Influenza A–induced cystic fibrosis transmembrane conductance regulator dysfunction increases susceptibility to Streptococcus pneumoniae
Erin Y. Earnhardt, Jennifer L. Tipper, Adonis D’Mello, Ming-Yuan Jian, Elijah S. Conway, James A. Mobley, Carlos J. Orihuela, Hervé Tettelin, Kevin S. Harrod
Erin Y. Earnhardt, Jennifer L. Tipper, Adonis D’Mello, Ming-Yuan Jian, Elijah S. Conway, James A. Mobley, Carlos J. Orihuela, Hervé Tettelin, Kevin S. Harrod
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Research Article Infectious disease Virology

Influenza A–induced cystic fibrosis transmembrane conductance regulator dysfunction increases susceptibility to Streptococcus pneumoniae

Abstract

Influenza A virus (IAV) infection is commonly complicated by secondary bacterial infections that lead to increased morbidity and mortality. Our recent work demonstrates that IAV disrupts airway homeostasis, leading to airway pathophysiology resembling cystic fibrosis disease through diminished cystic fibrosis transmembrane conductance regulator (CFTR) function. Here, we use human airway organotypic cultures to investigate how IAV alters the airway microenvironment to increase susceptibility to secondary infection with Streptococcus pneumoniae (Spn). We observed that IAV-induced CFTR dysfunction and airway surface liquid acidification is central to increasing susceptibility to Spn. Additionally, we observed that IAV induced profound transcriptional changes in the airway epithelium and proteomic changes in the airway surface liquid in both CFTR-dependent and -independent manners. These changes correspond to multiple diminished host defense pathways and altered airway epithelial function. Collectively, these findings highlight both the importance of CFTR function during infectious challenge and demonstrate a central role for the lung epithelium in secondary bacterial infections following IAV.

Authors

Erin Y. Earnhardt, Jennifer L. Tipper, Adonis D’Mello, Ming-Yuan Jian, Elijah S. Conway, James A. Mobley, Carlos J. Orihuela, Hervé Tettelin, Kevin S. Harrod

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Figure 7

IAV alters the proteome of the ASL.

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IAV alters the proteome of the ASL. HBECs (n = 3) were infected with 100...
HBECs (n = 3) were infected with 100,000 PFU of IAV for 72 hours before apical washes were collected for proteomic analysis. (A and D) Analysis of the proteome of the ASL of HBECs with and without IAV infection. The following criteria were all met for every reported protein: absolute fold change > 2, significance analysis of microarray > 0.8, and P < 0.05. (B and E) Analysis of the proteome of the ASL from HBECs after IAV infection and with or without basal treatment with 10 μM lumacaftor and tezacaftor at the time of IAV infection followed by basal treatment with 10 μM ivacaftor overnight before ASL collection. The following criteria were met for every reported protein: fold change > 1.5, significance analysis of microarray > 0.6, and P < 0.1. (C) Bar chart showing the number of proteins in each category altered in the ASL of HBECs after IAV infection. All categories reached statistical significance. Data analysis was done using Qiagen IPA software following the standard statistical analysis protocol.