Interaction of local anesthetics with the transport system of glucose in human erythrocytes

## Abstract Alcohols inhibit the exchange transport of glucose in human erythrocytes. Comparing the inhibition by monohydroxy‐alcohols, which have different distribution coefficients between medium and membrane, shows that the degree of inhibition depends mainly upon the concentration of the alcoho

## Abstract The thermodynamic parameters ΔH°, ΔF°, ΔS° and the pH dependence of the interaction between steroids and the glucose carrier in human erythrocytes have been studied. The results indicate that, according to the structure of the steroids, hydrophilic as well as hydrophobic bonds can be in

The D-glucose transporter from human erythrocytes has been purified and reconstituted by Kasahara and Hinkle (J Biol Chem 252:7394-7390). Using a similar purification scheme, we have isolated the protein with 65% of the extracted phospholipid at a lipid-protein ratio of 14: 1 by weight. The KD (0.14

## Abstract The inhibition of glucose transport by the non‐ionizable local‐anesthetic benzylalcohol is of the mixed type and independent of pH. The affinity of benzylalcohol to the free carrier is about three times larger than that to the carrier‐glucose complex.

## Abstract In glucose exchange transport into red blood cells the rate of glucose uptake showed two pH dependent maxima, with the larger at approximately pH 7.5 and the smaller one at pH 3. In the studied pH range the relation between the rate of glucose uptake and the substrate concentration fol

## Abstract The temperature dependence of the uptake of glucose by exchange transport is investigated at two pH values (7.5 and 5). The Arrhenius's energy of activation, the heat of activation, the free energy of activation and the entropy of activation are calculated. The parameters are different