Biochemical characterization of the arginine-specific proteases of Porphyromonas gingivalis W50 suggests a common precursor

Extracellular proteases of Porphyromonas gingivalis specific for arginyl peptide bonds are considered to be important virulence factors in periodontal disease. In order to determine the number, inter-relationship and kinetic properties of these proteases, extracellular enzymes with this peptide-bond specificity were purified and characterized from P. gingivalis W50. Three forms, which we denote RI, RI-A and RI-B, accounted for all of the activity in the supernatant. All three enzymes contain an ct chain of similar to 54 kDa with the same N-terminal amino acid sequence. RI is a heterodimer of non-covalently linked alpha and beta chains which migrate to the same position on SDS/PAGE but which can be resolved by 8 M urea/PAGE. RI-A and RI-B are both monomeric, but the molecular mass of RI-B (70-80 kDa) is significantly increased due to post-translational modification with lipopolysaccharide. All forms show absolute specificity for peptide bonds with Arg in the P1 position and are also capable of hydrolysing N-terminal Arg and C-terminal Arg-Arg peptide bonds. Thus they show limited amino- and carboxy-peptidase activity. For the hydrolysis of N-alpha-benzoyl-L-Arg-p-nitroanilide, the pH optimum is 8.0 at 30 degrees C. The V-max for all three enzymes is controlled by ionization of two residues with apparent pK(a)s at 30 degrees C of 6.5 +/- 0.05 and 9.7 +/- 0.05, and Delta H values of similar to 29 kJ/mol and similar to 24 kJ/mol in the enzyme-substrate complex. By analogy with papain, the pK(a) of 6.5 could be ascribed to a Cys and the pK(a) of 9.7 to a His residue. E-64 [L-trans-epoxysuccinyl-leucylamide-4-(4-guanidino)butane] is a competitive inhibitor of RI, RI-A and RI-B. Based on physical properties and kinetic behaviour, RI-A appears to be analogous to gingipain from P. gingivalis HG66. However the alpha/beta structure of RI differs significantly from that of the high-molecular-mass multimeric complex of gingipain containing four haemagglutinins described by others. Since the genes for RI and high-molecular-mass gingipain are identical, the data indicate that an alternative processing pathway is involved in the formation of RI from the initial precursor. Furthermore, the identical N-termini and enzymic properties of the catalytic component of RI, RI-A and RI-B suggest that the maturation pathway of the RI precursor may also give rise to RI-A and RI-B. The physiological functions of these isoforms and their role in the disease process may become more apparent through examination of their interactions with host proteins.