Topic
Interferon
About: Interferon is a research topic. Over the lifetime, 28969 publications have been published within this topic receiving 1219645 citations. The topic is also known as: IFN & interferons.
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TL;DR: RIG-I is established as a major intracellular recognition receptor for the genome of most negative-strand RNA viruses and the cleavage of triphosphates at the RNA 5′ end as a strategy of viruses to evade the innate immune response is defined.
Abstract: Innate immunity is critically dependent on the rapid production of interferon in response to intruding viruses. The intracellular pathogen recognition receptors RIG-I and MDA5 are essential for interferon induction by viral RNAs containing 5′ triphosphates or double-stranded structures, respectively. Viruses with a negative-stranded RNA genome are an important group of pathogens causing emerging and re-emerging diseases. We investigated the ability of genomic RNAs from substantial representatives of this virus group to induce interferon via RIG-I or MDA5. RNAs isolated from particles of Ebola virus, Nipah virus, Lassa virus, and Rift Valley fever virus strongly activated the interferon-beta promoter. Knockdown experiments demonstrated that interferon induction depended on RIG-I, but not MDA5, and phosphatase treatment revealed a requirement for the RNA 5′ triphosphate group. In contrast, genomic RNAs of Hantaan virus, Crimean-Congo hemorrhagic fever virus and Borna disease virus did not trigger interferon induction. Sensitivity of these RNAs to a 5′ monophosphate-specific exonuclease indicates that the RIG-I-activating 5′ triphosphate group was removed post-transcriptionally by a viral function. Consequently, RIG-I is unable to bind the RNAs of Hantaan virus, Crimean-Congo hemorrhagic fever virus and Borna disease virus. These results establish RIG-I as a major intracellular recognition receptor for the genome of most negative-strand RNA viruses and define the cleavage of triphosphates at the RNA 5′ end as a strategy of viruses to evade the innate immune response.
304 citations
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TL;DR: Results suggest that enhanced TLR4 expression underlies the long-known priming by IFNgamma of mononuclear phagocytes for pathogen recognition and killing as well as its synergism with LPS in macrophage activation.
304 citations
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TL;DR: The results reveal that the anti‐tumor response of NK cells critically depends on the cytosolic DNA sensing pathway, similar to its role in defense against pathogens, and identify tumor‐derived cGAMP as a major determinant of tumor immunogenicity with implications for cancer immunotherapy.
303 citations
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TL;DR: Autosomal dominant, human TRAF3 deficiency in a young adult with a history of HSE in childhood is reported, and TLR3-mediated immunity against primary infection by HSV-1 in the central nervous system is critically dependent on TRAf3.
302 citations
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TL;DR: The IRF-1-/- mice were less resistant than normal mice to EMCV infection, as revealed by accelerated mortality and a larger virus titer in target organs, and the absence of IRf-1 did not clearly affect replication of two other types of viruses.
Abstract: The mechanisms underlying interferon (IFN)-induced antiviral states are not well understood. Interferon regulatory factor-1 (IRF-1) is an IFN-inducible transcriptional activator, whereas IRF-2 suppresses IRF-1 action. The inhibition of encephalomyocarditis virus (EMCV) replication by IFN-alpha and especially by IFN-gamma was impaired in cells from mice with a null mutation in the IRF-1 gene (IRF-1-/- mice). The IRF-1-/- mice were less resistant than normal mice to EMCV infection, as revealed by accelerated mortality and a larger virus titer in target organs. The absence of IRF-1 did not clearly affect replication of two other types of viruses. Thus, IRF-1 is necessary for the antiviral action of IFNs against some viruses, but IFNs activate multiple activation pathways through diverse target genes to induce the antiviral state.
302 citations