An active mechanism for completion of the final stage of protein degradation in the liver, lysosomal transport of dipeptides

Abstract

Accumulation of products of proteolysis (e.g. dipeptides) in lysosomes may have pathological consequences. In the present experiment we have investigated the existence of a dipeptide transporter in a membrane preparation of liver lysosomes using Gly-3H-Gln as the probe. The results showed that (a) there was transport of Gly-Gln into an osmotically reactive space inside the lysosomal membrane vesicles; (b) transport was stimulated by acidification (pH 5.0) of the external medium; (c) there was a coupling between transport of protons and Gly-Gln with a stoichiometry of 1:1; (d) the presence of both acidic pH and membrane potential was necessary for uphill transport of Gly-Gln; (e) a single transporter with a Km of 4.67 mM mediated the uptake of Gly-Gln; and (f) Gly-Gln uptake was inhibited by dipeptides and tripeptides but not by amino acids. The results suggest the presence of a low affinity proton-coupled oligopeptide transporter in the liver lysosomal membrane which mediates transfer of dipeptides from a region of low dipeptidase activity (intralysosome) to a region of high dipeptidase activity (cytosol). In this manner, the transporter provides an active mechanism for completion of the final stage of protein degradation.