We evaluated the roles of proteinase 3 (PR3) and human neutrophil elastase (HNE), two neutrophil serine proteinases in the mechanisms leading to airway inflammation and hypersecretion in cystic fibrosis (CF). Using specific enzyme-linked immunosorbent assay (ELISA), we found higher levels of PR3 than HNE in sputum from CF patients. Using two inhibitors, ICI (Imperial Chemical Industries) 200,355 (which inhibits both HNE and PR3) and secretory leukoproteinase inhibitor (SLPI) (which inhibits only HNE), we showed that PR3 was enzymatically active in sputum, and its activity, as assessed by SLPI-resistant serine proteinase activity, correlated highly with its antigenic concentration measured by ELISA. Interestingly, sputum pellet-associated serine proteinase activity was mostly due to HNE. PR3 purified from neutrophil azurophil granules triggered airway gland secretion, as measured by the release of radiolabeled molecules from cultured bovine tracheal serous cells pulse-labeled with Na235SO4. This secretory activity was inhibited by ICI 200,355. PR3 concentration in CF sputum was highly correlated with taurine concentration, a reliable marker of airway inflammation and respiratory scores (e.g., FEV1%), whereas no significant correlation was observed with HNE. We verified that Pseudomonas aeruginosa proteinases did not interfere with the assessment of PR3 and HNE. Indeed, the PR3/HNE ratio was greatest in patients chronically infected by P. aeruginosa. We suggest that PR3 may play a role in the hypersecretory process that is characteristic of CF.
Proteinase 3 (PR3) and human neutrophil elastase (HNE) are serine proteinases stored in the azurophilic granules of neutrophils. In contrast to HNE, PR3 is the target of antineutrophil cytoplasm antibodies (ANCA) in Wegener's granulomatosis. The mechanisms leading to the membrane expression of PR3 and HNE are still unclear and appear to be critical to understand the pathophysiological role of ANCA. Stably transfected rat basophilic cell lines (RBL) with PR3 or HNE were used to analyze the PR3 and HNE secretion mechanisms and differentiate between them. RBL cells were lacking endogenous PR3 and HNE. They were stably transfected with HNE or PR3 or an inactive mutant of PR3 (PR3S203A). Using the calcium ionophore A23187 as a secretagogue, higher serine proteinase activity was secreted in the supernatant of RBL/HNE than in RBL/PR3. It is interesting that PR3 and PR3/S203A were also expressed at the plasma membrane, thus demonstrating that serine protease activity was not required for plasma membrane expression. In contrast, no expression of plasma membrane HNE could be detected in RBL/HNE. Apoptosis induced by etoposide was evaluated by DNA fragmentation, the presence of cytoplasmic histone-associated DNA fragments, and annexin V labeling. No membrane HNE was detected in RBL/HNE. In contrast, in RBL/PR3 and in RBL/PR3S203A, the membrane expression of PR3 and PR3S203A increased with etoposide concentrations and appeared closely related to annexin V labeling. Our data suggest that membrane PR3 originates from two distinct pools, the granular pool mobilized following degranulation or a plasma membrane pool mobilized upon apoptosis.
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