Daniel Fremgen scite author profile

Summary Cytokine storm during viral infection is a prospective predictor of morbidity and mortality, yet the cellular sources remain undefined. Here, using genetic and chemical tools to probe functions of the S1P1 receptor, we elucidate cellular and signaling mechanisms important in initiating cytokine storm. While S1P1 receptor is expressed on endothelial cells and lymphocytes within lung tissue, S1P1 agonism suppresses cytokines and innate immune cell recruitment in wild-type and lymphocyte deficient mice, identifying endothelial cells as central regulators of cytokine storm. Furthermore, our data reveal immune cell infiltration and cytokine production as distinct events both orchestrated by endothelial cells. Moreover, we demonstrate that suppression of early innate immune responses through S1P1 signaling results in reduced mortality during infection with a human pathogenic strain of influenza virus. Modulation of endothelium with a specific agonist suggests that diseases where amplification of cytokine storm is a significant pathological component could be chemically tractable.

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Suppression of cytokine storm with a sphingosine analog provides protection against pathogenic influenza virus

Walsh¹,

Teijaro²,

Wilker

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

218

211

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Human pandemic H1N1 2009 influenza virus rapidly infected millions worldwide and was associated with significant mortality. Antiviral drugs that inhibit influenza virus replication are the primary therapy used to diminish disease; however, there are two significant limitations to their effective use: ( i ) antiviral drugs exert selective pressure on the virus, resulting in the generation of more fit viral progeny that are resistant to treatment; and ( ii ) antiviral drugs do not directly inhibit immune-mediated pulmonary injury that is a significant component of disease. Here we show that dampening the host's immune response against influenza virus using an immunomodulatory drug, AAL-R, provides significant protection from mortality (82%) over that of the neuraminidase inhibitor oseltamivir alone (50%). AAL-R combined with oseltamivir provided maximum protection against a lethal challenge of influenza virus (96%). Mechanistically, AAL-R inhibits cellular and cytokine/chemokine responses to limit immunopathologic damage, while maintaining host control of virus replication. With cytokine storm playing a role in the pathogenesis of a wide assortment of viral, bacterial, and immunologic diseases, a therapeutic approach using sphingosine analogs is of particular interest.

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MicroRNAs of the miR-17∼92 family are critical regulators of TFH differentiation

et al. 2013

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T follicular helper (T FH ) cells provide critical help to B cells during humoral immune responses.Here we report that mice with T cell-specific deletion of miR-17~92 family miRNAs (tKO mice) exhibited severely compromised T FH differentiation, germinal center formation, antibody responses, and failed to control chronic virus infection. Conversely, T cell-specific miR-17~92 transgenic mice spontaneously accumulated T FH cells and developed fatal immunopathology. Mechanistically, miR-17~92 family miRNAs control CD4 + T cell migration into B cell follicles by regulating ICOS-PI3K signaling intensity through suppressing the expression of the Akt phosphatase Phlpp2. These findings demonstrate that miR-17~92 family microRNAs play an essential role in T FH differentiation and establish Phlpp2 as an important mediator of their function in this process.MicroRNAs (miRNAs) are endogenously encoded small RNAs of ~22 nucleotides in length that play important roles in a large diversity of biological processes 1,2,3 .

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Toll-like Receptor 7 Is Required for Effective Adaptive Immune Responses that Prevent Persistent Virus Infection

Walsh

Teijaro

Zúñiga

et al. 2012

Cell Host & Microbe

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Animal Model of Respiratory Syncytial Virus: CD8 ⁺ T Cells Cause a Cytokine Storm That Is Chemically Tractable by Sphingosine-1-Phosphate 1 Receptor Agonist Therapy

Walsh

Teijaro

Brock

et al. 2014

J Virol

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The cytokine storm is an intensified, dysregulated, tissue-injurious inflammatory response driven by cytokine and immune cell components. The cytokine storm during influenza virus infection, whereby the amplified innate immune response is primarily responsible for pulmonary damage, has been well characterized. Now we describe a novel event where virus-specific T cells induce a cytokine storm. The paramyxovirus pneumonia virus of mice (PVM) is a model of human respiratory syncytial virus (hRSV). Unexpectedly, when C57BL/6 mice were infected with PVM, the innate inflammatory response was undetectable until day 5 postinfection, at which time CD8؉ T cells infiltrated into the lung, initiating a cytokine storm by their production of gamma interferon (IFN-␥) and tumor necrosis factor alpha (TNF-␣). Administration of an immunomodulatory sphingosine-1-phosphate (S1P) receptor 1 (S1P1R) agonist significantly inhibited PVM-elicited cytokine storm by blunting the PVM-specific CD8 ؉ T cell response, resulting in diminished pulmonary disease and enhanced survival. IMPORTANCEA dysregulated overly exuberant immune response, termed a "cytokine storm," accompanies virus-induced acute respiratory diseases (VARV), is primarily responsible for the accompanying high morbidity and mortality, and can be controlled therapeutically in influenza virus infection of mice and ferrets by administration of sphingosine-1-phosphate 1 receptor (S1P1R) agonists. Here, two novel findings are recorded. First, in contrast to influenza infection, where the cytokine storm is initiated early by the innate immune system, for pneumonia virus of mice (PVM), a model of RSV, the cytokine storm is initiated late in infection by the adaptive immune response: specifically, by virus-specific CD8 T cells via their release of IFN-␥ and TNF-␣. Blockading these cytokines with neutralizing antibodies blunts the cytokine storm and protects the host. Second, PVM infection is controlled by administration of an S1P1R agonist.

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Daniel Fremgen

Endothelial Cells Are Central Orchestrators of Cytokine Amplification during Influenza Virus Infection

Suppression of cytokine storm with a sphingosine analog provides protection against pathogenic influenza virus

MicroRNAs of the miR-17∼92 family are critical regulators of TFH differentiation

Toll-like Receptor 7 Is Required for Effective Adaptive Immune Responses that Prevent Persistent Virus Infection

Animal Model of Respiratory Syncytial Virus: CD8 ⁺ T Cells Cause a Cytokine Storm That Is Chemically Tractable by Sphingosine-1-Phosphate 1 Receptor Agonist Therapy

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Daniel Fremgen

Endothelial Cells Are Central Orchestrators of Cytokine Amplification during Influenza Virus Infection

Suppression of cytokine storm with a sphingosine analog provides protection against pathogenic influenza virus

MicroRNAs of the miR-17∼92 family are critical regulators of TFH differentiation

Toll-like Receptor 7 Is Required for Effective Adaptive Immune Responses that Prevent Persistent Virus Infection

Animal Model of Respiratory Syncytial Virus: CD8 + T Cells Cause a Cytokine Storm That Is Chemically Tractable by Sphingosine-1-Phosphate 1 Receptor Agonist Therapy

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Product

Resources

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Animal Model of Respiratory Syncytial Virus: CD8 ⁺ T Cells Cause a Cytokine Storm That Is Chemically Tractable by Sphingosine-1-Phosphate 1 Receptor Agonist Therapy