Kinetic Studies of the Reaction of Ferric Soybean Leghemoglobins with Hydrogen Peroxide, Cyanide and Nicotinic Acid

Abstract

A kinetic study of the reaction of two soybean leghemoglobins (components a and c) with hydrogen peroxide to form the oxidized compound (leghemoglobin IV) has been carried out over the pH range 2.5--10. Three different ionization processes of leghemoglobins with pKa values of 3,4.7 +/- 0.2 and 8.2 +/- 0.1 are required to explain the rate/pH profiles. Protonation of the former group and ionization of the latter cause a decrease in the rate of reaction of the hemoproteins with H2O2. The results are compared to those obtained for the reactions of plant peroxidases and myoglobin with H2O2. The results obtained from the kinetic study of cyanide binding to soybean leghemoglobins indicate that CN- is the reactive species. Two ionization processes of leghemoglobins with pKa values of 4.7 +/- 0.2 and 8.2 +/- 0.1 affect the reaction rates. The association and dissociation rate constants corresponding to nicotinic acid binding to leghemoglobins a and c have been measured over the pH range 2.5--7. The dissociation rate constant is affected by ionization of a group with pKa less than 2.5 for both leghemoglobin-nicotinate complexes. In this pH range the association rate constant is only affected by ionization of a group with pKa value of 4.7 +/- 0.2. The analysis of these results shows that both ionization processes corresponding to ring nitrogen atom of the ligand (pKa approximately equal to 4.9) and to a heme-linked group (pKa approximately equal to 4.7 +/- 0.2) influence the association rate constant. Furthermore, it appears that in the binding site of leghemoglobins the pKa value corresponding to ionization of the ring nitrogen atom of nicotinic acid is shifted from the normal value of 4.9 to a value of less than 2.5. This pecularity might explain the exceptional reactivity of leghemoglobins for nicotinic acid, over a large pH range. For both cyanide and nicotinic acid binding reactions, the ionizable group of leghemoglobins with pKa value of 4.7 +/- 0.2 seems to act as an electrostatic gate. When the group is deprotonated, it restricts the access of anion ligands to the heme pocket. For all the three reactions studied, leghemoglobin a reacts about twice as fast as leghemoglobin c.