Matrix metalloproteinase-9 deficiency protects mice from severe influenza A viral infection
Joselyn Rojas-Quintero, Xiaoyun Wang, Jennifer Tipper, Patrick R. Burkett, Joaquin Zuñiga, Amit R. Ashtekar, Francesca Polverino, Amit Rout, Ilyas Yambayev, Carmen Hernández, Luis Jimenez, Gustavo Ramírez, Kevin S. Harrod, Caroline A. Owen
Joselyn Rojas-Quintero, Xiaoyun Wang, Jennifer Tipper, Patrick R. Burkett, Joaquin Zuñiga, Amit R. Ashtekar, Francesca Polverino, Amit Rout, Ilyas Yambayev, Carmen Hernández, Luis Jimenez, Gustavo Ramírez, Kevin S. Harrod, Caroline A. Owen
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Research Article Infectious disease Pulmonology

Matrix metalloproteinase-9 deficiency protects mice from severe influenza A viral infection

Abstract

Matrix metalloproteinase-9 (MMP-9) cleaves various proteins to regulate inflammatory and injury responses. However, MMP-9’s activities during influenza A viral (IAV) infections are incompletely understood. Herein, plasma MMP-9 levels were increased in patients with pandemic H1N1 and seasonal IAV infections. MMP-9 lung levels were increased and localized to airway epithelial cells and leukocytes in H1N1-infected WT murine lungs. H1N1-infected Mmp-9–/– mice had lower mortality rates, reduced weight loss, lower lung viral titers, and reduced lung injury, along with lower E-cadherin shedding in bronchoalveolar lavage fluid (BALF) samples than WT mice. H1N1-infected Mmp-9–/– mice had an altered immune response to IAV with lower BALF PMN and macrophage counts, higher Th1-like CD4+ and CD8+ T cell subsets, lower T regulatory cell counts, reduced lung type I interferon levels, and higher lung interferon-γ levels. Mmp-9 bone marrow–chimera studies revealed that Mmp-9 deficiency in lung parenchymal cells protected mice from IAV-induced mortality. H1N1-infected Mmp-9–/– lung epithelial cells had lower viral titers than H1N1-infected WT cells in vitro. Thus, H1N1-infected Mmp-9–/– mice are protected from IAV-induced lung disease due to a more effective adaptive immune response to IAV and reduced epithelial barrier injury due partly to reduced E-cadherin shedding. Thus, we believe that MMP-9 is a novel therapeutic target for IAV infections.

Authors

Joselyn Rojas-Quintero, Xiaoyun Wang, Jennifer Tipper, Patrick R. Burkett, Joaquin Zuñiga, Amit R. Ashtekar, Francesca Polverino, Amit Rout, Ilyas Yambayev, Carmen Hernández, Luis Jimenez, Gustavo Ramírez, Kevin S. Harrod, Caroline A. Owen

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Figure 2

Mmp-9 staining was increased in airway epithelial cells and some leukocyte subsets in WT mice infected with H1N1 IAV.

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Mmp-9 staining was increased in airway epithelial cells and some leukocy...
WT mice were infected by the intranasal route with an LD20 inoculum of H1N1 mice and lungs were inflated and removed on days 3, 7, and 10 after infection. Lung sections from H1N1-infected mice or uninfected control (UC) WT mice were double immunostained for Mmp-9 (in green) and for markers (in red) of lung epithelial cells (pancytokeratin [PanCK] in A), PMNs (myeloperoxidase [MPO] in B), macrophages (MAC-3 in C), CD4+ T cells (CD4 in D) and B cells (CD45R in E). The lungs of infected mice were also stained with nonimmune isotype-matched primary antibodies (rabbit [Rb] IgG, murine [Ms] IgG, rat IgG, or goat IgG], and images of these sections are shown in the lower panels of each subfigure. Nuclei were counterstained blue with 4′,6-diamidino-2-phenylindole. Immunostained lung sections were examined with a confocal microscope and merged images are shown in the right panels. Images shown are representative of sections from 5 mice per experimental group. Original magnification, ×400.