The Composition and Bioactivities of Ganoderan by Mycelial Fractionation of Ganoderma lucidum IY009

영지 IY009 균사체의 분획에 따라 추출된 ganoderan의 조성과 생리적 활성

  • 한만덕 (순천향대학교 생물학과) ;
  • 정훈 (일양약품 중앙연구소 생물공학연구실) ;
  • 이준우 (일양약품 중앙연구소 생물공학연구실) ;
  • 백성진 (일양약품 중앙연구소 생물공학연구실) ;
  • 김수웅 (일양약품 중앙연구소 생물공학연구실) ;
  • 윤경하 (순천향대학교 생물학과)
  • Published : 1995.12.30

Abstract

Ganoderan, an immunomodulating ${\beta}-glucan$ of G. lucidum, induces potent antitumor immunity in tumor-bearing mice. The present study was set up to elucidate the chemical composition and bioactivities of ganoderan obtained from the mycelial fractionation of G. lucidum IY009. Ganoderan was isolated and purified from its extracellular, cell wall and cytoplasmic sources. These ganoderans were composed mainly of glucose. The cell wall-alkali soluble-water soluble fraction (CW-AS-WS) showed the highest antitumor activity (inhibition rate of 94%) in sarcoma-bearing mice and 37% of anticomplementary activity. The CW-AS-WS fraction was found to be approximately average 20,000 dalton in aq. 0.3N NaOH solution and composed of 88% carbohydrate and 4% protein. The carbohydrate of the CW-AS-WS was composed of 74% glucose. These results indicate that the ganoderans extracted from the mycelial fractionations of G. lucidum IY009 had different chemical characteristics and showed different potentiality in antitumor and anticomplementary activity.

영지의 균사체를 분획화하여 ${\beta}-glucan$성 다당류인 ganoderan을 분리한 결과, 12%의 균체외성, 13%의 세포질성, 그리고 75%의 세포벽성 분획으로 각각 수획되었다. 각각의 분획들은 추출 부위와는 상관없이 포도당을 가장 많이 포함하고 있었으며, ${\beta}-glucan$의 특정을 지닌 다당류이었다. Ganoderan의 구성당 및 구성 아미노산은 균사체 추출부위에 따라 상이한 비율을 나타내었다. 이들의 생리적 활성을 검색한 결과, 항 보체 활성은 균체외성이며 수용성인 EXO-WS 분획이 38%로 가장 우수하였으며, 세포벽에서 추출한 알칼리 가용성이며 수용성인 CW-AS-WS 분획이 37%를 나타내었다. 항암활성은 CW-AS-WS 분획이 가장 우수하였으며 94%의 종양 억제율을 보였다. CW-AS-WS 는 평균 분자량 20kD로 80% 의 포도당으로 이루어진 ${\beta}-glucan$성 다당류이다.

Keywords

References

  1. FEMS Microbiol. Lett. v.49 Initiation of glucan synthesis in yeast Anduluz, E.;Ridruejo, J.C.;Ramirez, M.;Ruiz-Herrera, J.;Larriba, G.
  2. Methods Biochem. Anal. v.3 Use of infrared analysis in the determination of carbohydrate structure Baker, S.A.;Bourne, E.J.;Whiffen, D.H.
  3. Fungal wall and hyphal growth Burnett, J.H.;Trinci, A.P.J.
  4. Carbohydrate Res. v.22 Structure of a ${\beta}$-D-glucan rom the mycelial wall of Basidiomycetes QM 806 Bush, D.A.;Horisberger, M.
  5. Carbohydreate analysis: a practical approach Chaplin, M.F.;Kennedy, J.F.
  6. J. Gen. Microbiol. v.76 Release of protoplasts from Schizophyllum commune by combined action of purified ${\alpha}$-1,3-glucanase and chitinase derived from Trichoderma viride De Vries, O.M.H.;Wessels, J.G.H.
  7. Planta Medica. v.55 Polysaccharides in Pharmacy: Current applications and future concepts Franz, G.
  8. J. Soonchunhyang Univ. v.15 no.3 On the mycelial production of G. lucidum. Han, M.D.;Lee, K.H.;Yoon, K.H.
  9. J. Gen. Microbiol. v.62 The ultrastructural architecture of the walls of some hyphal fungi Hunsley, D.;Burnett, J.H.
  10. Biochem. Biophys. Res. Commun. v.101 Gelation of Limulus amebocyte by antitumor $(1{\to}3)-{\beta}$-D-glucan Kakinuma, A.;Asano, T.;Torii, H.;Sugino, N.
  11. Kor. J. Pharmacogn. v.24 Studies on constituents of higher fungi of Korea(L X V III). Antitumor components of the cultured mycelia of Ganoderma lucidum Kim, B.K.;Cho, H.Y.;Kim, J.S.;Kim, H.W.;Choi, E.C.
  12. J. Gen. Microbiol. v.92 Chemistry and architecture of the mycelial wall Agaricus bisporus Michalenko, G.O.;Hohl, H.R.;Dorarast
  13. FEMS Microbiol. Lett. v.41 Linkages between glucosaminoglycan and glucan determine alkali-insolubility of the glucans in walls of Saccharomyces cerevisiae Moll, P.C.;Wessels, J.G.H.
  14. Sabouradia. v.15 Control of extracellular slime accumulationin monokaryons and resultant dikaryons of Schizophyllum commune Neiderpruem, D.J.;Marshall, C.;Speth, J.L.
  15. J. Biochem. v.90 Structure of the alkaliinsoluble skeletal glucan of Lentinus edodes Shida, M.;Ushioda, Y.;Nakajima, T.;Matsuma, K.
  16. Japan. J. Pharmacol. v.33 Screening of host-mediated antitumor polysaccharides by crossed immunoelectrophoresis using fresh human serum Shimura, K.;Ito, H.;Hibasani, H.
  17. Can. J. Miceobiol. v.54 Studies on the cell wall of Schizophyllum commune. Permethylation and enzymatic hydrolysis Siehr, D.J.
  18. J. Microbiol. v.102 The effect of carbon dioxide on fruiting and on the degradation of a cell-wall glucan in Schizophyllum commune Sieta, J.H.;Rast, D.;Wessels, J.G.H.
  19. Anal. Biochem. v.150 Measurement of protein using bicinchoninic acid Smith, P.K.;Krohn, R.L.;Hermanson, G.T.;Mallia, A.K.;Gartner, F.H.;Provenzano, M.D.;Fujimoto, E.K.;Goeke, N.M.;Olson, B.J.;Klenk, D.C.
  20. J. Bacteriol. v.98 Biochemistry of sexual morphogenesis in Schizophyllum commune: Effect of mutation affecting the incompatibility system on cell-wall metabolism Wessels, J.G.H.
  21. 한국생화학학회지 v.14 한국산 담자균류의 항암성분에 관한 연구-만년버섯의 균사배양 및 항암성분 강창율;심미자;최응칠;이영남;김병각
  22. 한국균학회지 v.23 Ganoderma lucidum IY009 균사체로부터 추출된 ganoderan의 항암 및 항보체 활성에 미치는 탄소원의 영향 한만덕;이준우;정훈;정성균;이승룡;윤경하
  23. 버섯의 化學.生化學 水野卓;川合正允