Journal of Applied Biological Chemistry

The Korean Society for Applied Biological Chemistry (한국응용생명화학회)
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Anti-oxidative and anti-proliferative activities of acetone extract of the cortex of Ulmus pumila L.

유근피 아세톤 추출물의 항산화 및 암세포 증식억제 활성

  • In, Man-Jin (Department of Human Nutrition and Food Science, Chungwoon University) ;
  • Kim, Dong Chung (Department of Integrated Materials Engineering, Chungwoon University)
  • Received : 2016.02.11
  • Accepted : 2016.03.12
  • Published : 2016.06.30
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Abstract

An acetone extract in the cortex of Ulmus pumila L. was prepared to evaluate its anti-oxidative and anti-proliferative activities. The free radical scavenging activity ($EC_{50}=36.7{\mu}g/mL$) and reducing power ($EC_{50}=53.2{\mu}g/mL$) proportionally increased according to the extract concentration. The acetone extract possessed a potent anti-proliferative activity against human non-small cell lung cancer (A549, $GI_{50}=74.3{\mu}g/mL$) and human colon cancer (SNU-C4, $GI_{50}=92.8{\mu}g/mL$) cells in a dose-dependent manner, but was less effective with human normal cells (L132, human embryonic lung epithelial cell).

유근피 아세톤 추출물의 항산화 및 암세포 증식억제 활성을 확인하였다. 유근피 아세톤 추출물의 농도에 비례하여 유리라디칼 소거활성($EC_{50}=36.7{\mu}g/mL$)과 환원력($EC_{50}=53.2{\mu}g/mL$)이 증가하였다. 유근피 아세톤 추출물은 정상 세포인 인체 배아 폐상피세포(L132)에는 독성이 낮으면서 농도에 비례하여 인체 폐암세포(A549, $GI_{50}=74.3{\mu}g/mL$)와 대장암세포(SNU-C4, $GI_{50}=92.8{\mu}g/mL$)의 증식을 효과적으로 억제하였다.

Keywords

References

  1. Amin A, Yazdnparast R (2007) Antioxidant and free radical scavenging potential of Achillea santolina extracts. Food Chem 104: 21-29 https://doi.org/10.1016/j.foodchem.2006.10.066
  2. Blois MS (1958) Antioxidant determination by the use of a stable free radical. Nature 181: 1199-1200 https://doi.org/10.1038/1811199a0
  3. Choi KJ, Kim MW, Hong SK, Kim DH (1983) Effect of solvents on the yield, brown color intensity, UV absorbance, reducing and antioxidant activities of extracts from white and red ginseng. J Korean Agric Chem Soc 26: 8-18
  4. Folin O, Denis W (1912) On phosphotungstic-phosphomolybdic compounds as color reagents. J Biol Chem 12: 239-243
  5. In MJ, Chae HJ, Kim DC (2014) In vitro antioxidant and anticancer potential of n-hexane extract from ginseng marc. J Appl Biol Chem 57: 247-250 https://doi.org/10.3839/jabc.2014.039
  6. Itano N, Atsumi F, Sawai T, Yamada Y, Miyaishi O, Senga T, Hamaguchi M, Kimata K (2002) Abnormal accumulation of hyaluronan matrix diminishes contact inhibition of cell growth and promotes cell migration. Proc Natl Acad Sci USA 99: 3609-3614 https://doi.org/10.1073/pnas.052026799
  7. Jeong KY, Kim ML (2012) Physiological activities of Ulmus pumila L. extracts. Korean J Food Preserv 19: 104-109 https://doi.org/10.11002/kjfp.2012.19.1.104
  8. Jun HI, Kim YA, Kim YS (2014) Antioxidant activities of Rubus coreanus Miquel and Morus alba L. fruits. Korean Soc Food Sci Nutr 43: 381-388 https://doi.org/10.3746/jkfn.2014.43.3.381
  9. Jung MJ, Heo SI, Wang MH (2008) Free radical scavenging and total phenolic contents from methanolic extracts of Ulmus davidiana. Food Chem 108: 482-487 https://doi.org/10.1016/j.foodchem.2007.10.081
  10. Kim C, In MJ, Kim DC (2015a) In vitro antioxidant activity of ethanol extract from Boehmeria nivea L. leaves. Food Eng Prog 19: 76-81 https://doi.org/10.13050/foodengprog.2015.19.1.76
  11. Kim DC, Kim C, In MJ (2015b) Antioxidant activities of extracts prepared from sweet potatoes with different flesh colors. J Appl Biol Chem 58: 21-24 https://doi.org/10.3839/jabc.2015.005
  12. Kim HS, Cho JH, Lee JM, Lee CH, Jang JB, Lee KS (2010) Experimental studies on antimetastatic and immunomodulating effects of Ulmus davidiana. J Orient Obstet Gynecol 23: 1-11
  13. Kim JM, Cho ML, Seo KE, Kim YS, Jung TD, Kim YH, Kim DB, Shin GH, Oh JW, Lee JS, Lee JH, Kim JY, Lee DW, Lee OH (2015c) Effect of extraction conditions on in vitro antioxidant activities of root bark extract from Ulmus pumila L.. J Korean Soc Food Sci Nutr 44: 1172-1179 https://doi.org/10.3746/jkfn.2015.44.8.1172
  14. Lamoral-Theys D, Pottier L, Dufrasne F, Neve J, Dubois J, Kornienko A, Kiss R, Ingrassia L (2010) Natural polyphenols that display anticancer properties through inhibition of kinase activity. Curr Med Chem 17: 812-825 https://doi.org/10.2174/092986710790712183
  15. Lee EH, Park CW, Jung YJ (2013) Anti-inflammatory and immune-modulating effect of Ulmus davidiana var. japonica Nakai extract on a macrophage cell line and immune cells in the mouse small intestine. J Ethnopharmacol 146: 608-613 https://doi.org/10.1016/j.jep.2013.01.035
  16. Lee MK, Kim YC (2001) Five novel neuroprotective triterpene esters of Ulmus davidiana var. japonica. J Nat Prod 64: 328-331 https://doi.org/10.1021/np0004799
  17. Lee SD, Yoo G, Chae HJ, In MJ, Oh NS, Hwang YK, Hwang WI, Kim DC (2009) Lipid-soluble extracts as the main source of anticancer activity in ginseng and ginseng marc. J Am Oil Chem Soc 86: 1065-1071 https://doi.org/10.1007/s11746-009-1460-x
  18. Lee SH, Jin YS, Heo SI, Shim TH, Sa JH, Choi DS, Wang MH (2006) Composition analysis and antioxidative activity from different organs of Cirsium setidens Nakai. Korean J Food Sci Technol 38: 571-576
  19. Lee YM, Bae JH, Jung HY, Kim JH, Park SD (2011) Antioxidant activity in water and methanol extracts from Korean edible wild plants. J Korean Soc Food Sci Nutr 40: 29-36 https://doi.org/10.3746/jkfn.2011.40.1.029
  20. Lee YR, Woo KS, Hwang IG, Kim HY, Lee SH, Lee J, Jung HS (2012) Physicochemical properties and antioxidant activities of garlic (Allium sativum L.) with different heat and pressure treatments. J Korean Soc Food Sci Nutr 41: 278-282 https://doi.org/10.3746/jkfn.2012.41.2.278
  21. Li M, Jang GY, Lee SH, Woo KS, Sin HM, Kim HS, Lee J, Jeong HS (2012) Chemical compositions and antioxidant activities of leaves and stalks from different sweet potato cultivars. J Korean Soc Food Sci Nutr 41: 1656-1662 https://doi.org/10.3746/jkfn.2012.41.12.1656
  22. Lim YS (2010) Antioxidant effects of Ulmus davidiana extracts on various oil. Korean J Food Preserv 17: 107-116
  23. Matsuzaki T, Nara Y (1985) Antioxidative of tea leaf catechins. Nippon Nogeikaga Kogyo Kaishi 59: 129-134 https://doi.org/10.1271/nogeikagaku1924.59.129
  24. Nho JW, Hwang IG, Kim HY, Lee YR, Woo KS, Hwang BY, Chang SJ, Lee J, Jeong HS (2010) Free radical scavenging, angiotensin I-converting enzyme (ACE) inhibitory, and in vitro anticancer activities of ramie (Boehmeria nivea) leaves extracts. Food Sci Biotechnol 19: 383-90 https://doi.org/10.1007/s10068-010-0054-6
  25. Oyaizu M (1985) Studies on products of browning reaction: antioxidant activities of products of browning reaction prepared from glucosamine. Jap J Nutr 44: 307-15
  26. Shoemaker M, Hamilton B, Dairkee SH, Cohen I, Campbell MJ (2005) In vitro anticancer activity of twelve Chinese medicinal herbs. Phytother Res 19: 649-651 https://doi.org/10.1002/ptr.1702
  27. Son BH, Park JH, Zee OP (1989) Catechin glycoside from Ulmus davidiana. Arch Pharm 21: 217-222
  28. Weng JR, Tsai CH, Kulp SK, Chen CS (2008) Indole-3-carbinol as a chemopreventive and anti-cancer agent. Cancer Lett 262: 153 https://doi.org/10.1016/j.canlet.2008.01.033
  29. Yang SJ, Cho SH, Cho SI, Na WM (2007) Anti-proliferative effect of Ulmi pumilae cortex extracts on MCF-7 cells. J Orient Obstet Gynecol 20: 35-44
  30. Yang YM, Hyun JW, Lim KH, Sung MS, Kang SS, Paik WH, Bae KW, Cho H, Kim HJ, Woo ER, Park H, Park JG (1996) Antineoplastic effect of extracts from traditional medical plants and various plants (III). Korean J Pharmacogn 27: 105-110
  31. Yen GC, Chen HY (1995) Antioxidant activity of various tea extracts in relation to their antimutagenicity. J Agric Food Chem 43: 27-32 https://doi.org/10.1021/jf00049a007

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