Heterogeneity of amino acid transport in horse erythrocytes: a detailed kinetic analysis of inherited transport variation.

Abstract: SUMMARY1. Thoroughbred horses were divisible into five distinct amino acid transport subgroups on the basis of their erythrocyte permeability to L-alanine, measured uptake rates ranging from 5 to 625 pmol 1 cells-' h-1 (0-2 mM-extracellular L-alanine, 37 0C).2. Erythrocytes from animals belonging to the lowest L-alanine permeability subgroup (5-15 /tmol 1 cells-' h-1) (transport-deficient type) exhibited slow nonsaturable transport of this amino acid. In contrast, cells from horses of the four transport-positi… Show more

“…Lack of uptake for the system A-selective analogue 2-MeAlB and the negligible uptake for L-proline ( Table 1), suggest that system A is not expressed in umbilical vein endothelial cells. L-Serine transport was markedly dependent upon extracellular sodium, as expected if uptake occurred primarily via a Na+-dependent system ASC (alanine-serine-cysteine) and not a Na+-independent system as recently described in erythrocytes (Fincham, Mason, Paterson & Young, 1987) and the exocrine pancreas (Mann & Peran, 1986).…”

Expression of amino acid transport systems in cultured human umbilical vein endothelial cells.

“…Lack of uptake for the system A-selective analogue 2-MeAlB and the negligible uptake for L-proline ( Table 1), suggest that system A is not expressed in umbilical vein endothelial cells. L-Serine transport was markedly dependent upon extracellular sodium, as expected if uptake occurred primarily via a Na+-dependent system ASC (alanine-serine-cysteine) and not a Na+-independent system as recently described in erythrocytes (Fincham, Mason, Paterson & Young, 1987) and the exocrine pancreas (Mann & Peran, 1986).…”

Expression of amino acid transport systems in cultured human umbilical vein endothelial cells.

“…The exchange mechanism for radiolabelled L-serine was stereospecific and did not accept anionic, cationic or f-amino acids. The substrates which most readily stimulated L-serine efflux matched those most effective in accelerating L-alanine efflux via system asc in horse erythrocytes (Fincham et al 1985(Fincham et al , 1987. Unlike system asc in erythrocytes, leucine and methionine were as effective as valine in accelerating serine efflux in the pancreas (Fig.…”

“…7). Although the Na+-independent system asc in horse erythrocytes interacts with dibasic amino acids (Fincham et al 1987), system asc in pigeon erythrocytes (Vadgama & Christensen, 1985) and the rat pancreas reveals no such interaction (Fig. 7).…”

“…Borghetti & Gazzola, 1978;Shotwell, Kilberg & Oxender, 1983). Pancreatic transport of L.-serine is mediated bv more than one system , with -82 % of influx occurring through a Na+-independent carrier resembling system ase, recently characterized in horse erythrocytes (Fincham et al 1987). and the remnant Na+-dependent fraction being mediated systems A and ASC.…”

“…Recent transport studies in the perfused rat pancreas have established that the high rates of amino acid influx are mediated by at least four basolateral transporters: a small neutral Na'-dependent system A , a Na+-independent system asc selective for neutral amino acids of intermediate size (Fincham, Mason & Young, 1985;Vadgama & Christensen, 1985;Fincham, Mason, Paterson & Young, 1987), a large neutral Na+-independent system L (Alann. Habara & Peran, 1986;) and a cationic system v (Mann.…”

Amino acid efflux in the isolated perfused rat pancreas: trans‐stimulation by extracellular amino acids.

Amino Acid Transport