Comparative studies of two cathepsin B isozymes from porcine spleen. Isolation, polypeptide chain arrangements, and enzyme specificity

Abstract

Our previous studies on carbohydrate structures of purified porcine spleen cathepsin B indicated that there are two cathepsin B isozymes, each containing a different carbohydrate (Takahashi, T., Schmidt, P.G., and Tang, J. (1984) J. Biol. Chem. 259, 6059-6062). We have now isolated these two enzymes and carried out a comparative study on their structures and enzymic properties. The major isozyme (CB-I) is a two-chain enzyme (Mr = 28,000) with a light chain (Mr = 5,000) and a heavy chain (Mr = 23,000), whereas the minor enzyme (CB-II) is a single chain enzyme (Mr = 27,000). The NH2-terminal amino acid residues of CB-I were leucine and valine for the light and heavy chain, respectively. However, the NH2-terminal residue of CB-II was not available for automated Edman degradation. In addition, peptide mapping experiments indicated a difference in the primary structure of these two proteins. Despite such structural differences, they are similar in many enzymic properties. CB-I was more catalytically efficient than CB-II toward synthetic substrates, except for the substrate benzoyl-L-arginine beta-naphthylamide for which the relative catalytic efficiency is reversed. Both isozymes degraded glucagon by a dipeptidyl carboxypeptidase activity. Under the same conditions, CB-I was 4-5 times more efficient than CB-II. The results indicate that the cathepsin B isozymes are two separate gene products, but they are similar in enzymic properties.