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http://dx.doi.org/10.5352/JLS.2006.16.6.984

The Correlativity of Ulva lactuca Fractions, LPS, Enzymatic Activity and the Evaluation of Water Fraction  

Nam, Chun-Suk (Department of Pharmaceutical Engineering, College of Medical Life Science, Silla University)
Kang, Kum-Suk (Department of Pharmaceutical Engineering, College of Medical Life Science, Silla University)
Ha, Jong-Myung (Department of Pharmaceutical Engineering, College of Medical Life Science, Silla University)
Lee, Sang-Hyeon (Department of Pharmaceutical Engineering, College of Medical Life Science, Silla University)
Lee, Jae-Hwa (Department of Pharmaceutical Engineering, College of Medical Life Science, Silla University)
Lee, Dong-Geun (Department of Pharmaceutical Engineering, College of Medical Life Science, Silla University)
Jang, Jeong-Su (Central Research Institute, Binex Co., Ltd.)
Kang, Hwan-Yul (Amaranth Cosmetics)
Ha, Bae-Jin (Department of Pharmaceutical Engineering, College of Medical Life Science, Silla University)
Publication Information
Journal of Life Science / v.16, no.6, 2006 , pp. 984-988 More about this Journal
Abstract
Lipopolysaccharide(LPS) was posttreated after the 14 day-pretreatment of Ulva lactuca fractions(ULF), and their correlativity to enzymatic activity alteration was investigated in the liver of rats. ULF was intraperitoneally administered into rats at dose of $1m{\ell}/kg$ of 100 mg/kg concentration for 14 days. On the day 15, $1m{\ell}/kg$ of LPS was injected. The corelativity was examined by measuring the changed values of superoxide dismutase(SOD) in mitochondrial fraction and catalase(CAT), glutathione peroxidase(GPx) in liver homogenate. The results showed that LPS treatment decreased the high values of SOD, CAT, GPx to the low values, but ULF pretreatment increased the low values of SOD, CAT, GPx to the high values. It was suggested that ULF, LPS and antioxidative enzymes like SOD, CAT, GPx had the corelativity of the high-low-high pattern and that the ULF pretreatment played the proper preventive role in the protection against the LPS treatment-induced enzymatic inactivity in the water fraction.
Keywords
Ulva lactuca; fraction; lipopolysaccharide; enzymatic activity;
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1 Lawrence, R. A. and R. F. Burk. 1976. Glutathione peroxidase activity in selenium-deficient rat liver. Biochem. Biophys. Res. Commun. 71, 952-958   DOI   ScienceOn
2 Nagumo, T. and T. Nishino. 1997. Fucan Sulfates and their anticogulant activities. In S. Dumitriu.(ed.), Polysaccharides in Medicinal Applications, New York-Basel-Hong Kong. PP. 545-574
3 Misra, H. P. and I. Fridovich. 1972. The role of superoxide anion in the autooxidation of epinephrine and a simple assay for superoxide dismutase. J. Biol. Chem., 247, 3170
4 Keele, B. B. Jr., J. M. McCord and I. Fridovich. 1970. superoxide dismutase from Escherichia. coli : A new manganese- containing enzyme. J. Biol. Chem., 245, 6176
5 Yosjikawa, T., M. Murakami, N. Yoshida, O. Seto and M. Kondo. 1983. Effects of superoxide dimutase and catalase on disseminated intravascular coagulation in rats. Thromb. Haemostas 50, 869-872   DOI
6 Lowry, O. H., N. J. Rosenbrough., A. S. Farr and R. J. Randall. 1951. Protein Measurenment with Folin phenol reagent. J. Biol. Chem. 193, 256-261
7 Von, Sonntag. 1987. In 'The Chemical Basis of Radiation of Biology' Tylor and Francis.(ed.). London. pp. 31
8 Enomoto N, S. Yamashina, H. Kono, et al. 1999. Development of a new, simple rat model of early alcohol- induced liver injury based on sensitization of kupffer cells. Hepatology, 29. 1680-1689   DOI
9 Trant, N. L., S. R. Meshnick, K. Kitchene, J. W. Eaton and A. Cerami. 1983. Iron-containing superoxide dismutase from Crithidia fasclata : Purification, characterization and similarity to leishmanial and trypanosoml enzymes. J. Biol. Chem., 258, 125
10 Lee, J. H and V. J. Sun. 1980. The content of minerals in algae. J. Korea Soc. Food Sci. Nutr., 9, 51-58
11 Rosen, D. R., et al. 1993. Mutations with familial amyotrophic lateral sclerosis. Nature 362, 59-62   DOI   ScienceOn
12 Charles A Janeway, 2002. Immunobiology. P. 350
13 Schaeffer, D. J. and V. S. Krylov. 2000. Anti-HIV activity of Extracts and compounds from algae and Cyanobacteria. Ecotoxicol. Environ, Safety. 45 : 208-227   DOI   ScienceOn
14 Tainer, J. A., E. D. Getzoff, J. S. Richardson. and D. C. Richardson. 1983. Structure and mechanism of Cu, Zn, superoxide dismutase. Nature 306, 274-287   DOI   ScienceOn
15 Vance, P. G. and B. B. Jr. Keele. 1972. Superoxide dismutase from Streptococcus mutans. J. Biol. Chem., 247, 4782
16 Cho, K. J., Y. S. Lee and B. IL. Ryu. 1990. Antitumor effect and immunology activity of seaweeds toward sarcoma- 180. J. Korea Fish. Soc., 23, 315-352
17 Fridovich, I. 1986. Superoxide dismutase. Adv. Enzymol., 58, 61
18 Jeong, C. S., K. W. Jung and J. S. Jeong. 1999. Hepatoprotective Effect of Subfractions of Carthamus tinctorius L. Semen on the Reversal of Biotransformation Enzyme Activities in $CCl_4-induced$ Hepatotoxic Rats. J. Fd Hyg. Safety. 14(2), 172-178
19 Dantzer, R., R. M. Bluthe, G. Gheusi, S. Cremona, S. Laye, P. Parnet and K. W. Kelley. 1998. Molecular basis of sickness behavior. Annals N. Y. Acad. Sci. 856, 132   DOI
20 Fridovich, I. 1986. Biologic effects of the superoxide radicals. Arch. Biochem. Biophysm. 247, 1-15   DOI   ScienceOn
21 Gutteridge, J. M. C., A. P. C. Beard and G. J. Quinlan. 1983. Superoxide-dependent lipid peroxidation. Problem with the use of catalase as a specific probe for Fenton-derived hydroxyl radicals. Biochem. Biophys. Res. Commun. 117, 901-907   DOI   ScienceOn
22 Halliwell, B. 1990. How to charactrize a biological antioxidant. Free Radic. Res. Commun. 9. 1   DOI
23 Lee, I. H., Y. P. Lee and Y. S. Ahn. 1986. Flora of Marine Algae in Cheju Island 1. Ulvaceae. The Korean Journal of Phycology. Vol. 1, No. 1, 157-167
24 Beauchamp, C. and I. Fridovich, 1971. Superoxide dismutase : improved assays and an assay applicable to acrylamide gel. Anal. Biochem. 44, 276-287   DOI   ScienceOn
25 Charles A Janeway, 2002. Immunobiology. P. 68
26 Jean-Luc. Bret-dibat, C. Chistophe, et al. 1997. Systemic Capsaicin Pretreatment Fails to Block the Decrease in Food-Motivated Behavior induced by Lipopolysaccharide and $Interleukin-1{\beta}$. Brain Research Bul. Vol. 42, No. 6. PP. 443-449   DOI   ScienceOn
27 Kinght, J. A. 1995. The process and theories of aging. Ann. Clin. Lab. Sci. 25, 1
28 Aebi, H. 1984. Catalase in vitro, Methods. Enzymology 105, 121-126   DOI