Effect of Germinated Seed of Rhynchosia Volubilis on Cathepsin-K in Ovariectomized Rats

발아(發芽)한 서목태(鼠目太)가 난소적출 흰쥐의 Cathepsin-K에 미치는 영향

  • Jung, Ho-Long (Department of Oriental Rehabilitaion Medicine, College of Oriental Medicine, Sang-ji University) ;
  • Lee, Eung-Se (Department of Oriental Rehabilitaion Medicine, College of Oriental Medicine, Sang-ji University) ;
  • Cha, Yun-Yeop (Department of Oriental Rehabilitaion Medicine, College of Oriental Medicine, Sang-ji University)
  • 정호롱 (상지대학교 한의과대학 한방재활의학과교실) ;
  • 이응세 (상지대학교 한의과대학 한방재활의학과교실) ;
  • 차윤엽 (상지대학교 한의과대학 한방재활의학과교실)
  • Published : 2005.02.25

Abstract

The aim of this study is to find out what inhibition effects the Germinated Seed of Rhynchosia Volubilis(GSRV) has by its feeding period on the bone absorption in ovariectomized white rats. Close examination of the amounts of the Cathepsin-K in the rats by the groups of one, two and three-day germination periods led to the following conclusions. Feeding non-ovariectomized white rats with GSRV by the groups of one, two and three-day germination periods showed less amounts of Cathepsin-K in their proximal tibia in all the feeding periods of two, three and four weeks than in the case of control group, revealing a statistical significance. Feeding ovariectomized white rats with GSRV by the groups of one, two and three-day germination periods showed less amounts of Cathepsin-K in their proximal tibia in all the feeding periods of two, three and four weeks than in the case of the control group, revealing a statistical significance. Therefore, the Germinated Seed of Rhynchosia Volubilis(GSRV) is believed to have inhibition effects on bone resorption.

Keywords

References

  1. 노상권. 백서에서 난소 적출술로 유발한 골다공증에 대한 Estradiol의 투여시기에 따른 효과, 서울대학교 대학원. 석사학위 논문. 1995.
  2. 김기수. 골다공증. 서울. 도서출판 여성신문사. pp. 10, 37, 127-128, 1998.
  3. Rossouw JE, Anderson GL, Perntic RL, LaCroix AZ, Kooerberg C, Stefanick ML et al.. Risks and benefits of estrogen plus progestin in healty postmenopausal women : principal result from the Woman's Health Initiative randomized controlled trial, JAMA 288(3):321-33, 2002.
  4. Cassidy A. Physiological effects of phyto-oestrogens in relation to cancer and other human health risks. Proc Nutr Soc. 55:399-417, 1996. https://doi.org/10.1079/PNS19960038
  5. 김민정. 한국에서 섭취되는 콩 및 가공식품의 이소플라본 및 쿠메스트롤 정량과 섭취량 측정. 서울대하교대학원. 석사학위논문. 22,25,28, 58, 2001.
  6. 조경희. MG-63 조골세포에서 약콩과 대두 추출물의 천연 에스트로겐 효과 비교 및 기전 연구. 경희대학교 동서의학대학원. 박사학위논문. 2002.
  7. Aminah A., Ruth E.B., Marison F and Arthur L.K. Sensory attributes and safe aspects of germinatred small seeded soybeans and mungheans. J Food Protec. 47:434, 1984.
  8. 신동화, 최웅. 콩나물 재배방법에 따른 생장 특성 비교. Korean. Food SCI Technol. 28(2):240-245, 1996.
  9. 盧心宇. 辨證治療老年性骨質疏松症229例. 福建中醫學院. 4(1):25-26, 1994.
  10. 吳建華,趙光. 中醫藥治療骨質租松症硏究發展. 中醫正骨. 8(1): 30-31, 1996.
  11. 陸萬仁. 中藥內服外數治療骨租松症228例治療觀察.實用中醫藥雜誌. 3:17,20, 1995.
  12. 신동화, 최웅. 콩나물 재배방법에 따른 생장 특성 비교. Korean. Food SCI Technol. 28(2):240-24, 1996.
  13. 楊維傑編. 皇帝內經解釋(素問). 서울. 성보사. pp. 52,133,210,269,330,338,340,399, 1980.
  14. 이정택. 當歸地黃飮인 卵巢 적출 白鼠의 骨多孔症에 미치는 영향. 원광대학교 대학원. 박사학위논문. 2002.
  15. 金炯均, 柳志允, 李彦政. 賢主骨에 관한 東西醫學的 考察. 대한한방내과학회지 12(2):26-29, 1991.
  16. 李應世. 金惠慶. 骨多孔症의 東醫學的 임상문헌에 대한 고찰. 한방재활의학회지. 7(1):437-456, 1997.
  17. 楊維傑 編. 黃帝內經解釋(靈椎). 서울. 成輔社 pp. 104, 1980.
  18. Riggs BL. The mechanisms of estrogen of bone resorption. J Clin Inest. 106:1203-4, 2001.
  19. Linsay R, Tohme J. Estrogen treatment of patients with established postmenopausal osteoporosis. Obestet Gynecol. 76:290-296, 1990.
  20. 정성수. 흰쥐에서 난소 적출 술로 유발한 골다공증에 대한 Dehydroe-piandrosterone의 효과. 서울대학교 대학원. 석사학위 논문. 1995.
  21. Hahn TJ. Steroid and Drug-induced osteoporosis; In Favus MJ(ed). Primer on the metabolic bone disease and disorders of mineral metabolism. Raven Press. New York., pp. 250, 1993.
  22. Eriksen EF, Colvard DS, Berg NJ, et al., Evidence of Estrogen receptor in Normal Human Osteoblast -Like Cell. Science. 241:84-86, 1998.
  23. Marie PJ. Human osteoblastic cell. A potential tool to assess the etiology of pathologic bone formation. J. Bone Miner. Res., 9:1847, 1994.
  24. Notoya K, Yoshida K, Tsukuda R et a., Effect of ipriflavone on expression of the osteoblast phenotype in rat bone marrow stromal cell cuture. J, Bone Miner. Res 9:395-400, 1994.
  25. The Writing Group For The PEPI Trial. Effects of hormons Therapy on bone mineral density: results from the postmenopausal estrogen/progestin interventions (PEPI) trial, J. AM, MED, ASSOC. 276:1389-1396, 1996. https://doi.org/10.1001/jama.276.17.1389
  26. Murrills RJ, Shane E, Lindsay R et al: Bone resorption by isolated human soteoclasts in vitro. Effcts of calcitonin, J, Bone Miner, Res 4:259-68, 1989.
  27. Adache JD, Bensen WG, Brown J et al,. Intermittent etidronate therapy to prevent corticosteroid-induce osteoprosis, N. Engl. J. Med. 337:382-387, 1997.
  28. G.A. Rodan et al,. Emerging therapies for osteoporosis. Emerging Drugs. 5(1):1, 2000.
  29. Kinjo J, Nagao S, Tanaka GI, Okabe H. Antiproliferative constituents in the plant and seeds of Rhynchosia Volubilis, Bio Pharm Bull. Dec;24(12):1443-1445, 2001.
  30. Vimala R, Nagarajon S, Alam M, Susan T, Joy S. Antiinflammatory and antipyretic activity of Michelia champaca Lin., (white variety), lxora, Brachiata Roxb, and Rhynchosia cana(Wild)D.C flower extract. Indian J Exp Biol. Dec;35(12): 1310-4, 1997.
  31. 한국식품개발연구원. 콩 생리활성 배당체의 기능성 탐색 및 활용 연구. 농림부. 2000.
  32. Cotter A, cashman KD. Genistein appears to prevent early postmonopausal bone loss as effectively as hormone replacement therapy. Nutr Rev. Oct;61(10):346-51, 2003.
  33. 박미영. 콩 품종에 따른 Isoflavone 함량과 항산화 효과. 공주대학교 대학원. 석사학위 논문. 2002.
  34. 김주숙. 콩의 발아 및 초절임이 이소플라본에 미치는 영향. 세종대학교 대학원 박사학위논문. 2002.
  35. 김민정. 우리나라 전통 콩의 이화학적 특성과 기능성 성분에 관한 연구. 용인대학교 대학원. 석사학위 논문. 2000.
  36. Koslak R.M., Bookland, R., Bakei, J., Paaren, H. E., and Appelbaum, E. R. Induction of Bradirhizobium japonicum common nod genes by isoflavones isolated from glycine max. Proc , Natl. Acad, Sci.. 84:7428-7432, 1987.
  37. Moris, P. F., Savard, M. E., and Wad, E.W.B. Identification and accumulation of isoflavonoid and isoflavone glucosides in soybean leaves and hypecotyls in resistance responses to Phytophtora megasperma f. sp. glycinea, Physiol. Molecular Plant Pathol. 39(3):229-224, 1991.
  38. Kornberg A. Inorganic polyphosphate: A molecule of many Functions. Prog Mol Subcel Biol. 23:8-11, 1999.
  39. H.C. Schroder, L. Kurz, W.E.G Muller. and B. Lorenz. Polyphosphate in Bone. Biochem. 65(3):301, 2000.
  40. 이진용, 류동묵, 신제원. Inorganin polyphosphate promotes bone regeneration, 대한구강해부학회. 23:219-228, 1999.
  41. (주)경원메디칼. 인산칼슘(Ca-Phosphate)에 골재생(성장) 촉진물질인 인중합체를 첨가한 생체적합적인 골대체 및 재생소재 개발. 보건복지부. 1999.
  42. 심상룡. 한방식료사전. 서울. 행림출판사. pp. 102, 1976.
  43. 김창민. 신민교 등. 중약대사전. 서울. 도서출판 정담. pp.777-778, 2000.
  44. 박 철. 서목태 전탕액이 XO/HX에 의해 손상된 골아세포에 미치는 영향. 원광대학교 대학원. 박사학위논문. 2002.
  45. Ha, S.D., Kim, S.S., Park, C. S., Kim, B.M. Effect of Blanching and Germination of soybeans on the Quality of soymilk. Korean, J. food sci. technol. 23(4):485-489, 1991.
  46. Shin, S.R., Park, C.S.. Kim,J.N, Kim,K.S. Changes of Non-Cellulos Neutral Sugarsof Cell Wall in Soybean Sprouts J. Korean Soc. food Sci, Nutr. 27(6):1041-1046, 1998.
  47. Chi, H.D., Kim, S.S., Hong, H.D., Lee,J.Y. Comparison of Physicochemical and Sensory Characteristics of Soybean Sprouts from Different Dultivars J. Korean Soc. Agrie. Chem. Bidtechnol. 43(3):207-212, 2000.
  48. Aminah A., Ruth E.B., Marison F and Arthur L.K. Sensory attributes and safe aspects of germinatred small seeded soybeans and mungheans. J Food Protec. 47:434, 1984.
  49. 강병수 외10인. 본초학. 서울. 영림사. pp. 187-188, 1999.
  50. 김강성 권태영 김민정. 수박태의 발아 중 아미노산 조성 변화에 관한 연구. 용인대학교 논문집. (21): 555-563, 2003.
  51. Wang, H., Murphy, P.A. Isoflavone content in commercial soybean food, J. Agric. Food Chem, 42:1666-1673, 1994.
  52. 김영신. 수종한약재의 인중합체 함량과 골형성 관련 유전자의 활성에 대한 연구. 상지대학교 대학원. 박사학위논문. 2003.
  53. Turk, B., Turk, V. Lysosomal cysteine proteases: More than scavengers. Biochim, Biophys. Acta. 147:98-111, 1994.
  54. Li, Y.P., Alexander, M., Wucherpgennig, A.L., Yelick, P., Chen, W. and Stashenko, P. Cloning and complete coding sequence of a nevel human cathepsin expressed in giant cells of osteocalstomas. J. Bone Miner. Res. 10:1197-1202, 1994.
  55. Evers, V., Delaisse, j. M., Korper, W. and Beersen, W. Cysteine proteinases and matris metalloproteinases play distinct roles in the subosteoclastic resorption zone. J.Bone Miner. Res. 13:1420-1430, 1998.
  56. Falgueyret JP, Oballa RM, Okamoto O, Wesolowski G, Aubin Y, Rydzewski RM, Rasit P, Riendeau D, Rodan SBand Percival MD, Novel. Nonpeptidic cyanamides as potent andreversible inhibiters of human cathepsin K and L. J. Med. Chem. 44:94-104, 2001.