Water exchange through erythrocyte membranes. V. Incubation with papain prevents the P-chloromercuri-benzensulfonate inhibition of water diffusion studied by a nuclear magnetic resonance technique.

The changes in water diffusion across human erythrocyte membrane following exposure to proteolytic enzymes and to p-chloromercuribenzene sulfonate (PCMBS) have been studied on isolated erythrocytes suspended in isotonic solutions. Trypsin digested glycophorin without significantly changing the pattern of other polypeptides in erythrocyte membrane. On the contrary, with chymotrypsin or papain an extensive digestion of band 3 protein occurred. No changes in water diffusion were noticed after exposure of erythrocytes to trypsin, chymotrypsin or papain. Neither trypsin nor chymotrypsin treatment prevented the inhibition of water diffusion induced by PCMBS. In contrast, exposure of erythrocytes to papain did hamper the inhibitory effect of subsequent incubation with PCMBS. Taking into account the degradation of band 3 protein by papain it appears that the binding site for PCMBS playing a role in the inhibition of water diffusion is located in this protein.