Vascular Sources of Phenylalanine, Tyrosine, Lysine, and Methionine for Casein Synthesis in Lactating Goats

Vascular Sources of Phenylalanine, Tyrosine, Lysine, and Methionine for Casein Synthesis in Lactating Goats

B. J. Bequette ¹, F.R.C. Backwell ¹, C. E. Kyle ¹, A. G. Calder ¹, V. Buchan ¹, L. A. Crompton ², J. France ², and J. C. Macrae ¹

¹ Rowett Research Institute, Greenburn Road, Bucksburn, Aberdeen AB21 9SB, Scotland
² The University of Reading, Department of Agriculture, Reading RG6 2AT, England

The contribution to casein biosynthesis of peptides derivedfrom blood was examined in late lactation goats (254 to 295d in milk). Ratios of mammary uptake of free amino acids (AA)in blood to output of AA in milk protein and ratios of the enrichmentsof Phe, Tyr, Met, and Lys at isotopic plateau in secreted milkcasein to the free AA in arterial and mammary vein blood weremonitored during the last 5 h of a 30-h continuous i.v. infusionof [1-¹³ C]Phe, [²H₄]Tyr, [5-¹³CH,₃]Met,and [2-¹⁵N]Lys on two occasions: before (control)and on d 6 of an i.v. infusion of Phe (6 g/d). During the control,uptakes of free Phe and Met were less than their output in milk.This result was comparable with the labeling kinetic results,suggesting that vascular peptides contributed 5 to 11% of Pheand 8 to 18% of Met. Free Tyr and Lys uptakes during the controlwere sufficient for milk output; however, the labeling kineticsindicated that 13 to 25% of the Tyr and 4 to 13% of the Lyswere derived from peptides. Infusion of Phe increased the uptakeof free AA but reduced the contribution of peptides toward Phe(0 to 3%) and Tyr (8 to 14%) supply for casein synthesis. Wholebody hydroxylation of Phe to Tyr increased from 10 to 18% withthe infusion of Phe; within the mammary gland, this conversionwas lower (3 to 5%). Results suggest that the mammary utilizationof peptides containing Phe and Tyr appears to depend on thesupply of free AA in blood.

Key Words: mammary gland • peptides • casein synthesis • goats

Submitted on June 12, 1998
Accepted on September 21, 1998

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