Thermodynamics of the binding of Streptomyces subtilisin inhibitor to .alpha.-chymotrypsin

Abstract

The binding of Streptomyces subtilisin inhibitor (SSI) to .alpha.-chymotrypsin (CT) (EC 3.4.21.1) was studied by isothermal and differential scanning calorimetry at pH 7.0. Thermodynamic quantities for the binding of SSI to the enzyme were derived as functions of temperature from binding constants (S. Matsumori, B. Tonomura, and K. Hiromi, private communication) and isothermal calorimetric experiments at 5-30.degree. C. At 25.degree. C, the values are .DELTA.G.degree.b = -29.9 kJ mol-1, .DELTA.Hb = +18.7 (.+-. 1.3) kJ mol-1, .DELTA.S.degree.b = +0.16 kJ K-1 mol-1, and .DELTA.Cp,b = -1.08 (.+-. 0.11) kJ mol-1. The binding of SSI to CT is weak compared with its binding to subtilisin [Uehara, Y., Tonomura, B., and Hiromi, K. (1978) J. Biochem. (Tokyo) 84, 1195-1202; Takahashi, K., and Fukada, H. (1985) Biochemistry 24, 297-300]. This difference is due primarily to a less favorable enthalpy change in the formation of the complex with CT. The hydrophobic effect is presumably the major source of the entropy and heat capacity changes which accompany the binding process. The unfolding temperature of the complex is about 7.degree. C higher than that of the free enzyme. The enthalpy and the heat capacity changes for the unfolding of CT were found to be 814 kJ mol-1 and 17.3 kJ K-1 mol-1 at 49.degree. C. The same quantities for the unfolding of the SSI-CT complex are 1183 kJ mol-1 and 39.2 kJ K-1 mol-1 at 57.degree. C.