Natalia Frias-Stäheli scite author profile

Ubiquitin (Ub) and interferon-stimulated gene product 15 (ISG15) reversibly conjugate to proteins and mediate important innate antiviral responses. The ovarian tumor (OTU) domain represents a superfamily of predicted proteases found in eukaryotic, bacterial, and viral proteins, some of which have Ub-deconjugating activity. We show that the OTU domain-containing proteases from nairoviruses and arteriviruses, two unrelated groups of RNA viruses, hydrolyze Ub and ISG15 from cellular target proteins. This broad activity contrasts with the target specificity of known mammalian OTU domain-containing proteins. Expression of a viral OTU domain-containing protein antagonizes the antiviral effects of ISG15 and enhances susceptibility to Sindbis virus infection in vivo. We also show that viral OTU domain-containing proteases inhibit NF-kappaB-dependent signaling. Thus, the deconjugating activity of viral OTU proteases represents a unique viral strategy to inhibit Ub- and ISG15-dependent antiviral pathways.

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IFN-stimulated gene 15 functions as a critical antiviral molecule against influenza, herpes, and Sindbis viruses

Lenschow¹,

Lai²,

Frias-Stäheli

et al. 2007

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

483

425

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Cellular Localization and Antigenic Characterization of Crimean-Congo Hemorrhagic Fever Virus Glycoproteins

Bertolotti-Ciarlet

Smith

Strecker

et al. 2005

J Virol

143

202

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Crimean-Congo hemorrhagic fever virus (CCHFV), a member of the genus Nairovirus of the family Bunyaviridae, causes severe disease with high rates of mortality in humans. The CCHFV M RNA segment encodes the virus glycoproteins GN and GC. To understand the processing and intracellular localization of the CCHFV glycoproteins as well as their neutralization and protection determinants, we produced and characterized monoclonal antibodies (MAbs) specific for both GN and GC. Using these MAbs, we found that GN predominantly colocalized with a Golgi marker when expressed alone or with GC, while GC was transported to the Golgi apparatus only in the presence of GN. Both proteins remained endo-β-N-acetylglucosaminidase H sensitive, indicating that the CCHFV glycoproteins are most likely targeted to the cis Golgi apparatus. Golgi targeting information partly resides within the GN ectodomain, because a soluble version of GN lacking its transmembrane and cytoplasmic domains also localized to the Golgi apparatus. Coexpression of soluble versions of GN and GC also resulted in localization of soluble GC to the Golgi apparatus, indicating that the ectodomains of these proteins are sufficient for the interactions needed for Golgi targeting. Finally, the mucin-like and P35 domains, located at the N terminus of the GN precursor protein and removed posttranslationally by endoproteolysis, were required for Golgi targeting of GN when it was expressed alone but were dispensable when GC was coexpressed. In neutralization assays on SW-13 cells, MAbs to GC, but not to GN, prevented CCHFV infection. However, only a subset of GC MAbs protected mice in passive-immunization experiments, while some nonneutralizing GN MAbs efficiently protected animals from a lethal CCHFV challenge. Thus, neutralization of CCHFV likely depends not only on the properties of the antibody, but on host cell factors as well. In addition, nonneutralizing antibody-dependent mechanisms, such as antibody-dependent cell-mediated cytotoxicity, may be involved in the in vivo protection seen with the MAbs to GC

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Arterivirus and Nairovirus Ovarian Tumor Domain-Containing Deubiquitinases Target Activated RIG-I To Control Innate Immune Signaling

Kasteren

Beugeling

Ninaber

et al. 2012

J Virol

113

147

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The innate immune response constitutes the first line of defense against viral infection and is extensively regulated through ubiquitination. The removal of ubiquitin from innate immunity signaling factors by deubiquitinating enzymes (DUBs) therefore provides a potential opportunity for viruses to evade this host defense system. It was previously found that specific proteases encoded by the unrelated arteri-and nairoviruses resemble the ovarian tumor domain-containing (OTU) family of DUBs. In arteriviruses, this domain has been characterized before as a papain-like protease (PLP2) that is also involved in replicase polyprotein processing. In nairoviruses, the DUB resides in the polymerase protein but is not essential for RNA replication. Using both in vitro and cell-based assays, we now show that PLP2 DUB activity is conserved in all members of the arterivirus family and that both arteri-and nairovirus DUBs inhibit RIG-I-mediated innate immune signaling when overexpressed. The potential relevance of RIG-I-like receptor (RLR) signaling for the innate immune response against arterivirus infection is supported by our finding that in mouse embryonic fibroblasts, the production of beta interferon primarily depends on the recognition of arterivirus RNA by the pattern-recognition receptor MDA5. Interestingly, we also found that both arteri-and nairovirus DUBs inhibit RIG-I ubiquitination upon overexpression, suggesting that both MDA5 and RIG-I have a role in countering infection by arteriviruses. Taken together, our results support the hypothesis that arteri-and nairoviruses employ their deubiquitinating potential to inactivate cellular proteins involved in RLR-mediated innate immune signaling, as exemplified by the deubiquitination of RIG-I.

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Inflammatory Flt3l is essential to mobilize dendritic cells and for T cell responses during Plasmodium infection

Guermonprez

Helft

Claser

et al. 2013

Nat Med

135

128

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Summary Innate sensing mechanisms trigger a variety of humoral and cellular events that are essential to adaptive immune responses. Here we describe an innate sensing pathway triggered by Plasmodium infection that regulates dendritic cell (DC) homeostasis and adaptive immunity via Flt3L release. Plasmodium-induced Flt3L release requires toll-like receptor activation and type I interferon production. We find that type I interferon supports the up-regulation of xanthine dehydrogenase, which metabolizes the xanthine accumulating in infected erythrocytes to uric acid. Uric acid crystals trigger mast cells to release soluble Flt3L from a pre-synthesized membrane-associated precursor. During infection Flt3L preferentially stimulates expansion of the CD8α+/CD103+ DC subset or its BDCA3+ human DC equivalent and has a significant impact on the magnitude of T cell activation, mostly in the CD8+ compartment. Our findings highlight a new mechanism that regulates DC homeostasis and T cell responses to infection.

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