Your search keyword '"Yang, Zih-Syuan"' showing total 2 results

1. DC-SIGN and Galectin-3 individually and collaboratively regulate H5N1 and H7N9 avian influenza A virus infection via interaction with viral envelope hemagglutinin protein.

Author

Yang, Zih-Syuan, Wang, Wen-Hung, Lin, Yu-Ting, Lin, Chih-Yen, Urbina, Aspiro Nayim, Thitithanyanont, Arunee, Lu, Po-Liang, Chen, Yen-Hsu, and Wang, Sheng-Fan

Subjects

*AVIAN influenza, *VIRAL envelope proteins, *PLANT viruses, *INFLUENZA A virus, H5N1 subtype, *INFLUENZA A virus, H7N9 subtype, *GALECTINS, *VIRUS diseases

Abstract

DC-SIGN and Galectin-3 are two different lectins and have been reported to participate in regulation of several virus infections. WHO has pointed that H5N1 and H7N9 avian influenza viruses (AIVs) play continuous threats to global health. AIV hemagglutinin (HA) protein—a highly glycosylated protein—mediates influenza infection and was proposed to have DC-SIGN and Gal3 interactive domains. This study aims to address the individual and collaborative roles of DC-SIGN and Gal3 toward AIVs infection. Firstly, A549 cells with DC-SIGN expression or Gal3-knockdown, via lentiviral vector-mediated CD209 gene expression or LGALS-3 gene knockdown, respectively were generated. Quantitative reverse transcription PCR (qRT-PCR) results indicated that DC-SIGN expression and Gal3 knockdown in A549 cells significantly promoted and ameliorated HA or NP gene expression, respectively after H5N1 and H7N9-reverse genetics (RG) virus postinfections (P  < 0.05). Similar results observed in immunoblotting, indicating that DC-SIGN expression significantly facilitated H5N1-RG and H7N9-RG infections (P  < 0.05), whereas Gal3 knockdown significantly reduced both viral infections (P  < 0.05). Furthermore, we found that DC-SIGN and Gal3 co-expression significantly enhanced infectivity of both H5N1-RG and H7N9-RG viruses (P  < 0.01) and higher regulatory capabilities by DC-SIGN and Gal3 in H5N1-RG than H7N9-RG were noted. The promoting effect mainly relied on exogenous Gal3 and DC-SIGN directly interacting with the HA protein of H5N1 or H7N9 AIVs, subsequently enhancing virus infection. This study sheds light on two different lectins individually and collaboratively regulating H5N1 and H7N9 AIVs infection and suggests that inhibitors against DC-SIGN and Gal3 interacting with HA could be utilized as alternative antiviral strategies. [ABSTRACT FROM AUTHOR]

Published

2023

2. Identification of Important N-Linked Glycosylation Sites in the Hemagglutinin Protein and Their Functional Impact on DC-SIGN Mediated Avian Influenza H5N1 Infection.

Author

Yang, Zih-Syuan, Huang, Szu-Wei, Wang, Wen-Hung, Lin, Chih-Yen, Wang, Chu-Feng, Urbina, Aspiro Nayim, Thitithanyanont, Arunee, Tseng, Sung-Pin, Lu, Po-Liang, Chen, Yen-Hsu, and Wang, Sheng-Fan

Subjects

*H5N1 Influenza, *AVIAN influenza, *HEMAGGLUTININ, *INFLUENZA A virus, H5N1 subtype, *VIRUS diseases, *GLYCOSYLATION, *POULTRY farms

Abstract

DC-SIGN, a C-type lectin mainly expressed in dendritic cells (DCs), has been reported to mediate several viral infections. We previously reported that DC-SIGN mediated H5N1 influenza A virus (AIVs) infection, however, the important DC-SIGN interaction with N-glycosylation sites remain unknown. This study aims to identify the optimal DC-SIGN interacting N-glycosylation sites in HA proteins of H5N1-AIVs. Results from NetNGlyc program analyzed the H5 hemagglutinin sequences of isolates during 2004–2020, revealing that seven and two conserved N-glycosylation sites were detected in HA1 and HA2 domain, respectively. A lentivirus pseudotyped A/Vietnam/1203/04 H5N1 envelope (H5N1-PVs) was generated which displayed an abundance of HA5 proteins on the virions via immuno-electron microscope observation. Further, H5N1-PVs or reverse-genetics (H5N1-RG) strains carrying a serial N-glycosylated mutation was generated by site-directed mutagenesis assay. Human recombinant DC-SIGN (rDC-SIGN) coated ELISA showed that H5N1-PVs bound to DC-SIGN, however, mutation on the N27Q, N39Q, and N181Q significantly reduced this binding (p < 0.05). Infectivity and capture assay demonstrated that N27Q and N39Q mutations significantly ameliorated DC-SIGN mediated H5N1 infection. Furthermore, combined mutations (N27Q&N39Q) significantly waned the interaction on either H5N1-PVs or -RG infection in cis and in trans (p < 0.01). This study concludes that N27 and N39 are two essential N-glycosylation contributing to DC-SIGN mediating H5N1 infection. [ABSTRACT FROM AUTHOR]

Published

2021