Peter Vogel scite author profile

Summary Influenza A virus (IAV) is an RNA virus that is cytotoxic to most cell types in which it replicates. IAV activates the host kinase RIPK3, which induces cell death via parallel pathways of necroptosis, driven by the pseudokinase MLKL, and apoptosis, dependent on the adaptor proteins RIPK1 and FADD. How IAV activates RIPK3 remains unknown. We report that DAI (ZBP-1/DLM-1), previously implicated as a cytoplasmic DNA sensor, is essential for RIPK3 activation by IAV. Upon infection, DAI recognizes IAV genomic RNA, associates with RIPK3, and is required for recruitment of MLKL and RIPK1 to RIPK3. Cells lacking DAI or containing DAI mutants deficient in nucleic acid binding are resistant to IAV-triggered necroptosis and apoptosis. DAI-deficient mice fail to control IAV replication and succumb to lethal respiratory infection. These results identify DAI as a link between IAV replication and RIPK3 activation, and implicate DAI as a sensor of RNA viruses.

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The transcription factor IRF1 and guanylate-binding proteins target activation of the AIM2 inflammasome by Francisella infection

Man

et al. 2015

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Inflammasomes are critical for mounting host defense against pathogens. The molecular mechanisms controlling activation of the AIM2 inflammasome in response to different cytosolic pathogens is unclear. Here, we show that the transcription factor IRF1 is the upstream molecule leading to AIM2 inflammasome activation during Francisella novicida infection, whereas engagement of the AIM2 inflammasome by mouse cytomegalovirus or transfected dsDNA did not require IRF1. F. novicida infection detected by the cGAS-STING pathway induces type I interferon-dependent expression of IRF1, which drives the expression of guanylate-binding proteins (GBPs) leading to intracellular bacterial killing and DNA release. These results reveal a specific requirement for IRF1 and GBPs in the liberation of DNA for AIM2 sensing depending on the pathogen encountered by the cell.

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Autophagy enforces functional integrity of regulatory T cells by coupling environmental cues and metabolic homeostasis

et al. 2016

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Regulatory T (Treg) cells respond to immune and inflammatory signals to mediate immunosuppression, but how functional integrity of Treg cells is maintained under activating environments remains elusive. Here we found that autophagy was active in Treg cells and supported their lineage stability and survival fitness. Treg cell-specific deletion of the essential autophagy gene Atg7 or Atg5 led to loss of Treg cells, increased tumor resistance, and development of inflammatory disorders. Atg7-deficient Treg cells had increased apoptosis and readily lost Foxp3 expression, especially after activation. Mechanistically, autophagy deficiency upregulated mTORC1 and c-Myc function and glycolytic metabolism that contributed to defective Treg function. Therefore, autophagy couples environmental signals and metabolic homeostasis to protect lineage and survival integrity of Treg cells in activating contexts.

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Peter Vogel

HIF1α–dependent glycolytic pathway orchestrates a metabolic checkpoint for the differentiation of TH17 and Treg cells

Synergism of TNF-α and IFN-γ Triggers Inflammatory Cell Death, Tissue Damage, and Mortality in SARS-CoV-2 Infection and Cytokine Shock Syndromes

DAI Senses Influenza A Virus Genomic RNA and Activates RIPK3-Dependent Cell Death

The transcription factor IRF1 and guanylate-binding proteins target activation of the AIM2 inflammasome by Francisella infection

Autophagy enforces functional integrity of regulatory T cells by coupling environmental cues and metabolic homeostasis

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