Atypical amino acids inhibit histidine, valine, or lysine transport into rat brain

JK Tews, AE Harper - American Journal of Physiology …, 1983 - journals.physiology.org
JK Tews, AE Harper
American Journal of Physiology-Regulatory, Integrative and …, 1983journals.physiology.org
Transport of histidine, valine, or lysine into rat brain slices and across the blood-brain barrier
(BBB) was determined in the presence of atypical nonprotein amino acids. Competitors of
histidine and valine transport in slices were large neutral amino acids including norleucine,
norvaline, alpha-aminooctanoate, beta-methylphenylalanine, and alpha-
aminophenylacetate. Less effective were aromatic amino acids with ring substituents;
ineffective were basic amino acids and omega-amino isomers of norleucine and …
Transport of histidine, valine, or lysine into rat brain slices and across the blood-brain barrier (BBB) was determined in the presence of atypical nonprotein amino acids. Competitors of histidine and valine transport in slices were large neutral amino acids including norleucine, norvaline, alpha-aminooctanoate, beta-methylphenylalanine, and alpha-aminophenylacetate. Less effective were aromatic amino acids with ring substituents; ineffective were basic amino acids and omega-amino isomers of norleucine and aminooctanoate. Lysine transport was moderately depressed by homoarginine or ornithine plus arginine; large neutral amino acids were also similarly inhibitory. Histidine or valine transport across the BBB was also strongly inhibited by large neutral amino acids that were the most effective competitors in the slices (norvaline, norleucine, alpha-aminooctanoate, and alpha-aminophenylacetate); homoarginine and 8-aminooctanoate were ineffective. Homoarginine, ornithine, and arginine almost completely blocked lysine transport, but the large neutral amino acids were barely inhibitory. When rats were fed a single meal containing individual atypical large neutral amino acids or homoarginine, brain pools of certain large neutral amino acids or of arginine and lysine, respectively, were depleted.
American Physiological Society