A dipeptidyl trifluoromethyl ketone, N-acetyl-L-leucyl-L-[1-13C]phenylalanyl trifluoromethyl ketone, was synthesized. This compound inhibits chymotrypsin with Ki = 1.2 microM [Imperiali B., & Abeles, R.H. (1986) Biochemistry 25, 3760-3767]. The complex formed between this inhibitor and alpha-chymotrypsin was examined with 1H, 13C, and 19F NMR spectroscopy to establish its structure in solution. The keto group of the trifluoro ketone is present as an ionized hemiketal group as deduced from the comparison of its 13C chemical shift with those of model hemiketals. The pKa of the hemiketal hydroxyl in the complex is approximately 4.9, which is about 4.2 units lower than the pKa of model hemiketals. This observation provides direct evidence that serine proteases are able to stabilize the oxyanions of tetrahedral adducts. Evidence is also presented for the presence of an Asp-His H bond and protonation of the imidazole group of His-57 in the tetrahedral adduct. The pKa of His-57 is higher than 10. This observation directly indicates that the pKa of His-57 is elevated in a complex containing a tetrahedral adduct.
The effects of pH on the kinetics of association and dissociation of chymotrypsin and the dipeptidyl trifluoromethyl ketone (TFK) N-acetyl-L-leucyl-L-phenylalanyltrifluoromethane (1) were examined through the pH range 4-9.5. The pH dependence of the association rate (kon) is similar to that of kcat/Km for ester and peptide substrates and is dependent on two pK's at 7.0 and 8.9. We assign these pK's to the active site His and to the amino group of the N-terminal isoleucine residue. Ki for the complex of 1 and chymotrypsin has a pH dependence very similar to that of kon, and we conclude that the same ionizable groups which determine the pH dependence of kon are involved. The dissociation constant of the enzyme-inhibitor complex (koff) shows no pH dependence between pH 4 and pH 9.5. The data indicate that the inhibitor reacts with a form of the enzyme in which His 57 is unprotonated, and the resulting complex contains no groups which ionize between pH 4 and pH 9.5. This is consistent with conclusions previously reached from NMR data (Liang & Abeles, 1987). These experiments led to the conclusion that 1 reacts with chymotrypsin to form a tetrahedral complex in which His 57 is protonated (pK greater than 9.5) and the OH group of serine 195 has added to the carbonyl group of 1 to form an ionized hemiketal (pK less than 4.9). The pK of His 57 is increased by greater than 3 units over that in the free enzyme, and the pK of the hemiketal decreased by greater than 4 units compared to the pK in solution.(ABSTRACT TRUNCATED AT 250 WORDS)
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