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Studies on salivary and pancreatic lipases of the pre-ruminant calf

Published online by Cambridge University Press:  01 June 2009

Joyce Toothill
Joyce Toothill
Affiliation:
National Institute for Research in Dairying, Shinfield, Reading, RG2 9 AT, U.K.
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Summary

Salivary and pancreatic lipases of the pre-ruminant calf have been studied using ion-exchange chromatography and gel filtration. In addition, pancreatic lipase has been fractionated using concanavalin A-affinity chromatography. The effects of 5,5′-dithiobis(2-nitrobenzoic acid), organic solvents and trypsin on pancreatic lipase have also been investigated. The effect of taurodeoxycholate on the lipolytic activity of the 2 lipases has been compared. Salivary lipase behaved as a single enzyme on ion-exchange chromatography, and gel filtration gave a mol. wt value of 52000 for the enzyme. Although pancreatic lipase appeared to be a single enzyme on gel filtration, with a mol. wt of almost 80000, the lipase was shown by ion-exchange and affinity chromatography to consist of at least 2 enzymes of mol. wts 72000 and 60000, and did not require colipase for maximum activity in the presence of high concentrations of bile salts. Colipase-dependent lipase, mol. wt about 45000, and probably amounting to not more than 10% of the total activity, was also present. This was the predominant form only after large losses in total lipolytic activity had occurred, as after treatment with a mixture of ether, ethanol and deoxycholate, or prolonged action of trypsin. When the concentration of taurodeoxycholate was increased from zero to 1 mM in a tributyrin substrate, the lipolytic activites of calf salivary and pancreatic lipases, and pig pancreatic lipase, increased. At a concentration of 4 mM-taurodeoxycholate, calf salivary lipase activity was higher, that of calf pancreatic lipase slightly lower and pig pancreatic lipase activity markedly lower.

Type
Original Articles
Information
Journal of Dairy Research , Volume 49 , Issue 3 , August 1982 , pp. 347 - 360
Copyright
Copyright © Proprietors of Journal of Dairy Research 1982

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References

REFERENCES

Andrews, P. 1964 Estimation of the molecular weights of proteins by Sephadex gel-filtration. Biochemical Journal 91 222233Google Scholar
Chapman, H. W. & Hamilton, F. J. 1962 Oesophageal fistulation of calves. Australian Veterinary Journal 38 400Google Scholar
Corring, T., Aumaitre, A. & Rérat, A. 1972 [Permanent pancreatic fistulation in the pig. Application: secretory response to meal ingestion.] Annates de Biologie Animate, Biochimie, Biophysique 12 109124Google Scholar
Debarre, M., Thivend, P., Lefaivre, J. & Toullec, R. 1979 Bilary secretion in the preruminant calf. Annates de Recherches Vétérinaires 10 425427Google Scholar
Erlanson, C. & Borgström, B. 1972 Purification and further characterization of co-lipase from porcine pancreas. Biochimica et Biophysica Acta 271 400412Google Scholar
Garner, C. W. Jr & Smith, L. C. 1972 Porcine pancreatic lipase: a glycoprotein. Journal of Biological Chemistry 247 561565Google Scholar
Gelotte, B. 1964 Separation of pancreatic enzymes by gel filtration. Acta Chemica Scandinavica 18 12831291Google Scholar
Hamosh, M., Ganot, D. & Hamosh, P. 1979 Rat lingual lipase: characteristics of enzyme activity. Journal of Biological Chemistry 254 1212112125Google Scholar
Julien, R., Canioni, P., Rathelot, J., Sarda, L. & Plummer, T. H. Jr 1972 Studies on bovine pancreatic lipase and colipase. Biochimica et Biophysica Acta 280 215224Google Scholar
Julien, R., Rathelot, J., Canioni, P., Sarda, L. & Plummer, T. H. Jr 1975 Further characterization of bovine pancreatic lipase. Biochimica et Biophysica Acta 379 157163Google Scholar
Kimura, H., Kitamura, T. & Tsuji, M. 1972 Studies on human pancreatic lipase I. Interconversion between low and high molecular forms of human pancreatic lipase. Biochimica et Biophysica Acta 270 307316Google Scholar
McCormick, R. J. & Stewart, W. E. 1967 Pancreatic secretion in the bovine calf. Journal of Dairy Science 50 568571Google Scholar
Maylié, M. F., Charles, M., Gache, C. & Desnuelle, P. 1971 Isolation and partial identification of a pancreatic colipase. Biochimica et Biophysica Acta 229 286289Google Scholar
Nelson, J. H., Jensen, R. G. & Pitas, R. E. 1977 Pregastric esterase and other oral lipases – a review. Journal of Dairy Science 60 327362Google Scholar
Ramsey, H. A. 1962 Electrophoretic characterization of pregastric esterase from the calf. Journal of Dairy Science 45 14791486Google Scholar
Rathelot, J., Julien, R., Canioni, P., Coeroli, C. & Sarda, L. 1975 Studies on the effect of bile salt and colipase on enzymatic lipolysis. Improved method for the determination of pancreatic lipase and colipase. Biochimie 57 11171122Google Scholar
Sarda, L., Maylié, M. F., Roger, J. & Desnuelle, P. 1964 [Behaviour of pancreatic lipase on Sephadex. Application to the purification and molecular weight determination of the enzyme.] Biochimica et Biophysica Acta 89 183185Google Scholar
Ternouth, J. H., Roy, J. H. B., Thompson, S. Y., Toothill, J., Gillies, C. M. & Edwards-Webb, J. D. 1975 Concurrent studies of the flow of digesta in the duodenum and of exocrine pancreatic secretion of calves 3. Further studies on the addition of fat to skim milk and the use of non-milk proteins in milk-substitute diets. British Journal of Nutrition 33 181196Google Scholar
Toothill, J. & Thompson, S. Y. 1977 Salivary and pancreatic lipases of the preruminant calf. Proceedings of the Nutrition Society 36 106 AGoogle Scholar
Verger, R., De Haas, G. H., Sarda, L. & Desnuelle, P. 1969 Purification from porcine pancreas of two molecular species with lipase activity. Biochimica et Biophysica Acta 188 272282Google Scholar
Verger, R., Sarda, L. & Desnuelle, P. 1971 On the sulfhydryl groups of porcine pancreatic lipase and their possible role in the activity of the enzyme. Biochimica et Biophysica Acta 242 580592Google Scholar
Worthington Biochemical Corporation 1972 Trypsin (bovine pancreas) 3.4.4.4. Worthington Enzyme Manual p. 125. Freehold, N.J.: Worthington Biochemical CorporationGoogle Scholar