• 제목/요약/키워드: Triterpene acetate

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혈당강하효과를 나타내는 상엽의 당지질 성분 (Galactolipids from Mori Folium and their Hypoglycemic Effect)

  • 김철영;강시현;정기화;정춘식;김박광;허훈
    • 생약학회지
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    • 제31권1호
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    • pp.95-100
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    • 2000
  • In order to find out hypoglycemic constituents from natural resources, Korean medicinal plants being used for the treatments of diabetes mellitus were tested with streptozotocin-induced diabetic rats. From the above screening, the $CH_2Cl_2$ fraction of 80% methanol extracts of Morus alba leaves showed hypoglycemic activity. The $CH_2Cl_2$fraction was chromatographed on silica gel, resulting in 9 subfractions, and tested hypoglycemic activity. The subfraction which had a strong hypoglycemic activity was rechromatographed and two galactolipids (compounds 1 and 2) were isolated along with a triterpene (compound 3) from other fractions. On the basis of spectroscopic data, acid hydrolysis, alkaline hydrolysis and enzyme hydrolysis results, compounds 1, 2 and 3 were identified as $1-O-(9Z,12Z,15Z-octatrienoyl)-2-O-(9Z,12Z,15Z-octatrienoyl)-3-O-{\beta}-D-galactopyranosyl$ glycerol, $2(R)-1-O-octadecanoyl-2-O-(9Z,12Z,15Z-octatrienoyl)-3-O-{\beta}-D-galactopyranosyl$ glycerol, and $3{\beta}-hydroxylup-20(29)-ene$ acetate, respectively. Compound 2 (1mg/kg p.o.) has approximately 16% hypoglycemic activity in streptozotocin-induced diabetic rats.

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한국인삼론(韓國人蔘論) (Current Status of Korean Ginseng Research)

  • 한병훈
    • 생약학회지
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    • 제3권3호
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    • pp.151-160
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    • 1972
  • Recent achievements of scientific research on the pharmacologic activities and the chemical problems of dammalene glycosides, which are considered to be effective principles of Korean ginseng, are reviewed and analyzed in view of structure-activity relationship. 1) S. Shibata and his co-workers detected 12 glycoside spots of dammalene series on the two dimensional T.L.C. of total glycoside fraction from Japanese ginseng, and designated them Ginsenoside Rx(x=a, b, c, g, h, etc.) in the order of increasing Rf-value. The aglycones of those glycosides were characterized to be protopanaxadiol for the Ginsenoside $Rx(x=a,\;b_{1},\;b_{2},\;c,\;d,\;e,\;f)$ and protopanaxatriol for the Ginsenoside $Rx(x=g_{1},\;g_{2},\;g_{3},\;h_{1}\;'h_{2})$. Using Korean ginseng as the material for our study, the author and his coworkers isolated a new dammalene glycoside(Panax Saponin C), which comes under the category of protopanaxadiol glycosides based on the classification of S. Shibata et al., and characterized this saponin to be the glycoside of protopanaxatriol series. Furthermore, Panax Saponin C dissociated into $two\;components(C_{1}\;and\;C_{2}-acetate)$ by acetylation, both of which returned to original Panax Saponin C by deacetylation. Based on this result, more than 13 glycoside components of dammalene series will be expected in the Korean ginseng. 2) The structures of protopanaxadiol and protopanaxatriol, the genuine aglycones of dammalene glycosides, are fully established to be structural analogues by S. Shibata and his co-workers, therefore antagonistic and/or analogical activities will be expected for the pharmacologic activities of these glycoside series of structural analogues. K. Takaki and his co-workers found central nervous system (CNS) stimmulant activity from the glycosides of protopanaxatriol series and CNS-depressant activity from the glycosides of protopanaxadiol series. On the other hand, the author and his co-workers found stimmulating activity on the protein synthesis from both the series of dammalene glycosides with delayed and long-lasting characteristics. This delayed and long-lasting characteristics were also observed in the anti-inflammatory activity of glycosides of protopanaxatriol series on their time course tendency. For the convenience's sake of argument, pluralistic pharmacologic activities of dammalene glycosides, which were observed by many workers at various pharmacologic site, may be classified into two main categories; one is pan-cellular activity and the other is organ specific activity to the certain tissue which is a mass of cells differentiated to a certain direction for their special functions in the body. Based on the data of K. Takaki and those of the authors, following assumption will be probable; Pharmacologic activities of both series of glycosides of protopanaxadiol and protopanaxatriol aglycones may be antagonistic on their tissue-specific activities and analogic on their pan-cellular activities. Therefore, the mixture of these two series of glycosides in an appropriate ratio, as the case of total extract of Korean ginseng, will be probably beneficial to the host by increasing the synthesis of some functional proteins, due to the additive action of pan-cellular activity, and with the disappearance of any significant behavioral symptoms due to the antagonism of tissue specific activity. This fact will probably be the main reason why classical trials of pharmacologists failed in re-discovering the efficacy of Korean ginseng with their behavioral test. 3) The author and his co-workers achieved the synthesis of $C^{14}-labelled\;Panax\;Saponin\;A\;on\;C_{25}-C_{27}\;position\;of\;aglycone$ in the interest of tracer studies in vivo. The method will be applicable to other dammalene glycosides regardless of their chemical structure. 4) The author and his co-workers converted chemically betulafolienetriol, a triterpene component of Betula platyphylla, to the protopanaxadiol, one of genuine aglycone of dammalene glycosides.

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