Review on Properties of Selenium in Animal Nutrition
محورهای موضوعی : Camelش. قادرزاده 1 , ف. میرزایی آقجه قشلاق 2 , س. نیک بین 3 , ب. نوید شاد 4
1 - Department of Animal Science, Faculty of Agricultural Science, University of Mohaghegh Ardabili, Ardabil, Iran
2 - Department of Animal Science, Faculty of Agricultural Science, University of Mohaghegh Ardabili, Ardabil, Iran
3 - Department of Animal Science, Faculty of Agricultural Science, University of Mohaghegh Ardabili, Ardabil, Iran
4 - Department of Animal Science, Faculty of Agricultural Science, University of Mohaghegh Ardabili, Ardabil, Iran
کلید واژه: Nutrition, Requirements, trace elements, selenium, Glutathione peroxidase,
چکیده مقاله :
The early interest in selenium (Se) focused on its toxicity, but since 1957 it has been recognized as an essential dietary element. The diet is the major Se source and approximately 80% of dietary Se is absorbed, depending on the type of food consumed. In several regions of the world, the content of Se in diets has been estimated as insufficient. The dietary requirement for Se for most species is about 0.3 ppm. Deficiencies of Se in animals have been confirmed under natural grazing conditions in many countries. Symptoms of deficiencies such as white muscle disease occur primarily in young calves or lambs born in low Se regions and thus we need to provide sufficient amounts in animal diets. Numerous studies have demonstrated that Se plays an important role in animal health. Therefore, this review gives a brief outline of the current information on the physical, chemical and metabolic properties of Se, oxidative stress, antioxidant defense, dietary requirement, deficiency, toxicity and effects of Se on fertility and performance.
Alhidary I., Shini S., Al Jassim R. and Gaughan J. (2012). Effect of various doses of injected selenium on performance and physiological responses of sheep to heat load. J. Anim. Sci. 90, 2988-2994.
Allmang C. and Krol A. (2006). Selenoprotein synthesis: UGA does not end the story. Biochimie. 88, 1561-1571.
Ammerman C. and Miller S. (1975). Selenium in ruminant nutrition: a review. J. Dairy Sci. 58, 1561-1577.
Andrews E., Hartley W. and Grant A. (1968). Selenium-responsive diseases of animals in New Zealand. New Zealand Vet. J. 16, 3-17.
Arthur J.R., Nicol F. and Beckett G.J. (1993). Selenium deficiency, thyroid hormone metabolism, and thyroid hormone deiodinases. Am. J. Clin. Nutr. 57, 236S-239S.
ATSDR. (1996). Toxicological Profile for Selenium. Prepared by Research Triangle Institute under Contract for Division of Toxicology, Agency for Toxic Substances and Disease Registry, Centers for Disease Control and Prevention. Public Health Service, Atlanta, Georgia.
ATSDR. (2003). Toxicological Profile for Selenium. Prepared by Syracuse Research Corporation under contract for Division of Toxicology, Agency for Toxic Substances and Disease Registry, Center for Disease Control and Prevention. Public Health Service, Atlanta, Georgia.
Barber S., Parker H. and McDaniel C. (2005). Broiler breeder semen quality as affected by trace minerals in vitro. Poult. Sci. 84, 100-105.
Baylan M., Canogullari S., Ayasan T. and Copur G. (2011). Effects of dietary selenium source, storage time and temperature on the quality of quail eggs. Biol. Trace. Elem. Res. 143, 957-964.
Berry M.J., Martin G., Tujebajeva R., Grundner-Culemann E., Mansell J.B., Morozova N. and Harney J.W. (2002). Selenocysteine insertion sequence element characterization and selenoprotein expression. Method. Enzymol. 347, 17-24.
Berzelius J.J. (1818). Additional observations on lithiom and selenium. Ann. Philos. 11, 373-380.
Birringer M., Pilawa S. and Flohé L. (2002). Trends in selenium biochemistry. Nat. Prod. Rep. 19, 693-718.
Böck A., Forchhammer K., Heider J., Leinfelder W., Sawers G., Veprek B. and Zinoni F. (1991). Selenocysteine: the 21st amino acid. Mol. Microbiol. 5, 515-520.
Brigelius-Flohé R. and Maiorino M. (2013). Glutathione peroxidases. Biochim. Biophys. Acta. 1830, 3289-3303.
Brown K. and Arthur J. (2001). Selenium, selenoproteins and human health: a review. Pub. Health Nutr. 4, 593-599.
Canoğulları S., Ayaşan T., Baylan M. and Copur G. (2010). The effect of organic and inorganic selenium supplementation on egg production parameters and egg selenium content of laying Japanese quail. Kafkas Üniv. Vet. J. 16, 743-749.
Castellini C., Lattaioli P., Dal Bosco A. and Beghelli D. (2002). Effect of supranutritional level of dietary α-tocopheryl acetate and selenium on rabbit semen. Theriogenology. 58, 1723-1732.
Chadio S.E., Pappas A.C., Papanastasatos A., Pantelia D., Dardamani A., Fegeros K. and Zervas G. (2015). Effects of high selenium and fat supplementation on growth performance and thyroid hormones concentration of broilers. J. Trace. Elem. Med. Biol. 29, 202-207.
Chilimba A.D.C. (2011). Potential for safe and efficient biofortification of maize crops with selenium in Malawi. Ph D. Thesis. University of Nottingham, Nottingham, UK.
Chu F., de Silva H.R., Esworthy R.S., Boteva K.K., Walters C.E., Roses A., Rao P.N. and Pettenati M.J. (1996). Polymorphism and chromosomal localization of the GI-form of human glutathione peroxidase (GPX2) on 14q24. 1 by in situ hybridization. Genomics. 32, 272-276.
Clark L.C., Combs G.F., Turnbull B.W., Slate E.H., Chalker D.K., Chow J., Davis L.S., Glover R.A., Graham G.F. and Gross E.G. (1996). Effects of selenium supplementation for cancer prevention in patients with carcinoma of the skin: a randomized controlled trial. J. Am. Med. Assoc. 276, 1957-1963.
Cone J.E., Del Rio R.M., Davis J.N. and Stadtman T.C. (1976). Chemical characterization of the selenoprotein component of clostridial glycine reductase: identification of selenocysteine as the organoselenium moiety. Proc. Natl. Acad. Sci. USA. 73, 2659-2663.
Crespo A.V., Reis M. and Lanca M. (1995). Effect of selenium supplementation on polyunsaturated fatty acids in rats. Biol. Trace. Elem. Res. 47, 335-341.
Czauderna M., Kowalczyk J., Niedzwiedzka K., Wasowska I. and Pastuszewska B. (2004). Conjugated linoleic acid (CLA) content and fatty acids composition of muscle in rats fed isommers of CLA and selenium. J. Anim. Feed Sci. 13, 183-196.
Edens F. and Sefton A. (2009). Sel-Plex® improves spermatozoa morphology in broiler breeder males. Int. J. Poult. Sci. 8, 853-861.
Fordyce F. (2005). Selenium deficiency and toxicity in the environment. Pp. 373-415 in Essentials of Medical Geology. O. Selinus, B. Alloway, J.A. Centeno, R.B. Finkelman, R. Fuge, U. Lindh and P. Smedley, Eds. Elsevier-Academic Press, London, UK.
Foresta C., Flohé L., Garolla A., Roveri A., Ursini F. and Maiorino M. (2002a). Male fertility is linked to the selenoprotein phospholipid hydroperoxide glutathione peroxidase. Biol. Reprod. 67, 967-971.
Garewal H. (1997). Antioxidants and Disease Prevention. CRC Press, New York.
Ghaderzadeh S. (2016). Effects of dietary protected conjugated linoleic acid (CLA) and different levels of nano-selenium on performance, some parameters of immune system، fatty acids profiles of tissues and related genes in tissue and blood of male Moghani lambs. Ph D Thesis. University of Mohaghegh Ardabili, Ardabil, Iran.
Girling C. (1984). Selenium in agriculture and the environment. Agric. Ecosyst. Environ. 11, 37-65.
Godwin K. (1968). Abnormalities in the electrocardiograms of young sheep and lambs grazing natural pastures low in selenium. Nature. 217, 1275-1276.
Godwin K. and Fraser F. (1966). Abnormal electrocardiograms, blood pressure changes, and some aspects of the histopathology ofselenium deficiency in lambs. Q. J. Exp. Physiol. Cogn. Med. Sci. 51, 94-110.
Hall J., Bobe G., Nixon B., Vorachek W., Nichols T., Mosher W. and Pirelli G. (2014). Effect of transport on blood selenium and glutathione status in feeder lambs. J. Anim. Sci. 92, 4115-4122.
Hall J.A., Bobe G., Hunter J.K., Vorachek W.R., Stewart W.C., Vanegas J.A., Estill C.T., Mosher W.D. and Pirelli G.J. (2013a). Effect of feeding selenium-fertilized alfalfa hay on performance of weaned beef calves. PloS One. 8, 58188.
Hall J.A., Bobe G., Vorachek W.R., Gorman M.E., Mosher W.D. and Pirelli G.J. (2013b). Effects of feeding selenium-enriched alfalfa hay on immunity and health of weaned beef calves. Biol. Trace. Elem. Res. 156, 96-110.
Hartikainen H. (2005). Biogeochemistry of selenium and its impact on food chain quality and human health. J. Trace. Elem. Med. Biol. 18, 309-318.
Hartley W. and Grant A. (1961). A review of selenium responsive diseases of New Zealand livestock. Fed. Proc. 20, 679-688.
Hartley W., Grant A. and Drake C. (1960). Control of white muscle disease and ill thrift with selenium. New Zealand J. Agric. 101, 343-347.
Hawkes W.C. and Turek P.J. (2001). Effects of dietary selenium on sperm motility in healthy men. J. Androl. 22, 764-772.
Hedaoo M., Khllare K., Meshram M., Sahatpure S. and Patil M. (2008). Study of some serum trace minerals in cyclic and non-cyclic surti buffaloes. Vet. World. 1, 71-72.
Hernandez-Calva L.M., Ramirez-Bribiesca J.E., Guerrero-Legarreta I., Hernandez-Cruz L., Avendaño-Reyes L., Vara I.D. and McDowell L.R. (2013). Influence of dietary magnesium and selenium levels in finishing diets on growth performance and carcass meat quality of feedlot Pelibuey lambs. Arch. Tierzuch. Arch. Anim. Breed. 56, 303-314.
Hill M., Walker S. and Taylor A. (1969). Effects of “marginal” deficiences of copper and selenium on growth and productivity of sheep. New Zealand J. Agric. Res. 12, 261-270.
Hu C., Li Y., Xiong L., Zhang H., Song J. and Xia M. (2012). Comparative effects of nano elemental selenium and sodium selenite on selenium retention in broiler chickens. Anim. Feed Sci. Technol. 177, 204-210.
Indira Priyadarsini K.G., Singh B. and Kunwar A. (2013). Current developments on synthesis, redox reactions and biochemical studies of selenium antioxidants. Curr. Chem. Biol. 7, 37-46.
Ip C. (1998). Lessons from basic research in selenium and cancer prevention. J. Nutr. 128, 1845-1854.
Ishrat T., Parveen K., Khan M.M., Khuwaja G., Khan M.B., Yousuf S., Ahmad A., Shrivastav P. and Islam F. (2009). Selenium prevents cognitive decline and oxidative damage in rat model of streptozotocin-induced experimental dementia of Alzheimer's type. Brain Res. 1281, 117-127.
Johnson C.C., Fordyce F.M. and Rayman M.P. (2010). Factors controlling the distribution of selenium in the environment and their impact on health and nutrition. Pp. 119-132 inProc. Nutr. Soc. Cambridge, UK.
Kabata-Pendias A. (1997). Geochemistry of selenium. J. Environ. Pathol. Toxicol. Oncol. 17, 173-177.
Kaur R. and Kaur K. (2000). Effects of dietary selenium (Se) on morphology of testis and cauda epididymis in rats. Indian J. Physiol. Pharmacol. 44, 265-272.
Kaushal N. and Bansal M. (2009). Diminished reproductive potential of male mice in response to selenium induced oxidative stress: Involvement of HSP70, HSP70 2, and MSJ 1. J. Biochem. Mol. Toxicol. 23, 125-136.
Kendall N., Green A., McMullen S. and Rodway R. (2002). The effect of a zinc, cobalt, and selenium bolus on ram semen quality and trace element status. Trace. Elem. Man. Anim. 23, 769-771.
Kieliszek M. and Błażejak S. (2013). Selenium: significance and outlook for supplementation. Nutrition. 29, 713-718.
Kohrle J., Jakob F., Contempré B. and Dumont J.E. (2005). Selenium, the thyroid and the endocrine system. Endocrin. Rev. 26, 944-984.
Kommisrud E., Osteras O. and Vatn T. (2005). Blood selenium associated with health and fertility in Norwegian dairy herds. Acta Vet. Scandinavica. 46, 229-240.
Kulkarni A.C., Kuppusamy P. and Parinandi N. (2007). Oxygen, the lead actor in the pathophysiologic drama: enactment of the trinity of normoxia, hypoxia, and hyperoxia in disease and therapy. Antioxid. Redox. Signal. 9, 1717-1730.
Kumar B.S. and Priyadarsini K. (2014). Selenium nutrition: How important is it? Biomed. Prev. Nutr. 4, 333-341.
Kumar N., Garg A., Dass R., Chaturvedi V., Mudgal V. and Varshney V. (2009). Selenium supplementation influences growth performance, antioxidant status and immune response in lambs. Anim. Feed Sci. Technol. 153, 77-87.
Kumar S. (2003). Management of infertility due to mineral defici-ency in dairy animals. Pp. 128-137 in Proc. Adv. Diagn. Techniq. Therap. Appr. Metab. Deficien. Dis. Dairy Anim. Held at IVRI.Izatnagar, Indian.
Kunwar A., Mishra B., Barik A., Kumbhare L.B., Pandey R., Jain V.K. and Priyadarsini K.I. (2007). 3, 3′-Diselenodipropionic acid, an efficient peroxyl radical scavenger and a GPx mimic, protects erythrocytes (RBCs) from AAPH-induced hemolysis. Chem. Res. Toxicol. 20, 1482-1487.
Lasota B., Błaszczyk B., Seremak B. and Udała J. (2004). Selenium status and GSH Px activity in semen and blood of boars at different ages used for artificial insemination. Reprod. Domest. Anim. 39, 309-314.
Letavayová L., Vlasáková D., Spallholz J.E., Brozmanová J. and Chovanec M. (2008). Toxicity and mutagenicity of selenium compounds in Saccharomyces cerevisiae. Mutat. Res. Fundam. Mol. Mech. Muta. 638, 1-10.
Levander O.A. and Beck M.A. (1997). Interacting nutritional and infectious etiologies of Keshan disease. Biol. Trace. Elem. Res. 56, 5-21.
Lovell M.A., Xiong S., Lyubartseva G. and Markesbery W.R. (2009). Organoselenium (Sel-Plex diet) decreases amyloid burden and RNA and DNA oxidative damage in APP/PS1 mice. Free Radical. Biol. Med. 46, 1527-1533.
Marin-Guzman J., Mahan D., Chung Y., Pate J. and Pope W. (1997). Effects of dietary selenium and vitamin E on boar performance and tissue responses, semen quality and subsequent fertilization rates in mature gilts. J. Anim. Sci. 75, 2994-3003.
Mayland H. (1994) Selenium in Plant and Animal Nutrition. Marcel-Dekker, New York.
Mehdi Y., Hornick J.L., Istasse L. and Dufrasne I. (2013). Selenium in the environment, metabolism and involvement in body functions. Molecules. 18, 3292-3311.
NRC. (1984). Nutrient Requirements of Poultry, 6th Rev. Ed. National Academy Press, Washington, DC., USA.
NRC. (1994). Nutrient Requirements of Poultry, 9th Rev. Ed. National Academy Press, Washington, DC., USA.
NRC. (2001). Nutrient Requirements of Dairy Cattle. 7th Ed. National Academy Press, Washington, DC, USA.
NRC. (2007). Nutrient Requirements of Dairy Cattle. 9th Ed. National Academy Press, Washington, DC, USA.
Niu Z., Liu F., Yan Q. and Li W. (2009). Effects of different levels of vitamin E on growth performance and immune responses of broilers under heat stress. Poult. Sci. 88, 2101-2107.
Oldfield J. (2002). Selenium-Tellurium Development Association. Oregon State University, Corvallis, Oregon.
Pappas A., Acamovic T., Sparks N., Surai P. and McDevitt R. (2005). Effects of supplementing broiler breeder diets with organic selenium and polyunsaturated fatty acids on egg quality during storage. Poult. Sci. 84, 865-874.
Pedrero Z. and Madrid Y. (2009). Novel approaches for selenium speciation in foodstuffs and biological specimens: a review. Anal. Chim. Acta. 634, 135-152.
Rayman M.P. (2005). Selenium in cancer prevention: a review of the evidence and mechanism of action. Proc. Nutr. Soc. 64, 527-542.
Reich H.J. and Hondal R.J. (2016). Why nature chose selenium. ACS Chem. Biol. 11, 821-841.
Reilly C. (1996). Selenium in Food and Health. Springer, New York.
Richards C., Blalock H., Jacques K. and Loveday H. (2011). Efficacy of feeding selenium-enriched yeast to finishing beef cattle. Prof. Anim. Sci. 27, 1-8.
Salles M.S.V., Zanetti M.A., Junior L.C.R., Salles F.A., Azzolini A.E.C.S., Soares E.M., Faccioli L.H. and Valim Y.M.L. (2014). Performance and immune response of suckling calves fed organic selenium. Anim. Feed Sci. Technol. 188, 28-35.
Salonen J., Alfthan G., Huttunen J., Pikkarainen J. and Puska P. (1982). Association between cardiovascular death and myocardial infarction and serum selenium in a matched-pair longitudinal study. Lancet. 320, 175-179.
Sánchez-Gutiérrez M., García-Montalvo E., Izquierdo-Vega J. and Del Razo L. (2007). Effect of dietary selenium deficiency on the in vitro fertilizing ability of mice spermatozoa. Pp. 41-49 in Proc. 13th Conf. Int. Soc. Trace. Elem. Res. Hum. Nordic, North Atlantic.
Scott R., MacPherson A., Yates R., Hussain B. and Dixon J. (1998). The effect of oral selenium supplementation on human sperm motility. Br. J. Urol. 82, 76-80.
Segerson E.C. and Johnson B.H. (1980). Selenium and reproductive function in yearling Angus bulls. J. Anim. Sci. 51, 395-401.
Shalini S. and Bansal M. (2007). Alterations in selenium status influences reproductive potential of male mice by modulation of transcription factor NFκB. Biometals. 20, 49-59.
Shalini S. and Bansal M. (2008). Dietary selenium deficiency as well as excess supplementation induces multiple defects in mouse epididymal spermatozoa: understanding the role of selenium in male fertility. Int. J. Androl. 31, 438-449.
Shalini S. and Bansal M.P. (2005). Role of selenium in regulation of spermatogenesis: Involvement of activator protein 1. Biofactors. 23(3), 151-162.
Shini S., Sultan A. and Bryden W.L. (2015). Selenium biochemistry and bioavailability: implications for animal agriculture. Agriculture. 5, 1277-1288.
Sies H. (2015). Oxidative stress: a concept in redox biology and medicine. Redox Biol. 4, 180-183.
Spallholz J.E. (1990). Selenium and glutathione peroxidase: essential nutrient and antioxidant component of the immune system. Adv. Exp. Med. Biol. 262, 145-158.
Stone C.A., Kawai K., Kupka R. and Fawzi W.W. (2010). Role of selenium in HIV infection. Nutr. Rev. 68, 671-681.
Sushma K., Reddy Y.R., Kumari N.N., Reddy P.B., Raghunandan T. and Sridhar K. (2015). Effect of selenium supplementation on performance, cost economics, and biochemical profile of Nellore ram lambs. Vet. World. 8, 1150-1155.
Szpunar J., Lobinski R. and Prange A. (2003). Hyphenated techniques for elemental speciation in biological systems. Appl. Spectrosc. 57, 102-112.
Szymonik Lesiuk S., Czechowska G., Stryjecka Zimmer M., SŁomka M., Mądro A., CeliŃski K. and Wielosz M. (2003). Catalase, superoxide dismutase and glutathione peroxidase activities in various rat tissues after carbon tetrachloride intox- ication. J. Hep. Bil. Pancr. Surg. 10, 309-315.
Tapiero H., Townsend D. and Tew K. (2003). The antioxidant role of selenium and seleno-compounds. Biomed. Pharmacy. 57, 134-144.
Turner R. and Finch J.M. (1991). Selenium and the immune response. Proc. Nutr. Soc. 50, 275-285.
Underwood E.J. (1971). Trace Elements in Human and Animal Nutrition.Academic Press, New York.
Wallschläger D. and Feldmann J. (2009). Formation, occurrence, significance, and analysis of organoselenium and organotellurium compounds in the environment. Metal. Ions . Life. Sci. 7, 319-364.
Wu A., Oldfield J., Shull L. and Cheeke P. (1979). Specific effect of selenium deficiency on rat sperm. Biol. Reprod. 20, 793-798.
Zayed A.M. and Terry N. (1994). Selenium volatilization in roots and shoots: effects of shoot removal and sulfate level. J. Plant. Physiol. 143, 8-14.
