Nasal priming by a murine coronavirus provides protective immunity against lethal heterologous virus pneumonia
Xiaoyang Hua, … , Stephen Tilley, Stanley Perlman
Xiaoyang Hua, … , Stephen Tilley, Stanley Perlman
Published June 7, 2018
Citation Information: JCI Insight. 2018;3(11):e99025. https://doi.org/10.1172/jci.insight.99025.
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Research Article Immunology Virology

Nasal priming by a murine coronavirus provides protective immunity against lethal heterologous virus pneumonia

Abstract

The nasal mucosa is an important component of mucosal immunity. Immunogenic particles in inspired air are known to activate the local nasal mucosal immune system and can lead to sinonasal inflammation; however, little is known about the effect of this activation on the lung immune environment. Here, we showed that nasal inoculation of murine coronavirus (CoV) in the absence of direct lung infection primes the lung immune environment by recruiting activated monocytes (Ly6C+ inflammatory monocytes) and NK cells into the lungs. Unlike infiltration of these cells into directly infected lungs, a process that requires type I IFN signaling, nasally induced infiltration of Ly6C+ inflammatory monocytes into the lungs is IFN-I independent. These activated macrophages ingested antigen and migrated to pulmonary lymph nodes, and enhanced both innate and adaptive immunity after heterologous virus infection. Clinically, such nasal-only inoculation of MHV-1 failed to cause pneumonia but significantly reduced mortality and morbidity of lethal pneumonia caused by severe acute respiratory syndrome CoV (SARS-CoV) or influenza A virus. Together, the data indicate that the nose and upper airway remotely prime the lung immunity to protect the lungs from direct viral infections.

Authors

Xiaoyang Hua, Rahul Vijay, Rudragouda Channappanavar, Jeremiah Athmer, David K. Meyerholz, Nitin Pagedar, Stephen Tilley, Stanley Perlman

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Figure 5

Intracellular expression of TNF by IMs.

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Intracellular expression of TNF by IMs. BALB/c mice were treated with MH...
BALB/c mice were treated with MHV-1 intranasally (2 μl, 104 PFU, infected, n = 6 per group) or vehicle (noninfected, n = 3 per group). Their lungs were harvested to prepare single-cell suspension at 2 dpi. The cells were then treated with LPS (1 ng/μl) or vehicle (RP10) in the presence of GolgiPlug for 6 hours at 37°C. Intracellular staining for TNF was then performed. Isotype was used for all samples for optimal gating. (A) Representative flow cytometric plots from each group. (B and C) Frequency and number of TNF-producing Ly6C+ IMs. **P < 0.01. Representative of 2 independent experiments.