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Title: The occluding loop in cathepsin B defines the pH dependence of inhibition by its propeptide. Author: Quraishi O, Nägler DK, Fox T, Sivaraman J, Cygler M, Mort JS, Storer AC. Journal: Biochemistry; 1999 Apr 20; 38(16):5017-23. PubMed ID: 10213604. Abstract: Papain-like proenzymes are prone to autoprocess under acidic pH conditions. Similarly, peptides derived from the proregion of cathepsin B are potent pH-dependent inhibitors of that enzyme; i.e., at pH 6.0 the inhibition of human cathepsin B by its propeptide is defined by slow binding kinetics with a Ki of 3.7 nM and at pH 4.0 by classical kinetics with a Ki of 82 nM. This pH dependency is essentially eliminated either by the removal of a portion of the enzyme's occluding loop through deletion mutagenesis or by the mutation of either residue Asp22 or His110 to alanine; e.g., the mutant enzyme His110Ala is inhibited by its propeptide with Ki's of 2.0 +/- 0.3 nM at pH 4.0 and 1.1 +/- 0.2 nM at pH 6.0. For the His110Ala mutant the inhibition also displays slow binding kinetics at both pH 4.0 and pH 6.0. As shown by the crystal structure of mature cathepsin B [Musil, D., et al. (1991) EMBO J. 10, 2321-2330] Asp22 and His110 form a salt bridge in the mature enzyme, and it has been shown that this bridge stabilizes the occluding loop in its closed position [Nägler, D. K., et al. (1997) Biochemistry 36, 12608-12615]. Thus the pH dependency of propeptide binding can be explained on the basis of a competitive binding between the occluding loop and the propeptide. At low pH, when the Asp22-His110 pair forms a salt bridge stabilizing the occluding loop in its closed conformation, the loop more effectively competes with the propeptide than at higher pH where deprotonation of His110 and the concomitant destruction of the Asp22-His110 salt bridge results in a destabilization of the closed form of the loop. The rate of autocatalytic processing of procathepsin B to cathepsin B correlates with the affinity of the enzyme for its propeptide rather than with its catalytic activity, thus suggesting a possible influence of occluding loop stability on the rate of processing.[Abstract] [Full Text] [Related] [New Search]