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The effects of hormones, other pharmacological agents and nutrition on plasma triglycerides and carcass composition in lambs and steers

Published online by Cambridge University Press:  02 September 2010

E. Payne
Affiliation:
MAFTech, Ruakura Agricultural Centre, Hamilton, New Zealand
B. C. Cope
Affiliation:
MAFTech, Ruakura Agricultural Centre, Hamilton, New Zealand
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Abstract

The effects of recombinantly derived growth hormone (GH), oestradiol-17β plus trenbolone acetate, clofibrate, melatonin and fasting on basal plasma triglycerides (TG) and TG entry rate were determined in wether lambs given lucerene/barley pellets ad libitum. Clofibrate was administered at 2 × 0·5 g capsules orally, GH (0·25 mg/kg live weight) was injected subcutaneously daily whilst oestradiol-17β, oestradiol-17β plus trenbolone acetate and melatonin were slow release implants (either 4 or 4·8 mg, 4 nig and 20 nig and 18 mg respectively) placed subcutaneously in the ear. Both fasting and oestradiol treatments raised basal TG levels without influencing TG entry rates, defined as the maximum rate of change of plasma TG 3 to 6h following a dose of Triton WR1339 of at least 0·2 g/kg live weight. Entry rates were similar to those previously reported for goats but were higher than those reported for sheep. Triton WR1339 used to determine entry rates was found to reduce food intake at all levels in some sheep despite reports to the contrary. Among the various treatments, only oestradiol-17β and trenbolone acetate influenced body composition as determined by chemical analysis of minced carcasses, resulting in an increased gain of carcass protein and decreased gain of carcass fat. Clofibrate, melatonin and Triton, if allowance is made for Triton-induced loss in food intake, had no clear effects on body fatness. Overall the effects of hormones on plasma TG appeared to be small and it seems improbable that plasma TG are involved in effects of hormones on fatness.

Type
Research Article
Copyright
Copyright © British Society of Animal Science 1991

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References

Anonymous. 1990. Catalase. In Biochemical organic components for research and diagnostic reagents, p. 276. Sigma Chemical Company, St Louis.Google Scholar
Baker, N., Garfinkel, A. L. and Schotz, M. C. 1968. Hepatic triglyceride secretion in relation to lipogenesis and free fatty acid mobilisation in fasted and glucose-refed rats. Journal ofLipid Research 9:17.Google ScholarPubMed
Bass, J. J., Oldham, J. M., Sauerwein, H., Hodgkinson, S. C., Breier, B. H. and Gluckman, P. D. 1990. The influence of nutritional status and growth hormone treatment on insulin-like growth factor-I, hepatic growth hormone receptors, growth and body composition. Journal of Endocrinology 128:181186.CrossRefGoogle Scholar
Bradford, M. 1976. A rapid and sensitive method for the quantification of microgram quantities of protein utilising the principle of protein-dye binding. Analytical Biochemistry 72: 248254.CrossRefGoogle Scholar
Bucolo, G. and David, H. 1973. Quantitative determination of serum triglycerides by the use of enzymes. Clinical Chemistry 19:476482.CrossRefGoogle ScholarPubMed
Christie, W. W. 1978. The composition, structure and function of lipids in the tissues of ruminant animals. Progress in Lipid Research 17:111205.CrossRefGoogle ScholarPubMed
Fielding, C. J. and Havel, R. J. 1977. Lipoprotein lipase. Archives of Pathology and Laboratory Medicine 101: 225229.Google Scholar
Johnsson, I. D., Hart, I. C. and Butler-Hogg, B. W. 1985. The effects of exogenous bovine growth hormone and bromocriptine on growth, body development, fleece weight and plasma concentrations of growth hormone, insulin and prolactin in female lambs. Animal Production 41: 207217.Google Scholar
Kirton, A. H., Barton, R. A. and Rae, A. L. 1962. The efficiency of determining the chemical composition of lamb carcasses. Journal of Agricultural Science, Cambridge 58: 381386.CrossRefGoogle Scholar
Kris-Etherton, P. M. and Etherton, T. D. 1982. The role of lipoproteins in lipid metabolism of meat animals. Journal of Animal Science 55: 804817.CrossRefGoogle ScholarPubMed
Lawes Agricultural Trust. 1977. Genstat V, mark 4.01. Rothamsted Experimental Station, Harpenden.Google Scholar
Lazarov, P. B. and Duve, C. de 1976. A fatty acyl-CoA oxidising system in rat liver peroxisomes: enhancement by clofibrate, a hypolipidemic drug. Proceedings of the National Academy of Science 73: 20432046.CrossRefGoogle Scholar
McLeod, M. G., Whitehead, C. C., Griffin, H. D. and Jewitt, T. R. 1988. Energy and nitrogen retention and loss in broiler chickens genetically selected for leanness and fatness. British Poultry Science 29: 285292.CrossRefGoogle Scholar
Mamo, J. C. L., Snoswell, A. M. and Topping, D. L. 1983. Plasma triacylglycerol secretion in sheep. Paradoxical effects of fasting and alloxan diabetes. Biochimica et Biophysica Ada 753: 273278.Google ScholarPubMed
Mazel, P. 1971. Experiments illustrating drug metabolism in vitro. In Fundamentals of drug metabolism and drug disposition (ed. Habue, B. N., Mandel, H. G. and Way, E. F.), p. 546. Williams and Williams, Baltimore.Google Scholar
Mazur, A., Al-Kotobe, M. and Rayssiguier, V. 1987. Influence of lipomobilisation sur la secretion des triglycerides par le foie chez le mouton. Reproduction Nutrition Developpement 27: 317318.CrossRefGoogle Scholar
Muir, L. A., Wein, S., Duquette, P. F., Rickes, E. L. and Cordes, E. H. 1983. Effects of exogenous growth hormone and diethylstilbestrol on growth and carcass composition of growing lambs. Journal of Animal Science 56: 13151323.CrossRefGoogle ScholarPubMed
Nash, T. 1953. Estimation of formaldehyde by the Hantsch reaction. Biochemical Journal 55: 416421.CrossRefGoogle Scholar
Nilsson-Ehle, P., Garfinkel, A. D. and Schotz, M. C. 1980. Lipolytic enzymes and plasma lipoprotein metabolism. Annual Review of Biochemistry 49: 667693.CrossRefGoogle ScholarPubMed
Niumsup, P., McDowell, G. H.Leenanuruksa, D. and Gooden, J. M. 1985. Plasma triglyceride metabolism in Iactating ewes and growing calves treated with growth hormone. Proceedings of the Nutrition Society of Australia 10: 154.Google Scholar
Omura, T. and Sato, R. 1964. The carbon monoxide-binding pigment of liver microsomes. Journal of Biological Chemistry 239: 23702378.CrossRefGoogle ScholarPubMed
Otway, S. and Robinson, D. S. 1967. The use of a non-ionic detergent (Triton WR1339) to determine rates of triglyceride entry into the circulation of rat under different physiological conditions. Journal of Physiology 190: 321332.CrossRefGoogle Scholar
Palmquist, D. L. 1976. A kinetic concept of lipid transport in ruminants. A review. Journal of Dairy Science 59: 355363.CrossRefGoogle Scholar
Scaife, J. R., Shehab-Eldin, F. M. and Galbraith, H. 1982. Effects of subcutaneous implantation of trenbolone acetate and oestradiol-17ß on plasma lipid concentrations in sheep. Hormone and Metabolic Research 14: 589592.CrossRefGoogle Scholar
Schultz, L. H. and Esdale, W. J. 1971. Triton-induced hyperlipemia in goats under various physiological conditions. Journal of Dairy Science 54: 11731179.Google ScholarPubMed
Singh, S. B., Scaife, J. R. and Galbraith, H. 1988. Blood and tissue lipid composition and lipase activity in wether lambs treated with trenbolone acetate combined with oestradiol 17β at two different live weights. Animal Production 47: 8796.Google Scholar
Singh, S. B., Scaife, J. R., Galbraith, H. and Jessiman, C. 1985. Effect of oestrogenic and androgenic compounds on growth and body composition of male castrate lambs. Proceedings of the Nutrition Society 44: 93A.Google Scholar
Storry, J. E., Tuckley, B. and Hall, A. J. 1969. The effects of intravenous infusions of triglycerides on the secretion of milk fat in the cow. British Society of Nutrition 23:157172.CrossRefGoogle ScholarPubMed
Tume, R. K., Thornton, R. F. and Johnson, G. W. 1983. Lipoprotein lipase of sheep and rat adipose tissues. Australian Journal of Biological Sciences 36:4148.CrossRefGoogle ScholarPubMed
Wrenn, T. R., Weyant, J. R., Mills, R. W. and Bitman, J. 1970. Alterations in blood and milk lipids produced by administration of Triton WR1339. Journal of Dairy Science 54: 266270.CrossRefGoogle Scholar
Zinn, S. A., Chapin, L. T., Enright, W. J., Schroeder, A. L., Stanisuewski, E. P. and Tucker, H. A. 1988. Growth, carcass composition and plasma melatonin in post-pubertal beef heifers fed melatonin. Journal of Animal Science. 66: 2127.CrossRefGoogle Scholar