The anion transporter and a 28 kDa protein are selectively photolabeled by p-azidobenzylphlorizin under conditions that alter RBC morphology, flexibility, and volume.

Tritiated p-azidobenzylphlorizin (p-AzBPhz) was photoactivated in the presence of red blood cells under conditions previously found to alter morphology, flexibility and volume. When less than 0.25 million molecules were added per cell, only a 28 kDa peptide was photolabeled: at 1-2 million molecules added, band 3 also incorporated significant radioactivity. When using leaky ghosts, other proteins became labeled, including those limited to the cytoplasm. Protein N-deglycosylation caused a shift of radiolabeled band 3 to higher Rf values on SDS-PAGE gels but not for the 28 kDa band; the latter was, however, susceptible to enzymatic digestion by NANase (N-acetylneuraminidase) III but not by NANase II. Inhibition of photoincorporation into both receptors by unlabeled p-AzBPhz was dose-dependent. Mercuric chloride and p-CMBS selectively blocked 28 kDa peptide labeling. DIDS partially blocked at band 3; after 15% inhibition, greater DIDS concentrations caused increased incorporation into the 28 kDa peptide. These results, and a temperature-dependent labeling pattern, suggest that: (i) cellular changes occur when p-AzBPhz binds to the exofacial sides of the anion transporter and 28 kDa peptide; (ii) these proteins may be physically associated in the native membrane; (iii) they mediate ligand-induced changes in morphology, flexibility, and volume.