Comparisons of virulence between a Pseudomonas parent strain and an isogenic mutant devoid of protease IV have demonstrated a significant role for this enzyme during infection. We have characterized purified Pseudomonas aeruginosa protease IV in terms of its biochemical and enzymatic properties, and found it to be a unique extracellular protease. The N-terminal decapeptide sequence of protease IV is not homologous with any published protein sequence. Protease IV has a molecular mass of 26 kDa, an isoelectric point of 8.70, and optimum enzymatic activity at pH 10.0 and 45°C. Purified protease IV demonstrates activity for the carboxyl side of lysine-containing peptides and can digest a number of biologically important proteins, including immunoglobulin, complement components, fibrinogen, and plasminogen. Protease IV is not inhibited by thiol-, carboxyl-, or metalloproteinase inhibitors. The total loss of enzyme activity in the presence of N-p-tosyl-L-chloromethyl ketone and the partial inhibition of enzyme activity by diisopropyl fluorophosphate or phenylmethylsulfonyl fluoride imply that protease IV is a serine protease. Inhibition by dithiothreitol and -mercaptoethanol suggests that intramolecular disulfide bonds are essential for enzyme activity. The characteristics of this enzyme suggest that inhibitors of serine proteases could be developed into a medication designed to arrest tissue damage during Pseudomonas infection.
PASP is a protease that has not been previously identified. It causes corneal epithelial erosions, indicating its likely activity as a virulence-promoting factor in Pseudomonas keratitis.
The present study demonstrates for the first time that protease IV is synthesized as a large precursor that is processed intracellularly through an intermediate form and secreted into the extracellular milieu as a mature protease. The results also confirm a significant correlation between production of protease IV and corneal virulence.
Purpose
To analyze PASP in terms of its gene distribution and expression, its corneal pathologic effects, its enzymatic properties, and the protectiveness of the immune response to this protease.
Methods
Twenty-five strains of P. aeruginosa were analyzed for the PASP gene and secreted protein by PCR and Western blot analysis, respectively. Active recombinant (r)PASP (10 μg/20 μL) or heat-inactivated rPASP was intrastromally injected into rabbit corneas. Pathologic changes were monitored by slit lamp examination (SLE) and histopathology. Purified rPASP was assayed for cleavage of collagens and susceptibility to TLCK. Rabbit antibody to rPASP was produced and tested for enzyme inactivation, and actively immunized rabbits were challenged by intrastromal injection of active rPASP (5 μg).
Results
All 25 strains of P. aeruginosa analyzed were positive for the PASP gene and protein. SLE scores of eyes injected with active rPASP were significantly higher than control eyes at all postinjection times (PI; P ≤ 0.004). Histopathologic studies documented the destruction of the corneal epithelial layer and portions of the corneal stroma at 9 hours PI, and polymorphonuclear (PMN) leukocyte infiltration into the cornea by 24 hours after active rPASP injection. PASP cleaved type I and IV collagens and was susceptible to TLCK inhibition. PASP was present in the cytoplasm and periplasm, but only secreted PASP was enzymatically active. A high antibody titer (ELISA titer ≥ 10,000) was produced, but this antibody did not protect against active rPASP challenge.
Conclusions
PASP is a commonly produced Pseudomonas protease that can cleave collagens and cause corneal erosions.
The protease IV gene and its product are common to P. aeruginosa, but not to other Pseudomonas species. Protease IV activity varies among P. aeruginosa strains, and a mutant specifically deficient in this activity produced alkaline protease and had reduced corneal virulence.
Elastase production by P. putida caused significant increases in SLE scores whereas expression of alkaline protease caused limited corneal erosions. This suggests that the production of elastase during P. aeruginosa keratitis enhances ocular pathology, whereas alkaline protease production contributes to limited corneal erosion.
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