Influence of pH on the binding of suramin to human serum albumin

Abstract

The pH dependence of the binding of suramin to albumin has been studied by means of equilibrium dialysis and circular dichroism. Dialysis experiments have revealed that the association constants of the high and low affinity binding sites are strongly influenced by the pH. At pH 6.0 K1 = 1.4 x 10(6) M-1/n1 = 2.0 and K2 = 1.3 x 10(5) M-1/n2 = 1.0; at pH 9.2 K1 = 2.0 x 10(5) M-1/n1 = 2.0. At the high pH no low affinity sites could be demonstrated any more. The pH dependence of the induced ellipticity of the suramin-albumin complex at low molar drug-to-protein ratio r = 0.1 can be superimposed upon the neutral-to-base (N-B) transition of albumin alone. By means of the Linderstrøm-Lang equation for electrostatic interaction and a two-state model for the N-B transition of albumin, evidence is obtained of a link of the pH dependent binding behaviour of suramin to albumin and the neutral-to-base transition of albumin. The possible correlation of this link with transport processes of suramin in the body and with selective uptake of suramin in cells and parasites is discussed.