Elastase-mediated phosphatidylserine receptor cleavage impairs apoptotic cell clearance in cystic fibrosis and bronchiectasis
R. William Vandivier, … , Frank J. Accurso, Peter M. Henson
R. William Vandivier, … , Frank J. Accurso, Peter M. Henson
Published March 1, 2002
Citation Information: J Clin Invest. 2002;109(5):661-670. https://doi.org/10.1172/JCI13572.
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Elastase-mediated phosphatidylserine receptor cleavage impairs apoptotic cell clearance in cystic fibrosis and bronchiectasis

Abstract

Cystic fibrosis is characterized by an early and sustained influx of inflammatory cells into the airways and by release of proteases. Resolution of inflammation is normally associated with the orderly removal of dying apoptotic inflammatory cells through cell recognition receptors, such as the phosphatidylserine receptor, CD36, and αv integrins. Accordingly, removal of apoptotic inflammatory cells may be impaired in persistent inflammatory responses such as that seen in cystic fibrosis airways. Examination of sputa from cystic fibrosis and non–cystic fibrosis bronchiectasis patients demonstrated an abundance of apoptotic cells, in excess of that seen in patients with chronic bronchitis. In vitro, cystic fibrosis and bronchiectasis airway fluid directly inhibited apoptotic cell removal by alveolar macrophages in a neutrophil elastase-dependent manner, suggesting that elastase may impair apoptotic cell clearance in vivo. Flow cytometry demonstrated that neutrophil elastase cleaved the phosphatidylserine receptor, but not CD36 or CD32 (FcγRII). Cleavage of the phosphatidylserine receptor by neutrophil elastase specifically disrupted phagocytosis of apoptotic cells, implying a potential mechanism for delayed apoptotic cell clearance in vivo. Therefore, defective airway clearance of apoptotic cells in cystic fibrosis and bronchiectasis may be due to elastase-mediated cleavage of phosphatidylserine receptor on phagocytes and may contribute to ongoing airway inflammation.

Authors

R. William Vandivier, Valerie A. Fadok, Peter R. Hoffmann, Donna L. Bratton, Churee Penvari, Kevin K. Brown, Joseph D. Brain, Frank J. Accurso, Peter M. Henson

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Figure 3

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Elastase, or cathepsin G, inhibits ingestion of apoptotic cells. (a) HMD...
Elastase, or cathepsin G, inhibits ingestion of apoptotic cells. (a) HMDMs were cocultured with apoptotic Jurkat cells in the presence of media or increasing concentrations of elastase, cathepsin G, or proteinase 3. The mean phagocytic index as percentage of control ± SEM is shown for three to six replicates per group. Control mean phagocytic index: 44.1 ± 8.5. *Significantly different from media (P < 0.05). (b) Human AMs were cocultured with apoptotic human PMNs following pretreatment with media (Control), 1 μM PMN elastase (NE) with or without a specific elastase inhibitor (NEI, 100 μM), or 1 μM cathepsin G (Cat G) with or without a specific CGI (10 μM). Coculture was done in the presence of DMP777 (20 μM) to prevent carryover of elastase activity. The mean phagocytic index as percentage of control ± SEM is shown for three or four replicates per group. Control mean phagocytic index: 8.4 ± 1.9. *Significantly different from control (P < 0.05).