Pharyngeal Microflora Disruption by Antibiotics Promotes Airway Hyperresponsiveness after Respiratory Syncytial Virus Infection

Ni, Ke; Li, Simin; Xia, Qiuling; Zang, Na; Deng, Yu; Xie, Xiaohong; Luo, Zhengxiu; Luo, Yan; Wang, Lijia; Fu, Zhou; Liu, Enmei

doi:10.1371/journal.pone.0041104

Cited by 11 publications

(8 citation statements)

References 38 publications

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“…Vice versa, respiratory bacteria can also promote viral infection through numerous pathways [112][113][114][115][116] . For example, the upregulation of adhesion receptors, such as intercellular adhesion molecule 1 (ICAM1), was shown to increase the binding of HRV and respiratory syncytial virus (RSV) to epithelial cells and amplify pro-inflammatory responses [114][115][116] .…”

Section: T Helper 17 Cellsmentioning

confidence: 99%

The microbiota of the respiratory tract: gatekeeper to respiratory health

2017

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The respiratory tract is a complex organ system that is responsible for the exchange of oxygen and carbon dioxide. The human respiratory tract spans from the nostrils to the lung alveoli and is inhabited by niche-specific communities of bacteria. The microbiota of the respiratory tract probably acts as a gatekeeper that provides resistance to colonization by respiratory pathogens. The respiratory microbiota might also be involved in the maturation and maintenance of homeostasis of respiratory physiology and immunity. The ecological and environmental factors that direct the development of microbial communities in the respiratory tract and how these communities affect respiratory health are the focus of current research. Concurrently, the functions of the microbiome of the upper and lower respiratory tract in the physiology of the human host are being studied in detail. In this Review, we will discuss the epidemiological, biological and functional evidence that support the physiological role of the respiratory microbiota in the maintenance of human health.

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Section: T Helper 17 Cellsmentioning

confidence: 99%

The microbiota of the respiratory tract: gatekeeper to respiratory health

2017

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“…The presence of a nasopharyngeal commensal protected mice against RSV-induced airway hyperresponsiveness. RSV-infected mice who underwent antibiotic-mediated depletion of Streptococcus viridans in the nasopharynx exhibited increases in number of inflammatory lymphocytes and airway hyperresponsiveness, and decreases in regulatory T cell number and transforming growth factor-β production ( 103 ). Others have shown that colonization of the URT with S. aureus drastically reduced influenza-induced acute lung injury and mortality in mice by recruiting a C-C chemokine receptor type 2 + cluster of differentiation (CD)11b + monocyte subset to the lungs and inducing an M2 macrophage phenotype ( 104 ).…”

Section: The Respiratory Tract Microbiomementioning

confidence: 99%

Respiratory Viral Infection-Induced Microbiome Alterations and Secondary Bacterial Pneumonia

et al. 2018

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Influenza and other respiratory viral infections are the most common type of acute respiratory infection. Viral infections predispose patients to secondary bacterial infections, which often have a more severe clinical course. The mechanisms underlying post-viral bacterial infections are complex, and include multifactorial processes mediated by interactions between viruses, bacteria, and the host immune system. Studies over the past 15 years have demonstrated that unique microbial communities reside on the mucosal surfaces of the gastrointestinal tract and the respiratory tract, which have both direct and indirect effects on host defense against viral infections. In addition, antiviral immune responses induced by acute respiratory infections such as influenza are associated with changes in microbial composition and function (“dysbiosis”) in the respiratory and gastrointestinal tract, which in turn may alter subsequent immune function against secondary bacterial infection or alter the dynamics of inter-microbial interactions, thereby enhancing the proliferation of potentially pathogenic bacterial species. In this review, we summarize the literature on the interactions between host microbial communities and host defense, and how influenza, and other acute respiratory viral infections disrupt these interactions, thereby contributing to the pathogenesis of secondary bacterial infections.

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“…The relation of respiratory viruses and airway microbiota has been shown to be reciprocal, and ample scientific evidence has demonstrated that airway microbiota can also alter the course of viral infections through the influence that it exerts on the host immune responses. In that respect, data from animal models have shown that commensal microbiome in the URT has a protective function against the airway hyperresponsiveness induced by RSV, and the use of antibiotics that decreases specific populations in the URT microbiome reverts this effect 74 . The same effect has also been found for other respiratory viruses 75 …”

Section: Respiratory Viral Infections As a Risk Factor For Asthma Devmentioning

confidence: 85%

Viruses and asthma: the role of common respiratory viruses in asthma and its potential meaning for SARS‐CoV‐2

Novak

Cabanillas

2020

Immunology

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Certain respiratory viruses can induce per se immunological changes and morphological alterations that can contribute to the initiation or aggravation of asthmatic processes. New data are emerging on the molecular mechanisms of SARS‐CoV‐2 infection and its possible relation with asthma. In this review, we explore the interrelation between common viruses and asthma, and its potential meaning on the current global pandemic of COVID‐19.

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Pharyngeal Microflora Disruption by Antibiotics Promotes Airway Hyperresponsiveness after Respiratory Syncytial Virus Infection

Cited by 11 publications

References 38 publications

The microbiota of the respiratory tract: gatekeeper to respiratory health

The microbiota of the respiratory tract: gatekeeper to respiratory health

Respiratory Viral Infection-Induced Microbiome Alterations and Secondary Bacterial Pneumonia

Viruses and asthma: the role of common respiratory viruses in asthma and its potential meaning for SARS‐CoV‐2

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