Luyao Yu scite author profile

Luyao Yu

3Publications

29Citation Statements Received

133Citation Statements Given

How they've been cited

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143

110

Affiliations

Center of Hubei Cooperative Innovation for Emissions Trading System, Huazhong Agricultural University

Publications

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Human TRA2A determines influenza A virus host adaptation by regulating viral mRNA splicing

Zhu

Wang

et al. 2020

Sci. Adv.

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Several avian influenza A viruses (IAVs) have adapted to mammalian species, including humans. To date, the mechanisms enabling these host shifts remain incompletely understood. Here, we show that a host factor, human TRA2A (huTRA2A), inhibits avian IAV replication, but benefits human IAV replication by altered regulation of viral messenger RNA (mRNA) splicing. huTRA2A depresses mRNA splicing by binding to the intronic splicing silencer motif in the M mRNA of representative avian YS/H5N1 or in the NS mRNA of representative human PR8/H1N1 virus, leading to completely opposite effects on replication of the human and avian viruses in vitro and in vivo. We also confirm that the M-334 site and NS-234/236 sites are critical for TRA2A binding, mRNA splicing, viral replication, and pathogenicity. Our results reveal the underlying mechanisms of adaptation of avian influenza virus to human hosts, and suggest rational strategies to protect public health.

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N6-methyladenosine reader protein YTHDC1 regulates influenza A virus NS segment splicing and replication

et al. 2023

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N6-methyladenosine (m6A) modification on viral RNAs has a profound impact on infectivity. m6A is also a highly pervasive modification for influenza viral RNAs. However, its role in virus mRNA splicing is largely unknown. Here, we identify the m6A reader protein YTHDC1 as a host factor that associates with influenza A virus NS1 protein and modulates viral mRNA splicing. YTHDC1 levels are enhanced by IAV infection. We demonstrate that YTHDC1 inhibits NS splicing by binding to an NS 3′ splicing site and promotes IAV replication and pathogenicity in vitro and in vivo. Our results provide a mechanistic understanding of IAV-host interactions, a potential therapeutic target for blocking influenza virus infection, and a new avenue for the development of attenuated vaccines.

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Transportin-3 Facilitates Uncoating of Influenza A Virus

Zou

Zhu

et al. 2022

IJMS

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Influenza A viruses (IAVs) are a major global health threat and in the future, may cause the next pandemic. Although studies have partly uncovered the molecular mechanism of IAV–host interaction, it requires further research. In this study, we explored the roles of transportin-3 (TNPO3) in IAV infection. We found that TNPO3-deficient cells inhibited infection with four different IAV strains, whereas restoration of TNPO3 expression in knockout (KO) cells restored IAV infection. TNPO3 overexpression in wild-type (WT) cells promoted IAV infection, suggesting that TNPO3 is involved in the IAV replication. Furthermore, we found that TNPO3 depletion restrained the uncoating in the IAV life cycle, thereby inhibiting the process of viral ribonucleoprotein (vRNP) entry into the nucleus. However, KO of TNPO3 did not affect the virus attachment, endocytosis, or endosomal acidification processes. Subsequently, we found that TNPO3 can colocalize and interact with viral proteins M1 and M2. Taken together, the depletion of TNPO3 inhibits IAV uncoating, thereby inhibiting IAV replication. Our study provides new insights and potential therapeutic targets for unraveling the mechanism of IAV replication and treating influenza disease.

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Luyao Yu

Human TRA2A determines influenza A virus host adaptation by regulating viral mRNA splicing

N6-methyladenosine reader protein YTHDC1 regulates influenza A virus NS segment splicing and replication

Transportin-3 Facilitates Uncoating of Influenza A Virus

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