Regulation of L-methionine and L-lysine uptake in chicken jejunal brush-border membrane by dietary methionine.

Abstract

In the chicken intestine, L-methionine is transported by systems that are specific for neutral amino acids (L- and B-like) and by systems that can also transport cationic amino acids (y(+)m and b(0,+)-like). These four uptake pathways have been investigated in brush-border membrane vesicles from the jejunum of chickens fed a diet enriched with 0.4% L-methionine. Methionine supplementation from the 1st to the 6th wk of age has no effect on body weight or on the efficiency of food utilization. The kinetic analysis of L-methionine influx across the transport systems specific for neutral amino acids shows, for system L, no dietary effect on the Michaelis constant (Km) and a 30% reduction in maximal velocity (Vmax); for system B it shows a decrease in Km (30%) and in Vmax (51%). Transport systems shared by cationic and neutral amino acids show no dietary effect on b(0,+) activity and a significant reduction in y(+)m Vmax, similar for L-methionine and L-lysine, both in the absence and in the presence of Na+ (L-methionine, 30 and 26% reduction; L-lysine, 19 and 28% reduction, respectively). The downregulation induced by L-methionine supplementation may be an adaptive response to reduce the risk of intoxication by dietary excess of L-methionine. These results support the view that the toxicity of the supplemented substrate can be an important factor in the regulation of amino acid transport by dietary content.