Chymases are mast cell serine proteases with chymotrypsin-like primary substrate specificity. Amino acid sequence comparisons of ␣-chymases from different species indicated that certain rodent ␣-chymases have a restricted S1 pocket that could only accommodate small amino acids, i.e. they may, despite being classified as chymases, in fact display elastase-like substrate specificity. To explore this possibility, the ␣-chymase, rat mast cell protease 5 (rMCP-5), was produced as a proenzyme with a His 6 purification tag and an enterokinasesusceptible peptide replacing the natural propeptide. After removal of the purification tag/enterokinase site by enterokinase digestion, rMCP-5 bound the serineprotease-specific inhibitor diisopropyl fluorophosphate, showing that rMCP-5 was catalytically active. The primary specificity was investigated with chromogenic substrates of the general sequence succinyl-AlaAla-Pro-X-p-nitroanilide, where the X was Ile, Val, Ala, Phe or Leu. The activity was highest toward substrates with Val or Ala in the P1 position, whereas low activity toward the peptide with a P1 Phe was observed, indicating that the substrate specificity of rMCP-5 indeed is elastase-like. The extended substrate specificity was examined utilizing a phage-displayed random nonapeptide library. The preferred cleavage sequence was resolved as P4-(Gly/Pro/Val), P3-(Leu/Val/Glu), P2-(Leu/Val/Thr), P1-(Val/Ala/Ile), P1-(Xaa), and P2-(Glu/Leu/Asp). Hence, the extended substrate specificity is similar to human chymase in most positions except for the P1 position. We conclude that the rat ␣-chymase has converted to elastase-like substrate specificity, perhaps associated with an adoption of new biological targets, separate from those of human ␣-chymase.Chymases constitute a family of mast cell (MC) 1 serine proteases with chymotrypsin-like substrate specificity, i.e. they cleave a substrate at the C-terminal side of aromatic amino acids. When comparing the structures of a variety of leukocyte serine proteases, chymases form a separate branch, indicating a common ancestor for this subfamily. Based on the phylogenetic tree, chymases can be subdivided into ␣-and -chymases (1). A single gene encoding an ␣-chymase is present in most investigated mammalian species, but genes encoding -chymases seem to be present in rodents only. The rodent ␣-chymases rat mast cell protease 5 (rMCP-5) (2) (initially designated rMCP-3 (3)) and mouse mast cell protease 5 (mMCP-5) (4) are 95% identical at the protein level and have similar expression patterns, indicating that they are functional homologues (3, 5). mMCP-5 and rMCP-5 are predominantly expressed in connective tissue MCs but also early in MC development (6 -8).The substrate specificities of mMCP-5/rMCP-5 have never been studied, and thus, the biological function of the rodent ␣-chymases is unknown. In fact, neither of these chymases has been purified to allow any biochemical characterization. Instead, most data today on ␣-chymases originate from studies on the human chymase (HC). HC expressi...
