Journal of Nutrition and Health

  • 제40권2호
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  • Pages.138-146
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  • 2007
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  • 2288-3886(pISSN)
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  • 2288-3959(eISSN)
한국영양학회 (The Korean Nutrition Society)
권호 표지

대두 함유 방사선 조사식이를 섭취한 Mouse의 산화적 스트레스

Oxidative Stress of Mouse Fed with ${\gamma}$-Irradiated Soybean Diet

  • 박선영 (충남대학교 생활과학대학 식품영양학과) ;
  • 서대영 (충남대학교 생활과학대학 식품영양학과) ;
  • 서광선 (충남대학교 의과대학 병리학교실) ;
  • 이선영 (충남대학교 생활과학대학 식품영양학과)
  • Park, Sun-Young (Department of Food and Nutrition, Chungnam National University) ;
  • Seo, Dae-Young (Department of Food and Nutrition, Chungnam National University) ;
  • Suh, Kwang-Sun (Department of Pathology, Chungnam National University, School of Medicine) ;
  • Ly, Sun-Yung (Department of Food and Nutrition, Chungnam National University)
  • 발행 : 2007.03.31
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초록

Food irradiation has been steadily increased in many countries concomitantly with increasing international trades. Harmful contaminants naturally occurred from foods which contain high levels of unsaturated fatty acids that are easily oxidized can affect the human anti-oxidation system through the generation of free radicals. Moreover, previous studies proved that ${\gamma}$-irradiation may cause production of free radicals in food. We investigated the effect of ${\gamma}$-irradiated soybeans in relation to oxidative stress in mice. Oxidative index of mice was evaluated by TBARS, DNA fragmentation in various organs such as blood lymphocytes, liver and kidney. Forty male ICR mice were equally divided into 4 groups and fed control diet or ${\gamma}$-irradiated diet containing 50% soybeans (5, 10, and 20 kGy, respectively) for 8 weeks. Peroxide values of the irradiated diets were higher than that of the non-irradiated one and increased according to the storage period. There was no significant difference in weight gain as well as in TBARS value in plasma and kidney of all groups. Liver TBARS value of the group fed with irradiated diet at 20 kGy increased significantly compared with the control group (p < 0.05). DNA oxidative damage as measured by alkaline comet assay showed that % tail DNA in the blood lymphocytes of 5 kGy and 10 kGy groups increased significantly over the control group (p < 0.05). Also, tail moments of 5 kGy and 10 kGy groups were higher than that of the control group. Ultrastructural examination shows myeline figures and swollen mitochondria in parietal and intestinal epithelial cells of the group fed with irradiated diet. Therefore, considering unsaturated fatty acid content, consumption of soybeans ${\gamma}$-irradiated with over 20 kGy or repeatedly may decrease the body's antioxidant mechanism.

키워드

참고문헌

  1. ICGFI, Facts about food irradiation, International Consultative Group on Food Irradiation, Vienna, 1991
  2. WHO, Wholesomeness of Irradiated Food, WHO Technical Report Series, 604, Geneva, 1977
  3. FCA, Irradiation in the production, processing, and handling of food, Federal register, 51, 13376, 1986
  4. Mukai FH, Goldstein BD. Mutagenicity of malonaldehyde, a decomposition product of peroxidized polyunsaturated fatty acids. Science 191: 868-869, 1976 https://doi.org/10.1126/science.766187
  5. Rose CS, Gyorgy P. Specificity of hemolytic reaction in vitamin E-deficient erythrocytes. Amer J Physiol 168: 414-420, 1952
  6. Raltech Scientific Services, A chronic toxicity, oncogenicity, and multigeneration reproductive study using CD-1 mice to evaluate frozen, thermally sterilized, cobalt-60 irradiated, and 10MeV electron irradiated chicken meat, Final Report Contract DAMD-17- 76-C-6047, NTIS Order Number PB84-187012, 1983
  7. Takagawa A, Danbara H, Ohyama Y. Gamma ray irraidation to semi-purified diet-peroxide formation and its effects on chicks. Jap J Zootech Sci 47: 292-302, 1976
  8. Nadudvari I. Experience of radiation treatment of laboratory and farm animal feeds in Hungary. In: Decontamination of Animal Feeds by Irradiation, Proceedings of an FAO/IAEA Advisory Group Meeting, pp.33-41, International Atomic Energy Agency, Vienna, 1977
  9. Joner PE, Underdal B, Lunde G. Mutagenecity testing of irradiated cod fillets. Lebensm Wiss & Technol 11: 224-226, 1978
  10. Read MS, Kraybill HF, Worth W, Thompson SW, ISAAC GJ. Successive generation rat feeding studies with a composite diet of gamma-irradiated foods. Toxicol Appl Pharm 3: 153-173, 1962 https://doi.org/10.1016/S0041-008X(61)80002-1
  11. Phillips AW, Newcomb HR, Shanklin D. Long-term rat feeding studies-irradiated chicken stew and cabbage. US Army Contract DA-49-007-MD- 783, 1961
  12. Malhotra OP, Reber EF, Norton HW. Effect of methionine and vitamin $K_3$ on hemorrhages induced by feeding a ration containing irradiated beef. Toxicol Appl Pharm 7: 402-408, 1965 https://doi.org/10.1016/0041-008X(65)90141-9
  13. Olson DG. Irradiation processing, In: Murano EA, ed. Food Irradiation- A sourcebook, pp.3-27, Iowa State University Press, Ames, 1995
  14. Yi SD, Yang JS. Thermoluminescence of mineral separated from imported sesame and perilla seeds treated with ionizing radiation. Food Sci Biotechnol 10: 231-235, 2001
  15. Byun M, Lee J. Application of irradiation technology for food safety and security. Food Science and Industry 36: 25-41, 2003
  16. Yagi K, Nishigaki I, Ohama H. Measurement of serum TBA value. Vitamins(Jpn) 37: 105-112, 1968
  17. Seo DY, Park SY, Kang MH, Suh KS, Ly SY. Oxidative stress of mouse fed irradiated diet containing high unsaturated fatty acid. Korean J Nutrition 39(7): 599-609, 2006
  18. Lee JW. Development and application of a new 2-thiobarbituric acid assay detection serum lipid peroxide value. Ph. D. Dissertation, Graduate School of Seoul National University, 1985
  19. Jang HH, Kang MH, Yang JS, Ly SY. Plasma, tissue thiobarbituric acid reactive substance and lympocyte oxidative DNA damage in mouse fed gamma irradiated diet. Korean J Nutrition 36(3): 255-261, 2003
  20. Singh NP, McCoy MT, Tice RR, Schneider EL. A simple technique for quantitaion of low levels of DNA damage in individual cells. Exp Cell Res 175: 184-191, 1988 https://doi.org/10.1016/0014-4827(88)90265-0
  21. Sasaki YF, Kawaguchi S, Kamaya A, Ohshita M, Kabasawa K, Iwama K, Taniguchi K, Tsuda S. The comet assay with 8 mouse organs: results with 39 currently used food additives. Mutation Reserach 519: 103-119, 2002 https://doi.org/10.1016/S1383-5718(02)00128-6
  22. Vasquez M, Tice RR. Detecting genotoxic activity against high molecular weight DNA using the alkaline single cell gel (SCG) assay. Environ Mol Mutagen 29: S28-53, 1997 https://doi.org/10.1002/(SICI)1098-2280(1997)29:1<28::AID-EM4>3.0.CO;2-9
  23. Eggum Bo. Effect of radiation treatment on protein quality and vitamin content of animal feeds. In: Decontamination of Animal Feeds by Irradiation, Proceedings of an FAO/IAEA Advisory Group Meeting, pp.55-67, International Atomic Energy Agency, Vienna, 1979
  24. Scott MT. Advances in our understanding of vitamin E. Fed Proc 39: 2736-2739, 1980
  25. Halliwell B. Free radicals in biology and medicine, 2nd ed, pp.20-21, Clarendon, Oxford, 1989
  26. Thayer DW. Food irradiation. Benefits and concerns. J Food Qual 13: 147-169, 1990 https://doi.org/10.1111/j.1745-4557.1990.tb00014.x
  27. Wills ED. Studies of lipid peroxide formation in irradiated synthetic diets and the effects of storage after irradiation. Int J Radiat Biol 37: 383-401, 1980 https://doi.org/10.1080/09553008014550471
  28. Ostling O, Johanson KJ. Microelectrophoretic study of radiationinduced DNA damages in individual mammalian cells. Biochem Biophys Res Commun 123: 291-298, 1984 https://doi.org/10.1016/0006-291X(84)90411-X
  29. Sasaki YF, Kawaguchi S, Kamaya A, Ohshita M, Kabasawa K, Iwama K, Taniguchi K, Tsuda S. The comet assay with 8 mouse organs: results with 39 currently used food additives. Mutation Res 26(1): 103-119, 2002
  30. Sasaki YF, Sekihashi K, Izumiyama F, Nishidate E, Saga A, Ishida K, Tsuda S. The comet assay with multiple mouse organs; comparison of comet assay results and carcinogenecity with 208 chemicals selected from the IARC monographs and US NTP carcinogenicity database. Crit Rev Toxicol 30: 629-799, 2000 https://doi.org/10.1080/10408440008951123
  31. Sarraf CE, Bowen ID. Proportions of mitotic and apoptotic cells in a range of untreated experimental tumors. Cell Tissue Kinet 21: 45-49, 1988