Inhibition of Anion Transport in the Red Blood Cell by Anionic Amphiphilic Compounds. II. Chemical Properties of the Flufenamate-binding Site on the Band 3 Protein

Overview

Journal Biochim Biophys Acta

Specialties Biochemistry
Biophysics

Date 1982 May 7

PMID 7093245

Citations 12

Authors

J L Cousin

R MOTAIS

Affiliations

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Abstract

Flufenamate is a powerful inhibitor of anion exchange in red blood cells. It binds to the band 3 protein involved in the transport as discussed in the preceding paper (Cousin, J.-L. and Motais, R. (1982) Biochim. Biophys. Acta 687, 147-155). The present study is concerned with the chemical properties of the inhibitory binding site. Structure-activity studies were performed with two sets of compounds derivated from anthranilate (considered as the basic structure of flufenamate). The molar concentrations required to produce 50% inhibition (I50) varied over more than a 10(4) range. The inhibitory activity was quantitatively correlated with the hydrophobic character of the molecules and the electron-withdrawing capacity of the substituents. Comparison between the inhibitory potency of flufenamate analogs made a definition of the contribution of each part of the molecule in the binding to the receptor possible. The results suggest that anionic inhibitors bind to a site which presents a positively charged groups at the water-protein interface whereas the hydrophobic part of the molecule is inserted into an hydrophobic and electron-donor region of the protein. The specificity of amphiphilic compounds towards anion transport is discussed.

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