Solubilization and reconstitution characteristics of hepatic system A-mediated amino acid transport.

In the liver, System A-mediated uptake of neutral amino acids may play a key role in metabolic control. Knowing the properties of the solubilized and reconstituted System A activity is important for future studies on the purification of the carrier protein. Solubilization of System A activity by the combination of 2.5% cholate and 4 M urea resulted in greater than 85% extraction of the activity. Previous removal of easily extracted plasma membrane proteins with 1% cholate alone followed by solubilization of the transporter with cholate/urea resulted in a 2-fold enrichment in transport activity. Based on the observation that the carrier protein aggregates in the presence of low detergent concentrations, a selective polyethylene glycol precipitation procedure was developed resulting in recovery of more than 70% of the initial transport activity and less than 10% of the total protein. A concomitant 10-fold enrichment in carrier activity was achieved. The precipitated carrier could be resuspended in buffer containing Triton X-100, asolectin, and glycerol. Transporter activity in this buffer was stable for up to 5 days when maintained at -20 degrees C or for 2 days at 4 degrees C. The general applicability of the devised reconstitution is illustrated by the presence of Systems N and Gly in the reconstituted proteoliposomes at specific activities greater than those in the native vesicles.