Influenza A Virus Infection Causes Chronic Lung Disease Linked to Sites of Active Viral RNA Remnants

Keeler, Shamus P.; Agapov, Eugene; Hinojosa, Michael; Letvin, Adam N.; Wu, Kangyun; Holtzman, Michael J.

doi:10.4049/jimmunol.1800671

Cited by 77 publications

(121 citation statements)

References 96 publications

(109 reference statements)

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“…The clearance of infectious virus also raises the issue of persistent viral-RNA remnants that are likely noninfectious but might still have a role in postviral disease. In that context, we reported (and confirm in this study) that viral-RNA remnants are found long after clearance of infectious virus in the case of SeV (28), and we found the same persistence more recently for IAV (31). In addition, our report for IAV includes data for active viral-RNA replication with detection of both positive-and negative-strand viral RNA and for localization of these viral-RNA remnants to sites of chronic lung disease.…”

Section: Discussionsupporting

confidence: 88%

“…9A). We detected no significant increase in baseline R RS at 8 or 49 d after viral infection in wild-type, Stat1 2/2 , or Foxj1-Scgb1a1-Cre-Stat1 f/f mice (data not shown), consistent with our studies of SeV and IAV infections (28,29,31). To further address the comparison between the post-EV-D68 mouse model with chronic lung disease in humans, we also assessed the development of fibrosis as a feature of airway disease.…”

Section: Epithelial Stat1 Function Protects Against Ev-d68-induced Chsupporting

confidence: 90%

“…Further studies will be needed to determine whether the same mechanism drives chronic disease after EV-D68 infection. Nonetheless, the present finding for induction of Clca1 gene expression, which is highly dependent on IL-13 stimulation (29,31,64,65), suggests that the type 2 immune response might also drive chronic mucus production and airway hyperreactivity after EV-D68 similar to SeV and IAV infections (28)(29)(30)(31). The same mechanism is also proposed to mediate short-term airway disease after human RV infections in mice (66).…”

Section: Discussionmentioning

confidence: 49%

“…This transient effect was slightly suppressed with anti-IL-17A-blocking Ab, consistent with neutrophil-linked hyperreactivity found after short-term airway injury even in response to noninfectious agents (62), but the immune basis for subsequent longer-term disease after EV-D68 infection still needs to be defined. In contrast to the case for EV-D68, there is considerable evidence for SeV and IAV infections that the immune mechanism for postviral disease is based on a prolonged type 2 immune response (and not an IL-17 response) that proceeds from epithelial stem cell expansion to innate immune cell activation and feed forward to APEC differentiation toward mucous cells (28)(29)(30)(31)63). Further studies will be needed to determine whether the same mechanism drives chronic disease after EV-D68 infection.…”

Section: Discussionmentioning

confidence: 98%

See 3 more Smart Citations

Respiratory Enterovirus (like Parainfluenza Virus) Can Cause Chronic Lung Disease if Protection by Airway Epithelial STAT1 Is Lost

Zhang

Mao

Keeler

et al. 2019

The Journal of Immunology

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Epithelial barrier cells are proposed to be critical for host defense, and airway epithelial cell capacity for IFN signal transduction is presumed to protect against respiratory viral infection. However, it has been difficult to fully test these concepts given the absence of tools to analyze IFN signaling specific to airway epithelial cells in vivo. To address these issues, we generated a new line of transgenic mice with Cre-driver genes (Foxj1 and Scgb1a1) for a floxed-Stat1 allele (designated Foxj1-Scgb1a1-Cre-Stat1f/f mice) to target the master IFN signal regulator STAT1 in airway epithelial cells and tested these mice for control of infection because of mouse parainfluenza (Sendai) virus and human enterovirus D68 (EV-D68). Indeed, both types of infections showed increases in viral titers and severity of acute illness in Foxj1-Scgb1a1-Cre-Stat1f/f mice and conventional Stat1−/− mice compared with wild-type mice. In concert, the chronic lung disease that develops after Sendai virus infection was also increased in Foxj1-Scgb1a1-Cre-Stat1f/f and Stat1–/– mice, marked by airway and adjacent parenchymal immune cell infiltration and mucus production for at least 7 wk postinfection. Unexpectedly, relatively mild EV-D68 infection also progressed to chronic lung disease in Foxj1-Scgb1a1-Cre-Stat1f/f and Stat1−/− mice but was limited (like viral replication) to airways. The results thereby provide proof-of-concept for a critical role of barrier epithelial cells in protection from acute illness and chronic disease after viral infection and suggest a specific role for airway epithelial cells given the limitation of EV-D68 replication and acute and chronic manifestations of disease primarily to airway tissue.

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Section: Discussionsupporting

confidence: 88%

Section: Epithelial Stat1 Function Protects Against Ev-d68-induced Chsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 49%

Section: Discussionmentioning

confidence: 98%

See 2 more Smart Citations

Respiratory Enterovirus (like Parainfluenza Virus) Can Cause Chronic Lung Disease if Protection by Airway Epithelial STAT1 Is Lost

Zhang

Mao

Keeler

et al. 2019

The Journal of Immunology

Self Cite

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“…This is supported by substantial evidence, much of it derived from animal models of experimental infection, that influenza virus infection is associated with alterations in the host respiratory tract that predispose to adherence, invasion and induction of disease by the pneumococcus [46]. These result in increased adhesion of the pneumococcus to virus-activated respiratory epithelium, together with alterations in pulmonary innate and adaptive immune responses that result in impaired clearance of the bacteria, as well as a chronic inflammatory response lasting for up to 26 weeks due to persistent viral antigenaemia, specifically RNA, in the lower airways [47][48][49]. Pneumococcal replication in the airways may be further enhanced by an increased availability of free sialic acids derived from cleavage of host mucin by viral neuraminidase [50].…”

Section: Cap Due To Influenza Virus Infectionmentioning

confidence: 99%

Pathogenesis and prevention of risk of cardiovascular events in patients with pneumococcal community‐acquired pneumonia

et al. 2019

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It is now well recognized that cardiovascular events (CVE) occur quite commonly, both in the acute phase and in the long‐term, in patients with community‐acquired pneumonia (CAP). CVE have been noted in up to 30% of patients hospitalized with all‐cause CAP. One systematic review and meta‐analysis of hospitalized patients with all‐cause CAP noted that the incidence rates for overall cardiac events were 17.7%, for incident heart failure were 14.1%, for acute coronary syndromes were 5.3% and for incident cardiac arrhythmias were 4.7%. In the case of pneumococcal CAP, almost 20% of patients studied had one or more of these cardiac events. Recent research has provided insights into the pathogenesis of the acute cardiac events occurring in pneumococcal infections. With respect to the former, key involvements of the major pneumococcal protein virulence factor, pneumolysin, are now well documented, whilst systemic platelet‐driven neutrophil activation may also contribute. However, events involved in the pathogenesis of the long‐term cardiovascular sequelae remain largely unexplored. Emerging evidence suggests that persistent antigenaemia may predispose to the development of a systemic pro‐inflammatory/prothrombotic phenotype underpinning the risk of future cardiovascular events. The current manuscript briefly reviews the occurrence of cardiovascular events in patients with all‐cause CAP, as well as in pneumococcal and influenza infections. It highlights the close interaction between influenza and pneumococcal pneumonia. It also includes a brief discussion of mechanisms of the acute cardiac events in CAP. However, the primary focus is on the prevalence, pathogenesis and prevention of the longer‐term cardiac sequelae of severe pneumococcal disease, particularly in the context of persistent antigenaemia and associated inflammation.

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Airway obstruction in respiratory viral infections due to impaired mucociliary clearance

Bessonov

Volpert

2023

Numer Methods Biomed Eng

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Respiratory viral infections, such as SARS‐CoV‐2 or influenza, can lead to impaired mucociliary clearance in the bronchial tree due to increased mucus viscosity and its hyper‐secretion. We develop in this work a mathematical model to study the interplay between viral infection and mucus motion. The results of numerical simulations show that infection progression can be characterized by three main stages. At the first stage, infection spreads through the most part of mucus producing airways (about 90% of the length) without significant changes in mucus velocity and thickness layer. During the second stage, when it passes through the remaining generations, mucus viscosity increases, its velocity drops down, and it forms a plug. At the last stage, the thickness of the mucus layer gradually increases because mucus is still produced but not removed by the flow. After some time, the thickness of the mucus layer in the small airways becomes comparable with their diameter leading to their complete obstruction.

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Influenza A Virus Infection Causes Chronic Lung Disease Linked to Sites of Active Viral RNA Remnants

Cited by 77 publications

References 96 publications

Respiratory Enterovirus (like Parainfluenza Virus) Can Cause Chronic Lung Disease if Protection by Airway Epithelial STAT1 Is Lost

Respiratory Enterovirus (like Parainfluenza Virus) Can Cause Chronic Lung Disease if Protection by Airway Epithelial STAT1 Is Lost

Pathogenesis and prevention of risk of cardiovascular events in patients with pneumococcal community‐acquired pneumonia

Airway obstruction in respiratory viral infections due to impaired mucociliary clearance

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