期刊
JOURNAL OF INTERFERON AND CYTOKINE RESEARCH
卷 29, 期 9, 页码 559-567出版社
MARY ANN LIEBERT, INC
DOI: 10.1089/jir.2009.0072
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资金
- NIH [AI062657]
- NATIONAL INSTITUTE OF ALLERGY AND INFECTIOUS DISEASES [R01AI062657] Funding Source: NIH RePORTER
The mammalian reoviruses and rotaviruses have evolved specific mechanisms to evade the Type I interferon (IFN) antiviral response. Rotavirus likely represses the IFN response by at least 4 mechanisms. First, the rotavirus protein NSP1, most likely functioning as an E3 ligase, can induce proteasome-dependent degradation of the transcription factors IRF3, IRF5, and IRF7 to prevent their induction of IFN. Second, NSP1 can induce proteasome-dependent degradation of the ubiquitin ligase complex protein beta-TrCP, resulting in stabilization of I kappa B and concomitant failure of virus to activate NF-kappa B for induction of IFN. Third, rotavirus may sequester NF-kappa B in viroplasms. And fourth, rotavirus can prevent STAT1 and STAT2 nuclear translocation. The predominant mechanism for rotavirus inhibition of the IFN response is likely both rotavirus strain-specific and cell type-specific. The mammalian reoviruses also display strain-specific differences in their modulation of the IFN response. Reovirus activates RIG-I and IPS-1 for phosphorylation of IRF3. Reovirus-induced activation of MDA5 also participates in induction if IFN-beta, perhaps through activation of NF-kappa B. Reovirus likely inhibits the IFN response by at least 3 virus strain-specific mechanisms. First, the reovirus mu 2 protein can induce an unusual nuclear accumulation of IRF9 and repress IFN-stimulated gene (ISG) expression, most likely by disrupting IRF9 function as part of the heterotrimeric transcription factor complex, ISGF3. Second, the reovirus sigma 3 protein can bind dsRNA and prevent activation of the latent antiviral effector protein PKR. And third, genetic approaches have identified the reovirus lambda 2 and sigma 2 proteins in virus strain-specific modulation of the IFN response, but the significance remains unclear. In sum, members of the family Reoviridae have evolved a variety of mechanisms to subvert the host's innate protective response.
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