[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5713/ajas.2013.13400

Effects of Copper and Selenium Supplementation on Performance and Lipid Metabolism in Confined Brangus Bulls

Netto, Arlindo Saran (Department of Animal Science, College of Animal Science and Food Engineering, University of Sao Paulo)
Zanetti, Marcus Antonio (Department of Animal Science, College of Animal Science and Food Engineering, University of Sao Paulo)
Claro, Gustavo Ribeiro Del (Department of Animal Science, College of Animal Science and Food Engineering, University of Sao Paulo)
de Melo, Mariza Pires (Department of Basic Science, College of Animal Science and Food Engineering, University of Sao Paulo)
Vilela, Flavio Garcia (Department of Nutrition and Animal Production, School of Veterinary Medicine and Animal Science, University of Sao Paulo)
Correa, Lisia Bertonha (Department of Animal Science, College of Animal Science and Food Engineering, University of Sao Paulo)

Publication Information

Asian-Australasian Journal of Animal Sciences / v.27, no.4, 2014 , pp. 488-494 More about this Journal

Abstract

Twenty-eight Brangus cattle were used to determine the effect of copper and selenium supplementation on performance, feed efficiency, composition of fatty acids in Longissimus dorsi (LD) muscle, and cholesterol concentration in serum and in LD muscle and enzymes activities, reduced glutathione (GSH) and oxidized glutathione (GSSG). The treatments were: i) Control, without copper (Cu) and selenium (Se) supplementation; ii) Se, 2 mg Se/kg of dry matter such as sodium selenite; iii) Cu, 40 mg Cu/kg of dry matter such as copper sulfate; iv) Se/Cu, 2 mg Se/kg of dry matter such as sodium selenite and 40 mg Cu/kg of dry matter such as copper sulfate. LD muscle fatty acid composition was not influenced by the treatments (p>0.05). The serum concentration of cholesterol was not influenced by the treatments (p>0.05), however, the concentration of cholesterol in LD was lower in cattle supplemented with copper and selenium (p<0.05). Oxidized glutathione and reduced glutathione increased (p<0.05) with Cu, Se and Se/Cu supplementation. The supplementation of copper (40 mg/kg DM) and selenium (2 mg/kg DM) altered the metabolism of lipids in confined Brangus cattle, through a decrease in cholesterol deposition in the LD, possibly by changing the ratio between reduced glutathione/oxidized glutathione. Copper and selenium supplementation improved animal performance and feed efficiency (p<0.05) when compared to the control group, providing advantages in the production system, while also benefiting consumers by reducing cholesterol concentration in the meat.

Keywords

Cattle; Cholesterol; Fatty Acids; Minerals; Nutrition;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Balevi, T. and B. Coskun. 2004. Effects of dietary copper on production and egg cholesterol content in laying hens. Br. Poult. Sci. 45:530-534. DOI ScienceOn
2	Armstrong, T. A., J. W. Spears, and T. E. Engle. 2001. Effect of pharmacological concentrations of dietary copper on lipid and cholesterol metabolism in pigs. Nutr. Res. 21:1299-1308. DOI ScienceOn
3	AOAC. 1996. Official methods of analysis, 16th ed. Association of Official Analytical Chemists, Arlington, p. 1298.
4	Bakalli, R. I., G. M. Pesti, W. L. Ragland, and V. Konjufca. 1995. Dietary copper in excess of nutritional requirement reduces plasma and breast muscle cholesterol in chickens. Poult. Sci. 74:360-365. DOI ScienceOn
5	Berchielli, T. T., A. Vaz Pires, and S. G. Oliveira. 2006. Nutricao de Ruminantes. Jaboticabal: Funep 1, 200-583.
6	Boila, R. J. 1987. Supplementary trace minerals for feedlot finishing of beef steers. Can. J. Anim. Sci. 67:765-774. DOI
7	Cheng, J., C. Fan, W. Zhang, X. Zhu, X. Yan, R. Wang, and Z. Jia. 2008. Effects of dietary copper source and level on performance, carcass characteristics and lipid metabolism in lambs. Asian-Aust. J. Anim. Sci. 21:685-691. DOI
8	Correa, L. B., M. A. Zanetti, G. R. Del Claro, M. P. Melo, A. F. Rosa, and A. Saran Netto. 2012. Effect of supplementation of two sources and two levels of copper on lipid metabolism in Nellore beef cattle. Meat Sci. 91:466-471. DOI ScienceOn
9	Engle, T. E., J. W. Spears, and T. A. Armstrong. 1999. Performance and lipid and cholesterol metabolism in finishing steers fed vaying concentration of copper. J. Anim. Sci. 77:2446-2451.
10	Engle, T. E., J. W. Spears, and L. XI. 2000c. Effects of dietary soybean oil and dietary copper on ruminal and tissue lipid metabolism in finishing steers. J. Anim. Sci. 78: 2713-2721.
11	Engle, T. E. and J. W. Spears. 2000. Dietary copper effects on lipid metabolism. performance and ruminal fermentation in finishing steers. J Anim Sci. 78:2452-2458.
12	Engle, T. E., J. W. Spears, and T. A. Armstrong. 2000a. Effects of dietary copper source and concentration on carcass characteristics and lipid and cholesterol metabolism in growing and finishing steers. J. Anim. Sci. 78:1053-1059.
13	Engle, T. E., J. W. Spears, and F. W. Edens. 2000b. Dietary copper effects on lipid metabolism and circulating catecholamine concentration in finising steers. J. Anim. Sci. 78:2737-2744.
14	Engle, T. E. and J. W. Spears. 2001. Performance.carcass characteristics and lipid metabolism in growing and finishing Simmental steers fed vaying concentration of copper. J Anim Sci. 79:2920-2925.
15	Engle, T. E. and J. W. Spears. 2004. Effect of finisihing system (feedlot or pasture), hight oil maize, and copper on conjugated linoleic and other fatty acids in muscle of finishing steers. J Anim. Sci. 78:261-269.
16	Fettman, M. J. 1991. Comparative aspects of glutathione metabolism affecting individual susceptibility to oxidant injury. Comp. Cont. Educ. Pract. Vet. 13:1079-1091.
17	Holben, D. H. 1999. The diverse role of selenium within selenoproteins: A review. J. Am. Diet. Assoc. 99:836-843. DOI ScienceOn
18	Kim, S., P. Y. Chao, and K. G. D. Allen. 1992. Inhibition of elevated hepatic glutathione abolishes copper deficiency cholesterolemia. FASEB J. 6:2467-2471.
19	Konjufca, V. H., G. M. Pesti, and L. I. Bakalli. 1997. Modulation of cholesterol levels in broiler meat by garlic and copper. Poult. Sci. 76:1264-1271. DOI
20	National Research Council. 2000. Nutrient requirements of cattle. Washington: National Academy Press, p. 232.
21	Lawler, T. L., J. B. Taylor, and J. W. Finley. 2004. Effect of supranutritional and organically bond selenium on performance carcass characteristics, and selenium distribution in fishing beef steers. J. Anim. Sci. 82:1488-1493.
22	McDowell, L. R. 1992. Minerals in Animal and Human Nutrition. New York: Academic Press.
23	Olson, O. E., L. S. Palmer, and E. L. Cary. 1975. Modification of the official fluorometric method for selenium in plants. J. Assoc. Off. Anal. Chem. 58:117-121.
24	Perez, J. R. O., M. C. Bressan, and N. Bragagnolo. 2002. Efeito do peso ao abate de cordeiros Santa Ines e bergamacia sobre o perfil de acidos graxos. colesterol e propriedades quimicas. Cienc. Tecnol. Aliment. 22:11-18. DOI
25	Pesti, M. G. and R. L. Bakalli. 1996. Studies on feeding of cupric sulfate pentahydrate and cupric citrate to broiler chickens. Poult. Sci. 75:1086-1091. DOI ScienceOn
26	SAS. 2004. SAS start guide. Version 6.03. Cary, NC: SAS Institute Inc., 1028p.
27	Skrivan, M., S. Sevcikova, and E. Tumova. 2002. Effect of copper sulphate supplementation on performance of broiler chickens, cholesterol content and fatty acid profile of meat. Czech J. Anim. Sci. 47:275-280.
28	Saldanha, T., M. R. Mazali, and M. Bragagnolo. 2004. Avaliacao comparativa entre dois metodos para determinacao do colesterol em carnes e leite. Cienc. Tecnol. Aliment. 24:109-113. DOI
29	Zhang, W., R. L. Wang, X. P. Zhu, O. K. David, C. W. Yue, and Z. H. Jia. 2007. Effect of dietary copper on ruminal fermentation, nutrient digestibility and fibre characteristics in Chashmere goats. Asian-Aust. J. Anim. Sci. 20:1843-1848. DOI

3	Youcef Mehdi. (2015) Canadian Journal of Animal Science Meat composition and quality of young growing Belgian Blue bulls offered a fattening diet with selenium enriched cereals / 95 (3) , 465
1	Jianguo Wang. (2016) Biological Trace Element Research Influence of Dietary Copper on Serum Growth-Related Hormone Levels and Growth Performance of Weanling Pigs / 172 (1) , 134
2	Edyta Juszczuk-Kubiak. (2016) Biological Trace Element Research Effect of Inorganic Dietary Selenium Supplementation on Selenoprotein and Lipid Metabolism Gene Expression Patterns in Liver and Loin Muscle of Growing Lambs / 172 (2) , 336
5	Youcef Mehdi. (2016) Molecules Selenium in Cattle: A Review / 21 (5) , 545
1	W. S. Kwak. (2016) Journal of Animal Science and Technology Effect of feeding mixed microbial culture fortified with trace minerals on ruminal fermentation, nutrient digestibility, nitrogen and trace mineral balance in Sheep / 58 (1)
2314-5765	Marta del Puerto. (2017) International Journal of Food Science A Note on Fatty Acids Profile of Meat from Broiler Chickens Supplemented with Inorganic or Organic Selenium / 2017 (2314-5765) , 1
2	Eun Hye Jung. (2017) European Journal of Nutrition AMPK activation by liquiritigenin inhibited oxidative hepatic injury and mitochondrial dysfunction induced by nutrition deprivation as mediated with induction of farnesoid X receptor / 56 (2) , 635
1	(2017) Food & Nutrition Research Effect of dietary copper addition on lipid metabolism in rabbits / 61 (1) , 1348866
1	Yongbo Wang. (2016) Nutrients Significant Beneficial Association of High Dietary Selenium Intake with Reduced Body Fat in the CODING Study / 8 (1) , 24
09312439	(2018) Journal of Animal Physiology and Animal Nutrition spp. agronomically biofortified with selenium / (09312439)
11	(2014) Physiological genomics Cross talk between mineral metabolism and meat quality: a systems biology overview / 51 (11) , 529
8	(2014) EFSA journal : European Food Safety Authority Revision of the currently authorised maximum copper content in complete feed / 14 (8) , None
11	(2014) Animal production science The potential of silage lactic acid bacteria-derived nano-selenium as a dietary supplement in sheep / 59 (11) , 1999
2	(2014) Acta veterinaria The evaluation of glutathione concentration in whole blood of Holstein dairy calves / 88 (2) , 129
6	(2014) Journal of animal physiology and animal nutrition Effects of sodium selenite addition on ruminal fermentation, microflora and urinary excretion of purine derivatives in Holstein dairy bulls / 103 (6) , 1719
14	(2014) Journal of agricultural and food chemistry Current Knowledge on Selenium Biofortification to Improve the Nutraceutical Profile of Food: A Comprehensive Review / 68 (14) , 4075
1	(2014) Italian journal of animal science : journal and official organ of the Scientific Association of Animal Production (A.S.P.A.) The effects of maternal supplementation of selenium and iodine via slow-release blouses in late pregnancy on milk production of goats and performance of their kids / 19 (1) , 502
4	(2021) Antioxidants The Effect of Different Sources of Selenium Supplementation on the Meat Quality Traits of Young Charolaise Bulls during the Finishing Phase / 10 (4) , 596
5	(2014) Nutrients Food Sources of Selenium and Its Relationship with Chronic Diseases / 13 (5) , 1739
17	(2014) Journal of agricultural and food chemistry Food Chemistry of Selenium and Controversial Roles of Selenium in Affecting Blood Cholesterol Concentrations / 69 (17) , 4935
12	(2021) Journal of animal science Effect of different selenium sources and concentrations on glutathione peroxidase activity and cholesterol metabolism of beef cattle / 99 (12) , skab321