Alpha-1 antitrypsin deficiency impairs lung antibacterial immunity in mice
Lena Ostermann, … , Tobias Welte, Ulrich A. Maus
Lena Ostermann, … , Tobias Welte, Ulrich A. Maus
Published February 8, 2021
Citation Information: JCI Insight. 2021;6(3):e140816. https://doi.org/10.1172/jci.insight.140816.
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Research Article Pulmonology

Alpha-1 antitrypsin deficiency impairs lung antibacterial immunity in mice

Abstract

Alpha-1 antitrypsin (AAT) is a major inhibitor of serine proteases in mammals. Therefore, its deficiency leads to protease–antiprotease imbalance and a risk for developing lung emphysema. Although therapy with human plasma-purified AAT attenuates AAT deficiency–related emphysema, its impact on lung antibacterial immunity is poorly defined. Here, we examined the effect of AAT therapy on lung protective immunity in AAT-deficient (KO) mice challenged with Streptococcus pneumoniae. AAT-KO mice were highly susceptible to S. pneumoniae, as determined by severe lobar pneumonia and early mortality. Mechanistically, we found that neutrophil-derived elastase (NE) degraded the opsonophagocytically important collectins, surfactant protein A (SP-A) and D (SP-D), which was accompanied by significantly impaired lung bacterial clearance in S. pneumoniae–infected AAT-KO mice. Treatment of S. pneumoniae–infected AAT-KO mice with human AAT protected SP-A and SP-D from NE-mediated degradation and corrected the pulmonary pathology observed in these mice. Likewise, treatment with Sivelestat, a specific inhibitor of NE, also protected collectins from degradation and significantly decreased bacterial loads in S. pneumoniae–infected AAT-KO mice. Our findings show that NE is responsible for the degradation of lung SP-A and SP-D in AAT-KO mice affecting lung protective immunity in AAT deficiency.

Authors

Lena Ostermann, Regina Maus, Jennifer Stolper, Lisanne Schütte, Konstantina Katsarou, Srinu Tumpara, Andreas Pich, Christian Mueller, Sabina Janciauskiene, Tobias Welte, Ulrich A. Maus

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Figure 2

Effect of AAT deficiency on outcome in pneumococcal pneumonia.

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Effect of AAT deficiency on outcome in pneumococcal pneumonia. WT mice (...
WT mice (white bars) and AAT-KO mice (gray bars) were infected orotracheally with S. pneumoniae and were analyzed at the indicated time points, as shown (A). (B and C) Bacterial loads in BALF (B) and lung tissue (C) at 24 hours and 48 hours postinfection. Values are shown as mean ± SD (n = 6–9 mice per time point and treatment group) and are representative of 2 independent experiments. (D) Survival analysis of S. pneumoniae–infected WT and AAT-KO mice (n = 9 mice per group). (E and I) Photographic illustration of lungs from S. pneumoniae–infected WT and AAT-KO mice at day 3 postinfection. (FL) Lung histopathology of untreated (F and J, scale bars: 500 μm), or S. pneumoniae–infected WT (G, scale bar: 1 mm; H scale bar: 50 μm) or AAT-KO mice (K, scale bar: 1 mm; L, scale bar: 50 μm). Illustrations in EL are representative of n = 4 mice per group. (M) Desmosine levels in BALF of untreated (CL) or S. pneumoniae–infected WT or AAT-KO mice, as indicated. *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001 compared with untreated or S. pneumoniae–infected WT mice, +++P ≤ 0.001 compared with day 2 (Mann-Whitney U test, log-rank test).