Interaction of zinc and hemoglobin: binding of zinc and the oxygen affinity.

Stripped human hemoglobin was shown to have a high apparent zinc association constant of 1.3 X 10(7) M-1 with a stoichiometry of one zinc for every two hemes. The saturation of this site produces a dramatic 3.7-fold increase in the oxygen affinity. The effect of zinc on the oxygen affinity is interrelated with the interaction of 2,3-diphosphoglyceric acid (2,3-DPG) and hemoglobin. Thus, a smaller zinc effect is observed in the presence of added 2,3-DPG. Information about the location of the zinc-binding site responsible for the increased oxygen affinity has been obtained by comparing the binding of zinc to various hemoglobins. Blocking the beta93 sulfhydryl group decreases the apparent zinc association constant by an order of magnitude. The substitution of histidine-beta143 in hemoglobin Abruzzo [beta143 (H21) His leads to Arg] and hemoglobin Little Rock [beta143 (H21) His leads to Gln] decreases the apparent zinc association constant by two orders of magnitude. The substitution of histidine-beta143 by other amino acids and the reaction of the beta93 sulfhydryl group are known to produce dramatic increases in the oxygen affinity. The binding of zinc to one or both of these amino acids can, therefore, explain the zinc-induced increase in the oxygen affinity.