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Metabolism of propionate in the tissues of the sheep gut

Published online by Cambridge University Press:  25 March 2008

T. E. C. Weeks
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
A. J. F. Webster
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
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Abstract

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1. The extent of propionate metabolism during absorption from the gut and the amounts of L-lactate formed and glucose utilized by the portal-drained viscera were determined in conscious sheep from measurements of portal venous blood flow and portal venous and aortic metabolite concentrations. The sheep were fasted overnight and given primed continuous intraruminal infusions of volatile fatty acids (VFA) at two rates, supplying propionate at 40·0 and 79·9 mmol/h. Measurements were made during the 5th and 6th hours of the infusion, when rumen liquor VFA concentrations were constant.

2. The rate of L-lactate formation by the portal-drained viscera was not affected by the VFA infusions and accounted for approximately 15 % of the probable total lactate entry rate.

3. Considerable amounts of glucose were taken up by the portal-drained viscera, amounting to approximately 35 % of the probable glucose entry rate. If this glucose was metabolized through the glycolytic pathway, this would at all times have accounted for the amounts of L-lactate formed.

4. Portal venous blood flow was positively correlated with VFA infusion rates and with the net amount of propionate appearing in the portal blood.

5. It is concluded that although propionate may be metabolized by the rumen epithelium, the unique pathway of L-lactate formation from propionate is of limited quantitative significance to the animal, although it may be of importance to the rumen epithelium itself.

Type
General Nutrition
Copyright
Copyright © The Nutrition Society 1975

References

Annison, E. F., Lindsay, D. B. & White, R. R. (1963). Biochem. J. 88, 243.Google Scholar
Ash, R. & Baird, G. D. (1973). Biochem. J. 136, 311.Google Scholar
Baird, G. D., Hibbitt, K. G., Hunter, G. D., Lund, P., Stubbs, M. & Krebs, H. A. (1968). Biochem. J. 97, 53.Google Scholar
Baird, G. D., Symonds, H. W. & Ash, R. (1974). Proc. Nutr. Soc. 33, 70A.Google Scholar
Bauman, D. E., Davis, C. L. & Bucholtz, H. F. (1971). J. Dairy Sci. 54, 1282.CrossRefGoogle Scholar
Bensadoun, A., Cushman, L. L. & Reid, J. T. (1966). Fedn Proc. Fedn Am. Socs exp. Biol. 25, 543 Abstr.Google Scholar
Bergman, E. N., Katz, M. L. & Kaufman, C. F. (1970). Am. J. Physiol. 219, 785.Google Scholar
Bergman, E. N., Reid, R. S., Murray, M. G., Brockway, J. M. & Whitelaw, F. G. (1965). Biochem. J. 97, 53.CrossRefGoogle Scholar
Bergman, E. N. & Wolff, J. E. (1971). Am. J. Physiol. 221, 586.CrossRefGoogle Scholar
Bücher, T., Czok, R., Lamprecht, W. & Latzko, E. (1963). In Methods of Enzymatic Analysis p. 253 [Bergmeyer, H. U., editor]New York and London: Academic Press.Google Scholar
Hohorst, H.-J. (1963). In Methods of Enzymatic Analysis p. 266 [Bergmeyer, H. U., editor]New York and London: Academic Press.Google Scholar
Hungate, R. E. (1966). The Rumen and its Microbes p. 194. London and New York: Academic Press.Google Scholar
Judson, G. J. & Leng, R. A. (1973). Br. J. Nutr. 29, 175.CrossRefGoogle Scholar
Leng, R. A. (1970 a). Adv. vet. Sci. 14, 209.Google Scholar
Leng, R. A. (1970 b). In Physiology of Digestion and Metabolism in the Ruminant p. 406 [Phillipson, A. T., editor]Newcastle upon Tyne: Oriel Press Ltd.Google Scholar
Leng, R. A., Steel, J. W. & Luick, J. R. (1967). Biochem. J. 103, 785.CrossRefGoogle Scholar
Lindsay, D. B. (1970). In Physiology of Digestion and Metabolism in the Ruminant p. 438 [Phillipson, A. T., editor]Newcastle upon Tyne: Oriel Press Ltd.Google Scholar
Lindsay, D. B. (1971). Proc. Nutr. Soc. 30, 272.Google Scholar
Narasimhalu, P. R. (1970). Energy contribution by glucose, ketones, lactate and volatile fatty acids in bovines. PhD Thesis, Washington State University.Google Scholar
Ørskov, E. R. (1973). Res. vet. Sci. 14, 110.CrossRefGoogle Scholar
Pennington, R. J. & Pfander, W. H. (1957). Biochem. J. 65, 109.Google Scholar
Pennington, R. J. & Sutherland, T. M. (1956). Biochem. J. 63, 618.Google Scholar
Roe, W. E., Bergman, E. N. & Kon, K. (1966). Am. J. vet. Res. 27, 729.Google Scholar
Slein, M. W. (1963). In Methods of Enzymatic Analysis p. 117 [Bergmeyer, H. U., editor]New York and London: Academic Press.Google Scholar
Smith, R. H. (1959). J. agric. Sci., Camb. 52, 72.Google Scholar
Steel, J. W. & Leng, R. A. (1973). Br. J. Nutr. 30, 475.Google Scholar
Thompson, J. R. (1971). Gluconeogenesis from propionate in the lactating cow. PhD Thesis, University of California, Davis, California.Google Scholar
Wahle, K. W. J., Weekes, T. E. C. & Sherratt, H. S. A. (1972). Comp. Biochem. Physiol. 41B, 759.Google Scholar
Webster, A. J. F., Osuji, P. O., White, F. & Ingram, J. F. (1974). Publs Eur. Ass. Anim. Prod. no. 14, p. 55.Google Scholar
Webster, A. J. F. & White, F. (1973). Br. J. Nutr. 29, 279.CrossRefGoogle Scholar
Weekes, T. E. C. (1971). Res. vet. Sci. 12, 373.Google Scholar
Weekes, T. E. C. (1972). J. agric. Sci., Camb. 79, 409.CrossRefGoogle Scholar
Weekes, T. E. C. (1973). Observations on the metabolic role of the rumen epithelium. PhD Thesis, University of Aberdeen.Google Scholar
Weekes, T. E. C. (1974). Comp. Biochem. Physiol. 49B, 393.Google Scholar
Weekes, T. E. C. & Webster, A. J. F. (1974). Proc. Nutr. Soc. 33, 71A.Google Scholar
Weigand, E., Young, J. W. & Jacobson, N. L. (1967). J. Dairy Sci. 50, 1003.Google Scholar
Weigand, E., Young, J. W. & McGilliard, A. D. (1972 a). Biochem. J. 126, 201.CrossRefGoogle Scholar
Weigand, E., Young, J. W. & McGilliard, A. D. (1972 b). J. Dairy Sci. 55, 589.Google Scholar
Wiltrout, D. W. & Satter, L. D. (1972). J. Dairy Sci. 55, 307.CrossRefGoogle Scholar
Young, J. W., Thorp, S. L. & de Lumen, H. Z. (1969). Biochem. J. 114, 83.Google Scholar