A new variant of the anion transport protein in human erythrocytes.

The major plasma membrane protein of human erythrocytes is the anion transport protein, termed protein 3. We previously reported a variant form of protein 3 that is elongated on the amino-terminal end of the molecule, which is exposed on the cytoplasmic side of the membrane, but otherwise its features are identical with those of the normal molecule. We have termed this molecule protein 3 variant 1. We now report a new variant form, protein 3 variant 2. The erythrocyte donor was a double heterozygote whose red cells possess a normal protein 3 and a protein 3 variant which is elongated and possesses a second variation at the 4,4'-diisothiocyano-2,2'-stilbenedisulfonic acid (DIDS) reactive site. Variant 2 reacts with 4,4'-diisothiocyano-1,2-diphenylethane-2,2'-disulfonic acid (H2DIDS) more readily than does the normal molecule. At high pH values, H2DIDS acts as a bifunctional cross-linking agent; it cross-links the proteolytic products generated by Pronase (or chymotrypsin) treatment of variant 2 less efficiently than noted for normal protein 3 or the first variant. Thus, the newly identified molecule has an alteration at the DIDS reactive site, which is near the outer surface of the membrane. The results can be interpreted as indicating that the DIDS binding site of variant 2 is more exposed than the normal molecule, but further removed from the site on the carboxyl-terminal fragment involved in cross-linking. Although there is a difference in the reactivity of the two protein 3 chains in variant 2, the reaction of variants 1 and 2 and normal cells with varying concentrations of [3H]H2DIDS results in the same amount of incorporation in all cells. Since protein 3 exists as a dimer or higher aggregate in the membrane, these results may indicate an interaction between monomers.(ABSTRACT TRUNCATED AT 250 WORDS)