PH dependence of progesterone interaction with progesterone-binding globulin. Kinetic and equilibrium studies.

Abstract

The kinetics of binding and dissociation for the progesterone-binding globulin (PBG)-progesterone complex have been measured as a function of pH. The association rate constant appears to be independent of pH from pH to 10 with an average value of kon = 8.5 X 10(7)M-1 S-1. The dissociation rate constant is strongly pH dependent with the dependency defined by: koff = k0 (1 + [H+]/K1 + K2/[H+])(1 + K3*/[H+])/(1 + K3/[H+]). The best values for the various parameters were k0 = 0.0785 s-1, pK1 = 5.30, pK2 = 10.54, pK3* = 7.41, and pK3 = 7.21. Simpler expressions were inadequate to fit the data, and it was concluded that at least three ionizing residues are responsible for the stability of the PBG-progesterone complex. The affinity constant was determined by equilibrium dialysis over the range of pH 3 to 12. The ratio of the association and dissociation rate constants is in agreement with the affinity constant from pH 6.5 to 10.5. The influence of pH on the conformation and binding activity of PBG was also investigated. Denaturation by acid, base, or guanidine hydrochloride leads to a reversible loss of binding activity. Regain of binding activity in all cases is slow with half-times of 0.5 to 2.7 h, depending on conditions. The rate of acid denaturation was found to be incompletely protonated at pH 1.4, suggesting a buried carboxylic acid residue. The slow renaturation of PBG might be due to the difficulty of burying a charged residue in the protein's interior coupled with steric hindrance by the large carbohydrate moiety of PBG.