the effects of G-Rh2 on OVA-induced asthmatic mice and on mast cell-mediated anaphylaxis. Methods: Asthma model was established for evaluating airway changes and ear allergy. RPMCs and RBL-2H3 were used for in vitro experiments. Calcium uptake, histamine release and degranulation were detected. ELISA and Western blot measured cytokine and protein levels, respectively. Results: G-Rh2 inhibited OVA-induced airway remodeling, the production of TNF-α, IL-4, IL-8, IL-1β and the degranulation of mast cells of asthmatic mice. G-Rh2 inhibited the activation of Syk and Lyn in lung tissue of OVA-induced asthmatic mice. G-Rh2 inhibited serum IgE production in OVA induced asthmatic mice. Furthermore, G-Rh2 reduced the ear allergy in IgE-sensitized mice. G-Rh2 decreased the ear thickness. In vitro experiments G-Rh2 significantly reduced calcium uptake and inhibited histamine release and degranulation in RPMCs. In addition, G-Rh2 reduced the production of IL-1β, TNF-α, IL-8, and IL-4 in IgE-sensitized RBL-2H3 cells. Interestingly, G-Rh2 was involved in the FcεRI pathway activation of mast cells and the transduction of the Lyn/Syk signaling pathway. G-Rh2 inhibited PI3K activity in a dose-dependent manner. By blocking the antigen-induced phosphorylation of Lyn, Syk, LAT, PLCγ2, PI3K ERK1/2 and Raf-1 expression, G-Rh2 inhibited the NF-κB, AKT-Nrf2, and p38MAPK-Nrf2 pathways. However, G-Rh2 up-regulated Keap-1 expression. Meanwhile, G-Rh2 reduced the levels of p-AKT, p38MAPK and Nrf2 in RBL-2H3 sensitized IgE cells and inhibited NF-κB signaling pathway activation by activating the AKT-Nrf2 and p38MAPK-Nrf2 pathways. Conclusion: G-Rh2 inhibits mast cell-induced allergic inflammation, which might be mediated by the AKT-Nrf2/NF-kB and p38MAPK-Nrf2/NF-κB signaling pathways.

• Asian Pacific Journal of Cancer Prevention
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• 제16권3호
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• pp.1105-1109
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• 2015

Chemoresistance is the most common cause of chemotherapy failure during breast cancer (BCA) treatment. It is generally known that the mechanisms of chemoresistance in tumors involve multiple genes and multiple signaling pathways,; if appropriate drugs are used to regulate the mechanisms at the gene level, it should be possible to effectively reverse chemoresistance in BCA cells. It has been confirmed that chemoresistance in BCA cells could be reversed by ginsenoside Rh2 (G-Rh2). Preliminary studies of our group identified some drugresistance specific miRNA. Accordingly, we proposed that G-Rh2 could mediate drug-resistance specific miRNA and corresponding target genes through the gene regulatory network; this could cut off the drug-resistance process in tumors and enhance treatment effects. G-Rh2 and breast cancer cells were used in our study. Through pharmaceutical interventions, we could explore how G-Rh2 could inhibit chemotherapy resistance in BCA, and analyze its impact on related miRNA and target genes. Finally, we will reveal the anti-resistance molecular mechanisms of G-Rh2 from a different angle in miRNA-mediated chemoresistance signals among cells.

• Journal of Ginseng Research
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• 제37권3호
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• pp.269-272
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• 2013

MGB-20 findings show that the ginseng berry extracts that had been processed with microwave and vinegar for 20 min peaked in the level of ginsenoside Rg2 (2.28%) and Rh1 (1.28%). MGB-1 peaked in the level of ginsenoside Rg3 (1.13%) in the ginseng berry extract processed with microwave and vinegar for 1 min.

• Natural Product Sciences
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• 제21권2호
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• pp.93-97
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• 2015

The purpose of this study was to develop a new ginseng (Panax ginseng) flower buds extract with the high concentration of ginsenoside Rg3, Rg5, Rk1, Rh1 and F4, the Red ginseng special component. Chemical transformation from the ginseng saponin glycosides to the prosapogenin was analyzed by the HPLC. The ginseng flower buds were processed at the several treatment conditions of the ultrasonication (Oscillator 600W, Vibrator 600W) and vinegar (about 14% acidity). The result of UVGFB-480 was the butanol fraction of ginseng flower buds that had been processed with ultrasonication and vinegar for 480 minutes gained the highest amount of ginsenoside Rg5 (3.548%), Rh1 (2.037%), Rk1 (1.821%), Rg3 (1.580%) and F4 (1.535%). The ginsenoside Rg5 of UVGFB-480 was found to contain 14.3 times as high as ginseng flower buds extracts (GFB, 0.249%).

• 한국식품저장유통학회지
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• 제20권4호
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• pp.573-582
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• 2013

본 연구에서는 ${\beta}$-glucosidase 활성이 있는 유산균주를 이용하여 발효인삼의 ginsenoside 유용 유도체의 전환 검토 및 품질특성 알아보고자 하였다. ${\beta}$-glucosidase 활성 유산균주를 검색하여 인삼 및 홍삼 발효에 따른 TLC 패턴, ginsenoside 함량 변화, 총 페놀성 화합물 함량, 전자공여능 및 총당 함량을 분석하였다. $37^{\circ}C$에서 65시간 발효 후 Rg2r, Rh2s, Rh2r은 모두 불검출되었으며, 인삼 및 홍삼 추출물 발효에서 발효전과 비교하여 Rg1, Re는 감소한 반면, Rh1, Rg2s, Rd, Rg3r, Rg3s는 발효 후 모두 증가한 것으로 나타났다. 홍삼에서 대표적인 성분으로 알려져 있는 Rg3의 경우 홍삼액 발효전 $104.56{\mu}g/mL$에서 발효 후 균주 종류에 따라 $114.83{\sim}131.68{\mu}g/mL$으로 증가하였다. 7일간 발효 후 홍삼액의 총 페놀성 화합물 및 전자공여능은 일부 균주에서는 발효전과 비교하여 감소하다가 다시 증가하는 경향을 나타내기도 하였으나, 발효가 0~7일차까지 진행됨에 따라 전반적으로 약간 감소되는 경향을 나타내었다. 전자공여능은 인삼 추출물 발효액은 발효 후 균주 종류에 따라 증가하는 경향을 보였으나, 홍삼 추출액은 발효 후 낮아지는 경향을 보였다. 인삼 및 홍삼 추출액을 첨가하여 유산균주별로 발효를 실시한 결과 총당 함량은 발효에 따라 감소하는 것으로 나타났다.

• 생약학회지
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• 제45권4호
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• pp.320-325
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• 2014

The purpose of this study is to develop a new preparation process of Notoginseng root(Panax notoginseng) extracts having high concentrations of ginsenoside $Rg_3$, $Rg_5$, $Rk_1$ and $Rh_4$, a special component of Red and Black ginseng(Panax ginseng). Chemical transformation from ginseng saponin to prosapogenin was analyzed by the HPLC. Extracts of Notoginseng root was processed under several treatment conditions including microwave and vinegar(about 14% acidity) treatments. Results of those treatments showed that the quantity of ginsenoside $Rg_3$ increased by over 7.6% at 15 minutes of pH 2~4 vinegar and microwave treatments. The results of processing with MPN-15 indicate that the microwave and vinegar(about 14% acidity) processed Notoginseng root extracts that had gone through 15-minute treatments were found to contain the largest amount of ginsenoside $Rg_3$(7.639%), $Rg_5$(6.061%), $Rk_1$(1.516%) and $Rh_4$(1.599). It is thought that such results provide basic information in preparing Notoginseng root extracts with functionality enhanced.

• 고려인삼학회:학술대회논문집
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• 고려인삼학회 2004년도 추계 학술대회 및 정기총회
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• pp.58-58
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• 2004

• 한국약용작물학회지
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• 제20권2호
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• pp.117-123
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• 2012

This study compared the contents of low molecular ginsenoside according to fermentation process in low grade fresh ginseng. Low grade fresh ginseng was directly inoculated with a 24 h seed culture of $Bifidobacterium$ Longum B6., $Lactobacillus$ $casei$., and incubated at $36^{\circ}C$ for 72 h. $Bifidobacterium$ Longum B6 was specifically was found to show the best growth on $3,255{\times}10^6\;CFU/m{\ell}$ after 48 h of fermentation. The content of ginsenoside Rb1, Re and Rd were decreased with the fermentation but ginsenoside Rh2 and Rg2 increased after fermentation process. In the case of low molecular ginsenoside conversion yields were 56.07% of Rh2, 12.03% of Rg3 and 77.11% of Rg2, respectively. In addition, compound-K was irregular conversion yield as long as 72 h of fermentation. This results indicate that fermentation process could increase the low molecular ginsenoside in low grade fresh ginseng.

• 한국식품과학회지
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• 제33권3호
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• pp.282-287
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• 2001

인삼 조사포닌을 기존의 고온 MeOH 추출/n-BuOH 분획법 및 고온 MeOH 추출/Diaion HP-20 흡착/MeOH 용출법과 새로이 시도된 고온 MeOH 추출/cation AG 50W흡착/$H_2O$ 용출/n-BuOH 추출법(AG 50W법), 상온 MeOH 추출/Diaion HP-20 흡착/MeOH 용출법(상온추출법)과 EtOAc/n-BuOH 직접 추출법으로 분리한 다음 기존의 HPLC/RI 방법으로 ginsenoside조성을 비교한 결과 EtOAc/n-BuOH 직접 추출법을 제외하고는 큰 차이가 없었으나 분리능과 감도가 우수한 HPLC/ELSD방법을 사용한 결과, ginsenoside $Rb_2$, Rf, $Rg_1$ 및 $Rh_1$ 등을 뚜렷이 식별할 수 있었고 추출 및 분획방법에 따라 조사포닌간 ginsenoside의 현저한 조성차이를 볼 수 있었다. 특히 AG 50W법에 의해 분리된 조사포닌에서 뚜렷한 prosapogenin 피크를 볼 수 있었으며 LC/MS의 결과, ginsenoside $Rb_1$, $Rb_2$ 등의 7종의 주종 사포닌 이외에도 5종의 prosapogenin과 1종의 chikusetsusaponin을 포함한 총 13종의 ginsenoside를 동정하였다. 새로이 정립한 HPLC 분석조건, 즉 $NH_2$ 대신에 $C_{18}$ column을 사용하고 $KH_2PO_4/CH_3CN$ gradient로 상온추출법으로 분리한 조사포닌을 분석한 결과, malonyl ginsenoside 피크를 용이하게 확인할 수 있었다.