Abstract

Chymases are chymotrypsin-like serine proteases that are found in large amounts in mast cell granules. So far, the extended cleavage specificities of eight such chymases have been determined, and four of these were shown to have a strong preference for acidic amino acids at position P2'. These enzymes have basic amino acids in positions 143 and 192 (Arg and Lys, respectively). We therefore hypothesized that Arg143 and Lys192 of human chymase mediate the preference for acidic amino acids at position P2' of substrates. In order to address this question, we performed site-directed mutagenesis of these two positions in human chymase. Analysis of the extended cleavage specificities of two single mutants (Arg143-->Gln and Lys192-->Met) and the combined double mutant revealed an altered specificity for P2' amino acids, whereas all other positions were essentially unaffected. A weakened preference for acidic amino acids at position P2' was observed for the two single mutants, whereas the double mutant lacked this preference. Therefore, we conclude that positions 143 and 192 in human chymase contribute to the strong preference for negatively charged amino acids at position P2'. This is the first time that a similar combined effect has been shown to influence the cleavage specificity, apart from position P1, among the chymases. Furthermore, the conservation of the preference for acidic P2' amino acids for several mast cell chymases clearly indicates that other substrates than angiotensin I may be major in vivo targets for these enzymes.

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