Activation and characterization of procarboxypeptidase B from human plasma.

Recently we reported the isolation and cloning of a novel plasma procarboxypeptidase B that binds plasminogen [Eaton, D. L., Malloy, B. E., Tsai, S. P., Henzel, W., & Drayna, D. (1991) J. Biol. Chem. 266, 21833-21838]. This plasma procarboxypeptidase is structurally similar to tissue procarboxypeptidases, and initial substrate studies showed that this plasma protein behaves like a basic carboxypeptidase and is now known as human plasma procarboxypeptidase B (pro-pCPB). However, unlike the tissue procarboxypeptidases, pro-pCPB is extremely unstable to trypsin activation. Trypsin cleaves pro-pCPB at two sites: Arg-92 and Arg-330. Cleavage at Arg-92 releases the activation peptide and generates an active enzyme. However, cleavage at Arg-330 inactivates pCPB. This renders the characterization of pCPB difficult. We have found that 6-amino-n-hexanoic acid (epsilon ACA), a compeptitive inhibitor of basic carboxypeptidases, selectively limits trypsin cleavage of pro-pCPB. In the presence of epsilon ACA, trypsin cleavage at Arg-330 is significantly limited while the cleavage at Arg-92 is unaffected. Using this approach, active pCPB can now be obtained. Kinetic characterization shows that pCPB behaves like other known basic carboxypeptidases. pCPB is more specific for substrates with C-terminal arginine than those with C-terminal lysine for all the natural and synthetic peptides tested. It also hydrolyzes the synthetic ester substrate more efficiently than the synthetic peptide substrate, especially at high pH. The active site Zn2+ can be replaced with other metals with change in substrate specificity.(ABSTRACT TRUNCATED AT 250 WORDS)