Margaret A. Scull scite author profile

SUMMARY NLR genes mediate host immunity to various pathogenic stimuli. However, in vivo evidence for NLR involvement in viral sensing has not been widely investigated and remains controversial. As an ultimate test of the physiologic role of NLRP3 during RNA viral infection, this work explores the in vivo role of NLRP3 inflammasome components during influenza virus infection. Mice lacking Nlrp3, ASC, or Caspase-1, but not Nlrc4, exhibit dramatically increased mortality but reduced immune response following influenza virus exposure. Utilizing analogs of dsRNA (poly(I:C)) and ssRNA (ssRNA40), we demonstrate that NLRP3-mediated response can be activated by RNA species. Mechanistically, NLRP3 inflammasome activation by influenza virus is dependent upon lysosomal maturation and reactive oxygen species. Inhibition of ROS induction eliminated IL-1β production in animals during influenza infection. Together, these data place the NLRP3 inflammasome as an essential component in host defense against influenza infection through the sensing of viral RNA.

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NLRX1 Protein Attenuates Inflammatory Responses to Infection by Interfering with the RIG-I-MAVS and TRAF6-NF-κB Signaling Pathways

Allen

et al. 2011

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SUMMARY The nucleotide-binding domain and leucine-rich repeat containing (NLR) proteins regulate innate immunity. Although the positive regulatory impact of NLRs is clear, their inhibitory roles are not well defined. We showed Nlrx1−/− mice exhibited increased expression of antiviral signaling molecules IFN-β, STAT2, OAS1 and IL-6 after influenza virus infection. Consistent with increased inflammation, Nlrx1−/− mice exhibited marked morbidity and histopathology. Infection of these mice with an influenza strain that carries a mutated NS-1 protein, which normally prevents IFN induction by interaction with RNA and the intracellular RNA sensor RIG-I, further exacerbated IL-6 and type I IFN signaling. NLRX1 also weakened cytokine responses to the 2009 H1N1 pandemic influenza virus in human cells. Mechanistically, Nlrx1 deletion led to constitutive interaction of MAVS and RIG-I. Additionally, an inhibitory function is identified for NLRX1 during LPS-activation of macrophages where the MAVS-RIG-I pathway was not involved. NLRX1 interacts with TRAF6 and inhibits NF-κB activation. Thus, NLRX1 functions as a checkpoint of overzealous inflammation.

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Characterization of exosome‐like vesicles released from human tracheobronchial ciliated epithelium: a possible role in innate defense

et al. 2009

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Airway mucus forms the structural basis of the local innate immune defense mechanism. It is an integrated, active, viscoelastic gel matrix evolved to protect the exposed lung from physical, chemical, and pathological erosion. Exosomes are biologically active vesicles secreted by different cell types including epithelial, hematopoietic, and some tumor cells. They are also present in some biological fluids such as serum, urine, breast milk, and bronchoalveolar lavage fluid. In this study, we demonstrate for the first time that exosome-like vesicles with antiviral properties are present in human tracheobronchial epithelial (HTBE) cell culture secretions. These vesicles have been isolated by differential centrifugation and are characterized further by mass spectrometry, flow cytometry, immunoblotting, electron microscopy, and light-scattering methods. HTBE vesicles exhibited characteristic exosomal size (30-100 nm) and morphology (cup-shaped) with a buoyant density in sucrose of 1.12-1.18 g/ml. Biochemical characterization further revealed typical surface, cytoskeletal, and cytoplasmic proteins characteristic of exosomes, including the multivesicular and late endosomal membrane markers Tsg101 and CD63. The presence of RNA was also observed. The epithelial mucins MUC1, MUC4, and MUC16 also contributed to the vesicles' structure. Notably, alpha-2,6-linked sialic acid was associated with these mucin molecules and subsequent functional analysis showed that these vesicles have a neutralizing effect on human influenza virus, which is known to bind sialic acid. Taken together, these findings suggest that airway epithelial cells release exosome-like vesicles and that these structures may be involved in diverse physiological processes in airway biology, including innate mucosal defense.

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A Serpin Shapes the Extracellular Environment to Prevent Influenza A Virus Maturation

Dittmann

Hoffmann

Scull

et al. 2015

Cell

143

172

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SummaryInterferon-stimulated genes (ISGs) act in concert to provide a tight barrier against viruses. Recent studies have shed light on the contribution of individual ISG effectors to the antiviral state, but most have examined those acting on early, intracellular stages of the viral life cycle. Here, we applied an image-based screen to identify ISGs inhibiting late stages of influenza A virus (IAV) infection. We unraveled a directly antiviral function for the gene SERPINE1, encoding plasminogen activator inhibitor 1 (PAI-1). By targeting extracellular airway proteases, PAI-1 inhibits IAV glycoprotein cleavage, thereby reducing infectivity of progeny viruses. This was biologically relevant for IAV restriction in vivo. Further, partial PAI-1 deficiency, attributable to a polymorphism in human SERPINE1, conferred increased susceptibility to IAV in vitro. Together, our findings reveal that manipulating the extracellular environment to inhibit the last step in a virus life cycle is an important mechanism of the antiviral response.

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Micropatterned coculture of primary human hepatocytes and supportive cells for the study of hepatotropic pathogens

et al. 2015

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Studying human hepatotropic pathogens such as hepatitis B and C viruses and malaria will be necessary for understanding host-pathogen interactions, and developing therapy and prophylaxis. Unfortunately, existing in vitro liver models typically employ either cell lines that exhibit aberrant physiology, or primary human hepatocytes in culture configurations wherein they rapidly lose their hepatic functional phenotype. Stable, robust, and reliable in vitro primary human hepatocyte models are needed as platforms for infectious disease applications. For this purpose, we describe the application of micropatterned co-cultures (MPCCs), which consist of primary human hepatocytes organized into 2D islands that are surrounded by supportive cells. Using this system, we demonstrate how to recapitulate in vitro liver infection by the hepatitis B and C viruses and Plasmodium pathogens. In turn, the MPCC platform can be used to uncover aspects of host-pathogen interactions, and has the potential to be used for medium-throughput drug screening and vaccine development.

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Margaret A. Scull

The NLRP3 Inflammasome Mediates In Vivo Innate Immunity to Influenza A Virus through Recognition of Viral RNA

NLRX1 Protein Attenuates Inflammatory Responses to Infection by Interfering with the RIG-I-MAVS and TRAF6-NF-κB Signaling Pathways

Characterization of exosome‐like vesicles released from human tracheobronchial ciliated epithelium: a possible role in innate defense

A Serpin Shapes the Extracellular Environment to Prevent Influenza A Virus Maturation

Micropatterned coculture of primary human hepatocytes and supportive cells for the study of hepatotropic pathogens

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