High-affinity phlorizin binding to brush border membranes from small intestine: Identity with (a part of) the glucose transport system,dependence on the Na+-gradient,partial purification

In the presence of an NaSCN gradient phlorizin binds with a high affinity (K_d ? 4.7 μM) to vesicles derived from brush border membranes of intestinal cells of rabbits. The value for K_d corresponds closely to that of K_i determined from phlorizin inhibition of sugar transport. The apparent affinity for phlorizin is decreased if NaCl is substituted for NaSCN and decreased substantially if the gradient of NaSCN is allowed to dissipate prior to the phlorizin binding. The number of high affinity binding sites is about 11 pmol/mg protein. Additional binding to low affinity sites can amount to as much as 600 pmol/mg protein after prolonged exposure to phlorizin (5 min). The high affinity sites are related to glucose transport based on the similarity of the K_d and K_i values under a variety of conditions and on the inhibition of the binding by D-glucose but not by D-fructose. The transport system and the high affinity phlorizin binding sites can be enriched by a factor of 2–3 by treatment of vesicles with papain, which does not affect the transport system, but considerably hydrolyzes nonrelevant protein.