Rumen-protected methionine fed to dairy cows: Bioavailability and effects on plasma amino acid pattern and plasma metabolite and insulin concentrations

An experiment was performed to compare the bioavailability of D,L-methionine (Met) of two rumen (polymer and fat)-protected Met forms (Smartamine(TM); Rhone-Poulenc, Animal Nutrition, Antony, France and Mepron(R); Degussa AG, Hanau, Germany, respectively) fed once daily (at 0730 h) in amounts of 50 g per cow for 5 d. Six dairy cows were used in the crossover design. Blood samples were obtained from jugular veins 3 d before and 5 d after the start of Met supplementation at 1000, 1400, and 1800 h, and the three blood samples were pooled for analyses. Smartamine M(TM) feeding caused elevations of sulfur-containing amino acids (Met, Cys, and taurine) and reductions of Val and Ile and the total of branched-chain amino acids (Val + Leu + Ile). Mepron M85(R) feeding caused only a rise of Met concentrations. Concentrations of Met, taurine, and Gin were higher when Smartamine M(TM) than when Mepron M85(R) was fed. Concentrations of nonesterified fatty acids were reduced, and those of insulin were increased only by Mepron M85(R) feeding. Milk urea concentrations were lower in cows fed Mepron M85" than in controls, but milk yields; concentrations of fat, protein, and lactose; and somatic cell counts did not significantly change during the experiment and were not different between groups. Food intake, body weight, and body condition scores were not affected. In conclusion, only Mepron M85(R) supplementation influenced nonesterified fatty acids and insulin concentrations. However, the bioavailability of Met from Smartamine M(TM) was greater than of Mepron M85" and effects on other plasma-free amino acids were more marked. Whether less Met in the form of Smartamine M(TM) as Mepron M85(R) is needed to have the same effects on milk yield and composition needs to be investigated with doses used in practice.