Equilibrium Study on the Binding between Thermolysin and Streptomyces Metalloprotease Inhibitor, Talopeptin (MKI)

Abstract

The binding between thermolysin and its specific inhibitor, talopeptin (MKI), was found to show a fluorescence increase when excited at 280 nm and 295 nm, and a difference spectrum characterized by two peaks at 294 nm and 285 nm with a shoulder around 278 nm, indicating a microenvironmental change in tryptophan residue(s) of thermolysin and/or talopeptin. The inhibitor constant of talopeptin against thermolysin, K₁, was determined over the pH range 5–9 from the inhibition of the enzyme activity towards 3-(2-furylacryloyl)-glycyl-L-leucine amide (FAGLA) as a substrate. The dissociation constant of thermolysin-talopeptin complex, K_d, determined directly from fluorometric titration was in good agreement with the inhibitor constant, K₁, between pH 6 and 8.5. The pH dependence of K₁ and Kd suggested that at least two ionizable groups of thermolysin in their protonated forms are essential for the binding between thermolysin and talopeptin. The temperature dependence of K₁ at pH 5.5 indicated that the binding is largely exothermic (ΔH°=−12 kcal/mol) and essentially enthalpγdriven.