Studies on isolated subcellular components of cat pancreas

Abstract

Transport of alanine was studied in isolated plasma membrane vesicles from cat pancreas using a rapid filtration technique. The uptake is osmotically sensitive and the kinetics ofl-alanine transport are biphasic showing a saturable and a nonsaturable component. The saturable component is seen only when a sodium gradient directed from the medium to the vesicular space is present. Under this condition an overshooting uptake ofl-but not ofd-alanine occurs. The Na⁺ gradient stimulated uptake ofl-alanine is inhibited byl-serine andl-leucine and stimulated when the membrane vesicles had been preloaded withl-alanine,l-serine orl-leucine. The ionophore monensin inhibits stimulation of uptake caused by a sodium gradient. In the presence of valinomycin or carbonyl cyanidep-trifluoromethoxyphenylhydrazone (CFCCP), the sodium-dependent transport is augmented in vesicles preloaded with K₂SO₄ or H⁺ ions (intravesicular pH 5.5), respectively. In the presence of different anions, the Na⁺-dependent transport is stimulated according to increasing anionic penetration through membranes (lipid solubility). We conclude that a sodium dependent electrogenic amino acid transport system is present in pancreatic plasma membranes.