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Trace Elements

Metabolism and Oxidative Modifications of Lipoproteins
  • Y. Rayssiguier
  • A. Mazur
Chapter
  • 31 Downloads

Keywords

Iron Overload Oxidative Modification Copper Deficiency Lipoprotein Oxidation Plasma Cholesterol Concentration 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Allen, K.G.D. and Klevay, L.M., 1994, Copper: an antioxidant nutrient for cardiovascular health, Current Opinion of Lipidology5:22–28.CrossRefGoogle Scholar
  2. Araujo, J.A., Romano, E.L., Brito, B.E., Parthé, V., Romano, M., Bracho, M., Montano, R.F., and Cardier, J., 1995, Iron overload augments the development of atherosclerotic lesions in rabbits, Arteriosder. Thromb. Vase. Biol.15:1172–1180.CrossRefGoogle Scholar
  3. Connell, P., Young, V.M., Toborek, M., Cohen, D.A., Barve, S., McClain, C.J., and Hennig, B., 1997, Zinc attenuates tumor necrosis factor-mediated activation of transcription factors in endothelial cells, J. Am. Col. Nutr.16:411–417.CrossRefGoogle Scholar
  4. Dabbagh, A.J., Mannion, T., Lynch, S.M., and Frei, B., 1994, The effect of iron overload on rat plasma and liver oxidant status in vivo, Biochem. J.300:799–803.CrossRefGoogle Scholar
  5. DiSilvestro, R.A. and Blostein-Fujii, A., 1997, Moderate zinc deficiency in rats enhances lipoprotein oxidation in vitro, Free Radical Biology & Medicine22:739–742.CrossRefGoogle Scholar
  6. Eder, K. and Kirchgessner M., 1997, Concentrations of lipids in plasma and lipoproteins and oxidative susceptibility of low-density lipoproteins in zinc-deficient rats fed linseed oil or olive oil, J. Nutr. Biochem.8:461–468.CrossRefGoogle Scholar
  7. Faure, P., Roussel, A.M., Richard, M.J., Foulon, T., Groslambert, P., Hadjian, A., and Favier, A., 1991, Effect of an acute zinc depletion on rat lipoprotein distribution and peroxidation, Biol. Trace Elem. Res.28:135–146.CrossRefGoogle Scholar
  8. Ferns, G.A.A., Lamb, D.J., and Taylor, A., 1997, The possible role of copper ions in atherogenesis: the Blue Janus, Atherosclerosis133:139–152.CrossRefGoogle Scholar
  9. Fields, M., 1999, Role of trace elements in coronary heart disease, Br. J. Nutr.81:85–86.CrossRefGoogle Scholar
  10. Fields, M. and Lewis, C.G., 1997, Hepatic iron overload may contribute to hypertriglyceridemia and hypercholesterolemia in copper-deficient rats, 46:377–381.Google Scholar
  11. Hoogeveen, R.C.A.J.M., Reaves, S.K., and Lei, K.Y., 1995, Copper deficiency increases hepatic apolipoprotein A-I synthesis and secretion but does not alter hepatic total cellular apolipoprotein A-I mRNA abundance in rats, J. Nutr.125:2935–2944.PubMedGoogle Scholar
  12. Jackson, M.J., McArdle, A., and McArdle, F., 1998, Antioxidant micronutrients and gene expression, Proc. Nutr. Soc.57:301–305.CrossRefGoogle Scholar
  13. Jones, A.A., DiSilvestro, R.A., Coleman, M., and Wagner, T.L., 1997, Copper supplementation of adult men: effects on blood copper enzyme activities and indicators of cardiovascular disease risk, Metabolism46:1380–1383.CrossRefGoogle Scholar
  14. Kim, S., Pi Yu Chao, and Allen, K.G.D., 1992, Inhibition of elevated hepatic glutathione ablishes copper deficiency cholesterolemia, FASEB J.6:2467–2471.CrossRefGoogle Scholar
  15. Klipstein-Grobusch, K., Grobbee, D.E., Koster, J.F., Lindemans, J., Boeing, H., Hofman, A., and Witteman, J.C.M., 1999, Serum caeruloplasmin as a coronary risk factor in the elderly: the Rotterdam Study, Br. J. Nutr.81:139–144.CrossRefGoogle Scholar
  16. Kubow, S., Goyette, N., Kermasha, S., Stewert-Phillip, J., and Koski, K.G., 1996, Vitamin E inhibits fish oil-induced hyperlipemia and tissue lipid peroxidation in Hamsters, Lipids31:839–847.CrossRefGoogle Scholar
  17. Lei, K.Y., 1990, Role of copper in lipid metabolism, CRC Press, Boca Raton, Fl.Google Scholar
  18. Malpuech-Brugère, C., Nowacki, W., Rock, E., Gueux, E., Mazur, A., and Rayssiguier, Y., 1998, Enhance tumor necrosis factor α production following endotoxin challenge in rats is an early event during magnesium deficiency. Biochem. Biophys. Acta1453:35–40.Google Scholar
  19. Mazur, A., Gueux, E., Bureau, I., Feillet-Coudray, C., Rock, E., and Rayssiguier, Y., 1998, Copper deficiency and lipoprotein oxidation, Atherosclerosis137:443–445.CrossRefGoogle Scholar
  20. Mazur, A., Moundras, C., Gueux, E., Rock, A.M., Grolier, P., Chardigny, J.M., Rock, E., and Rayssiguier, Y., 1996, Selenium and vitamin E deficiencies affect plasma lipoprotein concentrations and their susceptibility to peroxidation in the rat, 9th Int. Symp. on Trace Elements in Man and Animals (TEMA-9), Banff, Alberta, Canada, May 19–24, 1996.Google Scholar
  21. Mazur, A., Nassir, F., Gueux, E., Cardot, P., Bellanger, J., Lamand, M., and Rayssiguier, Y., 1992, The effect of dietary copper on rat plasma apolipoprotein B, E plasma levels, and apolipoprotein gene expression in liver and intestine, in: Biological Trace Element Research, Volume 34, pp. 107–113, The Humana Press, Inc.CrossRefGoogle Scholar
  22. Mazur, A., Nassir, F., Gueux, E., Moundras, C., Bellanger, J., Grolier, P., Rock, E., and Rayssiguier, Y., 1996, Diets deficient in selenium and vitamin E affect plasma lipoprotein and apolipoprotein concentrations in the rat, Br. J. Nutr.76:899–907.CrossRefGoogle Scholar
  23. Motta, C., Gueux, E., Mazur, A., and Rayssiguier, Y., 1996, Lipid fluidity of triacylglycerol-rich lipoproteins isolated from copper-deficient rats, Br. J. Nutr.75:767–773.CrossRefGoogle Scholar
  24. Nassir, F., Blanchard, R.K., Mazur, A., Cousins, R.J., and Davidson, N.O., 1996, Apolipoprotein B mRNA editing is preserved in the intestine and liver of Zinc-deficient rats, J. Nutr.126:860–864.CrossRefGoogle Scholar
  25. Nassir, F., Mazur, A., Gueux, E., Sérougne, C., and Rayssiguier, Y., 1994, Apolipoprotein A-I, A-IV and E synthesis in the liver of copper-deficient rats, Lipids29:727–729.CrossRefGoogle Scholar
  26. Nassir, F., Mazur, A., Sérougne, C., Gueux, E., and Rayssiguier, Y., 1993, Hepatic apolipoprotein B synthesis in copper-deficient rats, FEBS322:33–36.CrossRefGoogle Scholar
  27. Nassir, F., Moundras, C., Bayle, D., Sérougne, C., Gueux, E., Rock, E., Rayssiguier, Y. and Mazur, A., 1997, Effect of selenium deficiency on hepatic lipid and lipoprotein metabolism in the rat, Br. J. Nutr.78:493–500.CrossRefGoogle Scholar
  28. Nelson, S.K., Ching-Jang Huang, Mathias, M.M., and Allen, K.G.D., 1992, Copper-marginal and copper-dependent superoxide dismutasse activity, and increase aortic lipid peroxidation in rats, J. Nutr.122:2101–2108.CrossRefGoogle Scholar
  29. Rayssiguier, Y., and Mazur, A., 1995, Metal ions and lipid metabolism, in: Handbook of Metal Ligand Interactions in Biological Fluids, Volume 2, pp. 858–870 (G. Berthon, ed.), Marcel Dekker, New York.Google Scholar
  30. Rayssiguier, Y., Mazur, A., Gueux, E., and Rock, E., 1996, Magnesium deficiency affects lipid metabolism and atherosclerotic process by a mechanism involving inflammation and oxidative stress, pp. 251–255, In: Current Research in Magnesium (M.J. Halpern and J. Durlach, eds), John Libbey & Company Ltd., London.Google Scholar
  31. Rayssiguier, Y., Gueux, E., Bussière, L., and Mazur, A., 1993, Copper deficiency increases the susceptibility of lipoproteins and tissues to peroxidation in rats, J. Nutr.123:1343–1348.PubMedGoogle Scholar
  32. Rayssiguier, Y., Gueux, E., Rock, E., and Mazur, A., 1996, Sucrose diet increases the cardiovascular defects of copper deficiency in rats by enhancing oxidative damage, 9th Int. Symp. on Trace Elements in Man and Animals (TEMA-9), Banff, Alberta, Canada, May 19–24, 1996.Google Scholar
  33. Rock, E., Mazur, A., Rayssiguier, Y., Kehoe, C., O’Connor, J.M., Bonham, M.P., and Strain, J.J., 1999, Effect of copper supplementation in middle aged people on plasma antiooxidants and red blood cell oxidizability: Foodcue study, TEMA 10.Google Scholar
  34. Rosenblat, M. and Aviram, M., 1998, Macrophage glutathione content and glutathione peroxidase activity are inversely related to cell-mediated oxidation of LDL: in vitro and in vivo studies, Free Rad. Biol. & Med., 24:305–317.CrossRefGoogle Scholar
  35. Ross R., 1999, Atherosclerosis—An inflammatory disease, in: Mechanisms of Disease, Volume 340 (F.H. Epstein, ed.), pp. 115–126, Massachusetts Medical Society.Google Scholar
  36. Schuschke, D.A., Saari, J.T., Miller, F.N., 1994, The role of the mast cell in acute inflammatory responses of copper-deficient rats, Agents Actions42:19–24.CrossRefGoogle Scholar
  37. Schwenke, D.C. and Behr, S.R., 1998, Vitamin E combined with selenium inhibits atherosclerosis in hypercholesterolemic rabbits independently of effects on plasma cholesterol concentrations, Circ Res. 83:366–377.CrossRefGoogle Scholar
  38. Stone, W.L., Scott, R.L., Stewart, E.M., and Kheshti, A., 1994, Lipoprotein alterations in the spontaneously hypertensive rat fed diets deficient in selenium and vitamin E, P.S.E.B.M.206:130–137.Google Scholar
  39. Strain, J.J., 1998, Trace elements and cardiovascular disease, in: Role of Trace Elements for Health Promotion and Disease Prevention, Volume 29 (B. Sandströme, P. Walter eds.), pp. 127–140, Bibl Nutr Dieta, Basel, Karger.CrossRefGoogle Scholar
  40. Tuomainen, T.P., Punnonen, K., Nyyssönen, K., and Salonen, J.T., 1998, Association between body iron stores and the risk of acute myocardial infarction in men, Circulation97:1461–1466.CrossRefGoogle Scholar
  41. Wilkins, G.M. and Leake, D.S., 1994, The oxidation of low density lipoprotein by cells or iron is inhibited by zinc, FEBS Letters341:259–262.CrossRefGoogle Scholar
  42. Willingham, A.K., Bolanos, C., Bohannan, E., and Cenedella, R.J., 1993, The effects of high levels of vitamin E on the progression of atherosclerosis in the Watanabe heritable hyperlipidemic rabbit, J. Nutr. Biochem.4:651–658.CrossRefGoogle Scholar
  43. Wu, J.Y.J., Reaves, S.K., Yi Ran Wang, Yan Wu, Lei, P.P., and Lei, K.Y., 1998, Zinc deficiency decreases plasma level and hepatic mRNA abundance of apolipoprotein A-I in rats and hamsters. Am. J. Physiol.275:C1516–C1525.CrossRefGoogle Scholar

Copyright information

© Kluwer Academic Publishers 2002

Authors and Affiliations

  • Y. Rayssiguier
    • 1
  • A. Mazur
    • 1
  1. 1.Centre de Recherches en Nutrition Humaine Unité Maladies Métaboliques et MicronutrimentsINRAChampanelleFrance

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