Department of Veterinary Medicine

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Author: search.filters.author.Nan, YuchenEnd date: 2019

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Now showing 1 - 7 of 7
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    Interferon Induction by RNA Viruses and Antagonism by Viral Pathogens
    (MDPI, 2014-12-12) Nan, Yuchen; Nan, Guoxin; Zhang, Yan-Jin
    Interferons are a group of small proteins that play key roles in host antiviral innate immunity. Their induction mainly relies on host pattern recognition receptors (PRR). Host PRR for RNA viruses include Toll-like receptors (TLR) and retinoic acid-inducible gene I (RIG-I) like receptors (RLR). Activation of both TLR and RLR pathways can eventually lead to the secretion of type I IFNs, which can modulate both innate and adaptive immune responses against viral pathogens. Because of the important roles of interferons, viruses have evolved multiple strategies to evade host TLR and RLR mediated signaling. This review focuses on the mechanisms of interferon induction and antagonism of the antiviral strategy by RNA viruses.
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    A Linear Surface Epitope in a Proline-Rich Region of ORF3 Product of Genotype 1 Hepatitis E Virus
    (MDPI, 2016-08-18) Yang, Yonglin; Lin, Shaoli; Nan, Yuchen; Ma, Zexu; Yang, Liping; Zhang, Yanjin
    Hepatitis E virus (HEV) is one of the viral pathogens causing hepatitis in humans. HEV open reading frame 3 (ORF3) encodes a small multifunctional protein (VP13), which is essential for HEV infection. In this study, a linear epitope was identified in a polyproline (PXXP) motif from VP13 of genotype 1 HEV by using a monoclonal antibody. The epitope was detected in enzyme-linked immunosorbent assay (ELISA), immunoblotting and immunofluorescence assays. Epitope mapping showed that the epitope locates in a proline-rich region containing a PXXP motif in amino acid residues 66-75 of VP13. The epitope was also detected in HEV-infected liver cells and reacted with genotype 1-specific antibodies in an HEV-positive human serum sample. The results demonstrated that the epitope in the PXXP motif of the genotype 1 VP13 is linear and surface-oriented, which should facilitate in-depth studies on the viral protein and HEV biology.
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    Interferon Independent Non-Canonical STAT Activation and Virus Induced Inflammation
    (MDPI, 2018-04-14) Nan, Yuchen; Wu, Chunyan; Zhang, Yan-Jin
    Interferons (IFNs) are a group of secreted proteins that play critical roles in antiviral immunity, antitumor activity, activation of cytotoxic T cells, and modulation of host immune responses. IFNs are cytokines, and bind receptors on cell surfaces to trigger signal transduction. The major signaling pathway activated by IFNs is the JAK/STAT (Janus kinase/signal transducer and activator of transcription) pathway, a complex pathway involved in both viral and host survival strategies. On the one hand, viruses have evolved strategies to escape from antiviral host defenses evoked by IFN-activated JAK/STAT signaling. On the other hand, viruses have also evolved to exploit the JAK/STAT pathway to evoke activation of certain STATs that somehow promote viral pathogenesis. In this review, recent progress in our understanding of the virus-induced IFN-independent STAT signaling and its potential roles in viral induced inflammation and pathogenesis are summarized in detail, and perspectives are provided.
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    The Capsid Protein of Hepatitis E Virus Inhibits Interferon Induction via Its N-Terminal Arginine-Rich Motif
    (MDPI, 2019-11-11) Lin, Shaoli; Yang, Yonglin; Nan, Yuchen; Ma, Zexu; Yang, Liping; Zhang, Yan-Jin
    Hepatitis E virus (HEV) causes predominantly acute and self-limiting hepatitis. However, in HEV-infected pregnant women, the case fatality rate because of fulminant hepatitis can be up to 30%. HEV infection is zoonotic for some genotypes. The HEV genome contains three open reading frames: ORF1 encodes the non-structural polyprotein involved in viral RNA replication; ORF2 encodes the capsid protein; ORF3 encodes a small multifunctional protein. Interferons (IFNs) play a significant role in the early stage of the host antiviral response. In this study, we discovered that the capsid protein antagonizes IFN induction. Mechanistically, the capsid protein blocked the phosphorylation of IFN regulatory factor 3 (IRF3) via interaction with the multiprotein complex consisting of mitochondrial antiviral-signaling protein (MAVS), TANK-binding kinase 1 (TBK1), and IRF3. The N-terminal domain of the capsid protein was found to be responsible for the inhibition of IRF3 activation. Further study showed that the arginine-rich-motif in the N-terminal domain is indispensable for the inhibition as mutations of any of the arginine residues abolished the blockage of IRF3 phosphorylation. These results provide further insight into HEV interference with the host innate immunity.
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    Fungal dissemination is limited by liver macrophage filtration of the blood
    (Springer Nature, 2019-10-08) Sun, Donglei; Sun, Peng; Li, Hongmei; Zhang, Mingshun; Liu, Gongguan; Strickland, Ashley B.; Chen, Yanli; Fu, Yong; Xu, Juan; Yosri, Mohammed; Nan, Yuchen; Zhou, Hong; Zhang, Xiquan; Shi, Meiqing
    Fungal dissemination into the bloodstream is a critical step leading to invasive fungal infections. Here, using intravital imaging, we show that Kupffer cells (KCs) in the liver have a prominent function in the capture of circulating Cryptococcus neoformans and Candida albicans, thereby reducing fungal dissemination to target organs. Complement C3 but not C5, and complement receptor CRIg but not CR3, are involved in capture of C. neoformans. Internalization of C. neoformans by KCs is subsequently mediated by multiple receptors, including CR3, CRIg, and scavenger receptors, which work synergistically along with C5aR signaling. Following phagocytosis, the growth of C. neoformans is inhibited by KCs in an IFN-γ independent manner. Thus, the liver filters disseminating fungi from circulation via KCs, providing a mechanistic explanation for the enhanced risk of cryptococcosis among individuals with liver diseases, and suggesting a therapeutic strategy to prevent fungal dissemination through enhancing KC functions.
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    Sustaining Interferon Induction by a High-Passage Atypical Porcine Reproductive and Respiratory Syndrome Virus Strain
    (Nature Publishing Group, 2016-11-02) Ma, Zexu; Yu, Ying; Xiao, Yueqiang; Opriessnig, Tanja; Wang, Rong; Yang, Liping; Nan, Yuchen; Samal, Siba K.; Halbur, Patrick G.; Zhang, Yan-Jin
    Porcine reproductive and respiratory syndrome virus (PRRSV) strain A2MC2 induces type I interferons in cultured cells. The objective of this study was to attenuate this strain by serial passaging in MARC-145 cells and assess its virulence and immunogenicity in pigs. The A2MC2 serially passaged 90 times (A2MC2-P90) retains the feature of interferon induction. The A2MC2-P90 replicates faster with a higher virus yield than wild type A2MC2 virus. Infection of primary pulmonary alveolar macrophages (PAMs) also induces interferons. Sequence analysis showed that the A2MC2-P90 has genomic nucleic acid identity of 99.8% to the wild type but has a deletion of 543 nucleotides in nsp2. The deletion occurred in passage 60. The A2MC2-P90 genome has a total of 35 nucleotide variations from the wild type, leading to 26 amino acid differences. Inoculation of three-week-old piglets showed that A2MC2-P90 is avirulent and elicits immune response. Compared with Ingelvac PRRS® MLV strain, A2MC2-P90 elicits higher virus neutralizing antibodies. The attenuated IFN inducing A2MC2-P90 should be useful for development of an improved PRRSV vaccine.
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    Interferense of Host Innate Immune Response by Hepatitis E Virus
    (2014) Nan, Yuchen; Zhang, Yanjin; Veterinary Medical Science; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    The host antiviral innate immunity mainly relies on host pattern recognition receptors (PRR) and downstream interferon (IFN) signaling. Host PRR for RNA viruses include Toll-like receptors (TLR) and Retinoic acid-inducible gene I (RIG-I) like receptors (RLR). Activation of both TLR and RLR pathways can eventually lead to the secretion of type I IFNs, which can modulate both innate and adaptive immune responses against viral pathogens, including hepatitis E virus (HEV). HEV causes acute hepatitis in humans and has been responsible for several outbreaks of hepatitis across the world. Currently, no commercial vaccine is available for the prevention of HEV infection in any country except China. HEV biology and pathogenesis as well as its responses to host innate immunity are poorly understood, though other hepatitis viruses, including the hepatitis A, B and C viruses, have been much better studied. In this study, how HEV interferes with IFN induction and IFN-activated signaling had been examined. Results showed that the protein encoded by HEV ORF1 can inhibit type I IFN synthesis and downstream JAK/STAT signaling pathway. However, the HEV ORF3 product is able to enhance RIG-I-mediated signaling to a certain extent. These data suggest that HEV proteins interfere with the host innate immune response and may exert the diverse roles depending on the stage and/or context of infection. These studies contribute to a better understanding of HEV pathogenesis and may facilitate a strategy development for the prevention and control of HEV infection.