Biochemical characterization of human cathepsin X revealed that the enzymeis an exopeptidase, acting as carboxymonopeptidase or carboxydipeptidase

Cathepsin X, purified to homogeneity from human liver, is a single chain gl ycoprotein with a molecular mass of approximate to 33 kDa and pI 5.1-5.3. C athepsin X was inhibited by stefin A, cystatin C and chicken cystatin (K-i = 1.7-15.0 nm), but poorly or not at all by stefin B (K-i > 250 nm) and L-k ininogen, respectively. The enzyme was also inhibited by two specific synth etic cathepsin B inhibitors, CA-074 and GFG-semicarbazone. Cathepsin X was similar to cathepsin B and found to be a carboxypeptidase with preference f or a positively charged Arg in P1 position. Contrary to the preference of c athepsin B, cathepsin X normally acts as a carboxymonopeptidase. However, t he preference for Arg in the P1 position is so strong that cathepsin X clea ves substrates with Arg in antepenultimate position, acting also as a carbo xydipeptidase. A large hydrophobic residue such as Trp is preferred in the P1' position, although the enzyme cleaved all P1' residues investigated (Tr p, Phe, Ala, Arg, Pro). Cathepsin X also cleaved substrates with amide-bloc ked C-terminal carboxyl group with rates similar to those of the unblocked substrates. In contrast, no endopeptidase activity of cathepsin X could be detected on a series of o-aminobenzoic acid-peptidyl-N-[2,-dinitrophenyl]et hylenediamine substrates. Furthermore, the standard cysteine protease methy lcoumarine amide substrates (k(cat)/K-m approximate to 5.0 x 10(3) m(-1).s( -1)) were degraded approximate to 25-fold less efficiently than the carboxy peptidase substrates (k(cat)/K-m approximate to 120.0 x 10(3) m(-1).s(-1)).