Partial purification of the Na+-dependentd-glucose transport system from renal brush border membranes

Abstract

A membrane extract enriched with the Na⁺-dependentd-glucose transport system was obtained by differential cholate solubilization of rat renal brush border membranes in the presence of 120mm Na⁺ ions. Sodium ions were essential in stabilizing the transport system during cholate treatment. This membrane extract was further purified with respect to its Na⁺-coupledd-glucose transport activity and protein content by the use of asolectin-equilibrated hydroxylapatite. The reconstituted proteoliposomes prepared from this purified fraction showed a transient accumulation ofd-glucose in response to a Na⁺ gradient. The observed rate of Na⁺-coupledd-glucose uptake by the proteoliposomes represented about a sevenfold increase as compared to that of the reconstituted system derived from an initial 1.2% cholate extract of the membranes. Other Na⁺-coupled transport systems such asl-alanine, α-ketoglutarate and phosphate were not detected in these reconstituted proteoliposomes.