Kinetics of recombination of the subunits of human chorionic gonadotropin. Effect of subunit concentration

Abstract

The rate of formation of human chorionic gonadotropin from its alpha and beta subunits has been measured at neutral pH and 37 degrees C as a function of subunit concentration, using the fluorescence probe, 1,8-anilinoaphthalene-sulfonate (ANS), to monitor the reaction. The subunits were prepared by acid dissociation of the intact hormone (pH less than or equal to 2, 37 degrees C). Following neutralization, the rate of appearance of ANS fluorescence was identical with the rate of recovery of receptor binding activity and both of these properties were completely recovered. Kinetic data obtained over a 100-fold range of subunit concentrations (1.5 to 146 muM) were not compatible with a simple second-order reaction scheme, but required at least one additional step. The data were best fit by a model in which the subunits reversibly form an intermediate complex (alpha + beta in equilibrium alphabeta) which then undergoes a conformational rearrangement to form the native structure (alphabeta leads to H). Ultraviolet difference absorption measurements suggest that most of the change in the environment of the tyrosyl residues occurs during this second step.