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Selenium supplementation: does soil supplementation help and why?

Published online by Cambridge University Press:  05 March 2007

John R. Arthur*
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen, AB21 9SB, Scotland, UK
*
Corresponding author: Professor John R. Arthur, fax +44 1224 716629, email., j.arthur@rowett.ac.uk
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Abstract

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There are now concerns that dietary Se intake is inadequate for the population in the UK and parts of Europe. Many different methods can be proposed to deal with this problem. Experience from Finland suggests that the addition of Se to fertiliser is a safe and effective means of increasing the intake of the micronutrient in the human population. However, careful consideration needs to be given to the potential consequences of increasing Se intake. It is important to understand the biochemical and physiological changes that may occur with any increase in Se intake within the UK population. Se is an essential component of at least twenty functional proteins within mammals. These proteins are essential for a range of metabolic functions, including antioxidant activity, thyroid hormone synthesis and immune function. Thus, any increase in Se intake has the potential to influence in a wide range of factors that may impinge on the incidence of chronic disease. Treatment of soil with Se-supplemented fertiliser will certainly increase total Se in food products derived from areas where this treatment is in place. Consumption of such foods will increase Se status in many populations where the existing intake does not meet requirements. If the increases in Se intake are not toxic the overall consequences have the potential to be beneficial.

Type
Micronutrient Group Symposium on ‘Micronutrient supplementation: when and why?’
Copyright
Copyright © The Nutrition Society 2003

References

Anema, SM, Walker, SW, Howie, AF, Arthur, JR, Nicol, F & Beckett, GJ (1999) Thioredoxin reductase is the major selenoprotein expressed in human umbilical-vein endothelial cells and is regulated by protein kinase C. Biochemical Journal 342, 111117CrossRefGoogle ScholarPubMed
Aro, A, Alfthan, G & Varo, P (1995) Effects of supplementation of fertilizers on human selenium status in Finland. Analyst 120, 841843CrossRefGoogle ScholarPubMed
Arthur, JR (2000) The glutathione peroxidases. Cellular and Molecular Life Sciences 57, 18251835CrossRefGoogle ScholarPubMed
Arthur, JR & Beckett, GJ (1994) New metabolic roles for selenium. Proceedings of the Nutrition Society 53, 615624CrossRefGoogle ScholarPubMed
Arthur, JR, Beckett, GJ & Mitchell, JH (1999) The interactions between selenium and iodine deficiencies in man and animals. Nutrition Research Reviews 12, 5573CrossRefGoogle Scholar
Arthur, JR, Morrice, PC, Nicol, F, Beddows, SE, Boyd, R, Hayes, JD & Beckett, GJ (1987a) The effects of selenium and copper deficiencies on glutathione S-transferase and glutathione peroxidase in rat liver. Biochemical Journal 248, 539544CrossRefGoogle ScholarPubMed
Arthur, JR, Nicol, F, Boyne, R, Allen, KGD, Hayes, JD & Beckett, GJ (1987b) Old and new roles for selenium Trace Substances in Environmental Health, vol. XXI 487498 Hemphill DD Colombia, MO University of MissouriGoogle Scholar
Behne, D & Kyriakopoulos, A (2001) Mammalian selenium-containing proteins. Annual Review of Nutrition 21, 453473CrossRefGoogle ScholarPubMed
Bermano, G, Nicol, F, Dyer, JA, Sunde, RA, Beckett, GJ, Arthur, JR & Hesketh, JE (1995) Tissue-specific regulation of selenoenzyme gene expression during selenium deficiency in rats. Biochemical Journal 311, 425430CrossRefGoogle ScholarPubMed
Broome, CS, McArdle, F, Kyle, JAM, Andrews, F, Hart, CA, Arthur, JR & Jackson, MJ (2002) Functional effects of selenium supplementation in healthy UK adults. Free Radical Biology and Medicine 33 S261 Suppl. 1Google Scholar
Brown, KM, Pickard, K, Nicol, F, Beckett, GJ, Duthie, GG & Arthur, JR (2000) Effects of organic and inorganic selenium supplementation on selenoenzyme activity in blood lymphoctyes, granulocytes, platelets and erythrocytes. Clinical Science 98, 593599CrossRefGoogle Scholar
Burk, RF (1983) Biological activity of selenium. Annual Review of Nutrition 3, 5370CrossRefGoogle ScholarPubMed
Combs, GF (2001a) Impact of selenium and cancer-prevention findings on the nutrition–health paradigm. Nutrition and Cancer 40, 611CrossRefGoogle ScholarPubMed
Combs, GF (2001b) Selenium in global food systems. British Journal of Nutrition 85, 517547CrossRefGoogle ScholarPubMed
Combs, GF & Combs, SB (1986) The Role of Selenium in Nutrition New York Academic Press IncGoogle Scholar
Duffield-Lillico, AJ, Reid, ME, Turnbull, BW, Combs, GF, Slate, EH, Fischbach, LA, Marshall, JR & Clark, LC (2002) Baseline characteristics and the effect of selenium supplementation on cancer incidence in a randomized clinical trial: A summary report of the Nutritional Prevention of Cancer Trial. Cancer Epidemiology Biomarkers and Prevention 11, 630639Google Scholar
Evenson, JK & Sunde, RA (1988) Selenium incorporation into selenoproteins in the Se-adequate and Se-deficient rat. Proceedings of the Society for Experimental Biology and Medicine 187, 169180CrossRefGoogle ScholarPubMed
Hansen, JC & Deguchi, Y (1996) Selenium and fertility in animals and man – A review. Acta Veterinaria Scandinavica 37, 1930CrossRefGoogle ScholarPubMed
Hatfield, DL & Gladyshev, VN (2002) How selenium has altered our understanding of the genetic code. Molecular and Cellular Biology 22, 35653576CrossRefGoogle ScholarPubMed
Hedrick, PW (2000) Genetics of Populations 2nd ed. Boston, MA Jones and BarlettGoogle Scholar
Hurst, R, Korytowski, W, Kriska, T, Esworthy, RS, Chu, FF & Girotti, AW (2001) Hyperresistance to cholesterol hydroperoxide-induced peroxidative injury and apoptotic death in a tumor cell line that overexpresses glutathione peroxidase isotype-4. Free Radical Biology and Medicine 31, 10511065CrossRefGoogle Scholar
Kryukov, GV, Castellano, S, Novoselov, SV, Lobanov, AV, Guigo, R & Gladyshev, VN (2002) Identity of selenocysteine and terminator UGA codons: Genome-wide search for selenoprotein genes. FASEB Journal 16 606AbstrGoogle Scholar
Kryukov, GV & Gladyshev, VN (2002) Mammalian selenoprotein gene signature: Identification and functional analysis of seleno-protein genes using bioinformatics methods. Methods in Enzymology 347, 84100CrossRefGoogle Scholar
Lescure, A, Gautheret, D, Carbon, P & Krol, A (1999) Novel seleno-proteins identified in silico and in vivo by using a conserved RNA structural motif. Journal of Biological Chemistry 274, 3814738154CrossRefGoogle Scholar
Levander, OA & Beck, MA (1997) Interacting nutritional and infectious etiologies of Keshan disease – Insights from Coxsackie virus B-induced myocarditis in mice deficient in selenium or vitamin E. Biological Trace Element Research 56, 521CrossRefGoogle ScholarPubMed
Lewin, MH, Arthur, JR, Riemersma, RA, Nicol, F, Walker, SW, Millar, EM, Howie, AF & Beckett, GJ (2002) Selenium supplementation acting through the induction of thioredoxin reductase and glutathione peroxidase protects the human endothelial cell line EAhy926 from damage by lipid hydroperoxides. Biochimica et Biophysica Acta 1593, 8592CrossRefGoogle ScholarPubMed
McKenzie, RC, Arthur, JR & Beckett, GJ (2002a) Selenium and the regulation of cell signalling, growth, and survival: Molecular and mechanistic aspects. Antioxidants and Redox Signalling 4, 339351CrossRefGoogle Scholar
McKenzie, RC, Arthur, JR, Miller, S, Rafferty, TS & Beckett, GJ (2002b) Selenium and the immune system Nutrition and Immune Function 229250 Calder PC Field CJ Hill HS Wallingford, Oxon CABI/Nutrition SocietyCrossRefGoogle Scholar
Makela, AL, Wang, WC, Hamalainen, M, Nanto, V, Laihonen, P, Kotilainen, H, Meng, LX & Makela, P (1995) Environmental effects of nationwide selenium fertilization in Finland. Biological Trace Element Research 47, 289298CrossRefGoogle ScholarPubMed
Marinho, HS, Antunes, F & Pinto, RE (1997) Role of glutathione peroxidase and phospholipid hydroperoxide glutathione peroxidase in the reduction of lysophospholipid hydroperoxides. Free Radical Biology and Medicine 22, 871883CrossRefGoogle ScholarPubMed
Miller, S, Walker, SW, Arthur, JR, Lewin, MH, Pickard, K, Nicol, F, Howie, AF & Beckett, GJ (2002) Selenoprotein expression in endothelial cells from different human vasculature and species. Biochimica et Biophysica Acta 1588, 8593CrossRefGoogle ScholarPubMed
Miller, S, Walker, SW, Arthur, JR, Nicol, F, Pickard, K, Lewin, MH, Howie, AF & Beckett, GJ (2001) Selenite protects human endothelial cells from oxidative damage and induces thioredoxin reductase. Clinical Science 100, 543550CrossRefGoogle ScholarPubMed
Rafferty, TS, McKenzie, RC, Hunter, JA, Howie, AF, Arthur, JR, Nicol, F & Beckett, GJ (1998) Differential expression of seleno-proteins by human skin cells and protection by selenium from UVB-radiation-induced cell death. Biochemical Journal 332, 231236CrossRefGoogle Scholar
Rayman, MP (1997) Dietary selenium: Time to act – Low bioavailability in Britain and Europe could be contributing to cancers, cardiovascular disease, and subfertility. British Medical Journal 314, 387388CrossRefGoogle Scholar
Rayman, MP (2000) The importance of selenium to human health. Lancet 356, 233241CrossRefGoogle ScholarPubMed
Rayman, MP (2002) The argument for increasing selenium intake. Proceedings of the Nutrition Society 61, 203215CrossRefGoogle ScholarPubMed
Reiter, R & Wendel, A (1983) Selenium and drug-metabolism 1. Multiple modulations of mouse-liver enzymes. Biochemical Pharmacology 32, 30633067CrossRefGoogle ScholarPubMed
Schnurr, K, Belkner, J, Ursini, F, Schewe, T & Kuhn, H (1996) The selenoenzyme phospholipid hydroperoxide glutathione peroxidase controls the activity of the 15-lipoxygenase with complex substrates and preserves the specificity of the oxygenation products. Journal of Biological Chemistry 271, 46534658CrossRefGoogle ScholarPubMed
Shortt, C, Duthie, GG, Robinson, JD, Morrice, PC, Nicol, F & Arthur, JR (1997) Selenium studies of a group of Scottish adults. European Journal of Clinical Nutrition 51, 400404CrossRefGoogle ScholarPubMed
Van, Metre, DC, Callan RJ (2001) Selenium and vitamin E. Veterinary Clinics of North America 17, 373386Google Scholar
Varo, P, Alfthan, G, Huttunen, JK & Aro, A (1993) Nationwide selenium supplementation in Finland – Effects on diet, blood and tissue levels, and health Selenium in Biology and Human Health 119218 Burk RF New York Springer-VerlagCrossRefGoogle Scholar
Villette, S, Kyle, JAM, Brown, KM, Pickard, K, Milne, JS, Nicol, F, Arthur, JR & Hesketh, JE (2002) A novel single nucleotide polymorphism in the 3' untranslated region of human glutathione peroxidase 4 influences lipoxygenase metabolism. Blood Cells Molecules and Diseases 29, 174178CrossRefGoogle ScholarPubMed