Abstract
Nosocomial pneumonia (NP) is the third most common hospital-acquired infection and the leading cause of death due to hospital-acquired infection in the US. During pneumonia and non-pneumonia severe illness, respiratory tract secretions become enriched with the serine protease neutrophil elastase (NE). Several NE activities promote onset and severity of NP. NE in the airways causes proteolytic tissue damage, augments inflammation, may promote invasion of respiratory epithelium by bacteria, and disrupts respiratory epithelial barrier function. These NE activities culminate in enhanced bacterial replication, impaired gas exchange, fluid intrusion into the airways, and loss of bacterial containment that can result in bacteremia. Therefore, neutralizing NE activity may reduce the frequency and severity of NP. We evaluated human alpha-1 antitrypsin (AAT), the prototype endogenous NE inhibitor, as a suppressor of bacterial pneumonia and pneumonia-related pathogenesis. In AAT+/+ transgenic mice that express human AAT in lungs, mortality due to Pseudomonas aeruginosa (P.aer) pneumonia was reduced 90% compared to non-transgenic control animals. Exogenous human AAT given to non-transgenic mice also significantly reduced P.aer pneumonia mortality. P.aer-infected AAT+/+ mice demonstrated reduced lung tissue damage, decreased bacterial concentrations in lungs and blood, and diminished circulating cytokine concentrations compared to infected non-transgenic mice. In vitro, AAT suppressed P.aer internalization into respiratory epithelial cells and inhibited NE or P.aer-induced disruption of epithelial cell barrier function. The beneficial effects of human AAT in murine P.aer pneumonia raise the possibility of AAT use as a prophylactic treatment for NP in humans, and suggest a role for AAT as an innate immune mediator.
Highlights
Pneumonia is often categorized by location of acquisition
Our studies suggest that alpha-1 antitrypsin (AAT) is an endogenous molecule with pneumonia-suppressive function, which implies that AAT deficit weakens host defense against pneumonia
We examined AAT effects as pneumonia prophylaxis (AAT present before onset of pneumonia), and we did not evaluate AAT administration as a treatment after infection
Summary
Community-acquired pneumonia (CAP) is contracted in the nonhealth care setting, and nosocomial pneumonia (NP) is acquired in the hospital. NP is the third most common hospital-acquired infection in the US [1,2,3], with about 250,000 cases of NP in 2002 [3]. NP is the leading cause of death due to hospital-acquired infection [2, 3], and in 2002 there were nearly 36,000 NP-related deaths in the US (crude mortality of about 15%) [3]. NP is caused predominantly by Gram-negative rods (nearly 42% of isolates), with Pseudomonas aeruginosa (P.aer) accounting for about 20% of isolates [2, 4, 5]
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