Identification and Comparison of the Sialic Acid-Binding Domain Characteristics of Avian Coronavirus Infectious Bronchitis Virus Spike Protein

Infectious bronchitis virus (IBV) infections are initiated by the transmembrane spike (S) glycoprotein, which binds to host factors and fuses the viral and cell membranes. The N-terminal domain of the S1 subunit of IBV S protein binds to sialic acids, but the precise location of the sialic acid bind...

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Veröffentlicht in:	Journal of virology 2023-05, Vol.97 (5), p.e0048923-e0048923
Hauptverfasser:	You, Renrong, Liu, Kangchengyin, Huang, Min, Tang, Lihua, Zhang, Xuehui, Huang, Yahui, Zhao, Jing, Zhao, Ye, Ye, Lilin, Zhang, Guozhong
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Chickens Coronavirus Infections Infectious bronchitis virus - metabolism N-Acetylneuraminic Acid - metabolism Oligopeptides - metabolism Poultry Diseases Spike Glycoprotein, Coronavirus - metabolism Veterinary Microbiology Virus-Cell Interactions
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description	Infectious bronchitis virus (IBV) infections are initiated by the transmembrane spike (S) glycoprotein, which binds to host factors and fuses the viral and cell membranes. The N-terminal domain of the S1 subunit of IBV S protein binds to sialic acids, but the precise location of the sialic acid binding domain (SABD) and the role of the SABD in IBV-infected chickens remain unclear. Here, we identify the S1 N-terminal amino acid (aa) residues 19 to 227 (209 aa total) of IBV strains SD (GI-19) and GD (GI-7), and the corresponding region of M41 (GI-1), as the minimal SABD using truncated protein histochemistry and neuraminidase assays. Both α-2,3- and α-2,6-linked sialic acids on the surfaces of CEK cells can be used as attachment receptors by IBV, leading to increased infection efficiency. However, 9-O acetylation of the sialic acid glycerol side chain inhibits IBV S1 and SABD protein binding. We further constructed recombinant strains in which the S1 gene or the SABD in the GD and SD genomes were replaced with the corresponding region from M41 by reverse genetics. Infecting chickens with these viruses revealed that the virulence and nephrotropism of rSD , rSD , rGD , and rGD strains were decreased to various degrees compared to their parental strains. A positive sera cross-neutralization test showed that the serotypes were changed for the recombinant viruses. Our results provide insight into IBV infection of host cells that may aid vaccine design. To date, only α-2,3-linked sialic acid has been identified as a potential host binding receptor for IBV. Here, we show the minimum region constituting the sialic acid binding domain (SABD) and the binding characteristics of the S1 subunit of spike (S) protein of IBV strains SD (GI-19), GD (GI-7), and M41 (GI-1) to various sialic acids. The 9-O acetylation modification partially inhibits IBV from binding to sialic acid, while the virus can also bind to sialic acid molecules linked to host cells through an α-2,6 linkage, serving as another receptor determinant. Substitution of the putative SABD from strain M41 into strains SD and GD resulted in reduced virulence, nephrotropism, and a serotype switch. These findings suggest that sialic acid binding has diversified during the evolution of γ-coronaviruses, impacting the biological properties of IBV strains. Our results offer insight into the mechanisms by which IBV invades host cells.
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The N-terminal domain of the S1 subunit of IBV S protein binds to sialic acids, but the precise location of the sialic acid binding domain (SABD) and the role of the SABD in IBV-infected chickens remain unclear. Here, we identify the S1 N-terminal amino acid (aa) residues 19 to 227 (209 aa total) of IBV strains SD (GI-19) and GD (GI-7), and the corresponding region of M41 (GI-1), as the minimal SABD using truncated protein histochemistry and neuraminidase assays. Both α-2,3- and α-2,6-linked sialic acids on the surfaces of CEK cells can be used as attachment receptors by IBV, leading to increased infection efficiency. However, 9-O acetylation of the sialic acid glycerol side chain inhibits IBV S1 and SABD protein binding. We further constructed recombinant strains in which the S1 gene or the SABD in the GD and SD genomes were replaced with the corresponding region from M41 by reverse genetics. Infecting chickens with these viruses revealed that the virulence and nephrotropism of rSD , rSD , rGD , and rGD strains were decreased to various degrees compared to their parental strains. A positive sera cross-neutralization test showed that the serotypes were changed for the recombinant viruses. Our results provide insight into IBV infection of host cells that may aid vaccine design. To date, only α-2,3-linked sialic acid has been identified as a potential host binding receptor for IBV. Here, we show the minimum region constituting the sialic acid binding domain (SABD) and the binding characteristics of the S1 subunit of spike (S) protein of IBV strains SD (GI-19), GD (GI-7), and M41 (GI-1) to various sialic acids. The 9-O acetylation modification partially inhibits IBV from binding to sialic acid, while the virus can also bind to sialic acid molecules linked to host cells through an α-2,6 linkage, serving as another receptor determinant. Substitution of the putative SABD from strain M41 into strains SD and GD resulted in reduced virulence, nephrotropism, and a serotype switch. These findings suggest that sialic acid binding has diversified during the evolution of γ-coronaviruses, impacting the biological properties of IBV strains. 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The N-terminal domain of the S1 subunit of IBV S protein binds to sialic acids, but the precise location of the sialic acid binding domain (SABD) and the role of the SABD in IBV-infected chickens remain unclear. Here, we identify the S1 N-terminal amino acid (aa) residues 19 to 227 (209 aa total) of IBV strains SD (GI-19) and GD (GI-7), and the corresponding region of M41 (GI-1), as the minimal SABD using truncated protein histochemistry and neuraminidase assays. Both α-2,3- and α-2,6-linked sialic acids on the surfaces of CEK cells can be used as attachment receptors by IBV, leading to increased infection efficiency. However, 9-O acetylation of the sialic acid glycerol side chain inhibits IBV S1 and SABD protein binding. We further constructed recombinant strains in which the S1 gene or the SABD in the GD and SD genomes were replaced with the corresponding region from M41 by reverse genetics. Infecting chickens with these viruses revealed that the virulence and nephrotropism of rSD , rSD , rGD , and rGD strains were decreased to various degrees compared to their parental strains. A positive sera cross-neutralization test showed that the serotypes were changed for the recombinant viruses. Our results provide insight into IBV infection of host cells that may aid vaccine design. To date, only α-2,3-linked sialic acid has been identified as a potential host binding receptor for IBV. Here, we show the minimum region constituting the sialic acid binding domain (SABD) and the binding characteristics of the S1 subunit of spike (S) protein of IBV strains SD (GI-19), GD (GI-7), and M41 (GI-1) to various sialic acids. The 9-O acetylation modification partially inhibits IBV from binding to sialic acid, while the virus can also bind to sialic acid molecules linked to host cells through an α-2,6 linkage, serving as another receptor determinant. Substitution of the putative SABD from strain M41 into strains SD and GD resulted in reduced virulence, nephrotropism, and a serotype switch. These findings suggest that sialic acid binding has diversified during the evolution of γ-coronaviruses, impacting the biological properties of IBV strains. Our results offer insight into the mechanisms by which IBV invades host cells.</description><subject>Animals</subject><subject>Chickens</subject><subject>Coronavirus Infections</subject><subject>Infectious bronchitis virus - metabolism</subject><subject>N-Acetylneuraminic Acid - metabolism</subject><subject>Oligopeptides - metabolism</subject><subject>Poultry Diseases</subject><subject>Spike Glycoprotein, Coronavirus - metabolism</subject><subject>Veterinary Microbiology</subject><subject>Virus-Cell Interactions</subject><issn>0022-538X</issn><issn>1098-5514</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kU1vEzEQhi0Eomnhxhn5CBJb_LUfOaE0fEWqBFIBcbNmvbPNhF072JtI_RP8ZpymVHDg5PG8rx9r5mXsmRTnUqrm9WZP50KYZl4o_YDNpJg3RVlK85DNhFCqKHXz_YSdprQRQhpTmcfsRNdiXsuymrFfqw79RD05mCh4Dr7jyzBuIVLK19DzaY38imAgxxeOuuKCfEf-mr8NI5DnyzVEcBNm_0QuHV4s9gRZCDF42FPcJb7yPbrMz-VF7ro1TZT4t1vtaks_kH-OYULyT9ijHoaET-_OM_b1_bsvy4_F5acPq-XisgAj51PhsO9E2ygDuZCArapANxqFaE3fO1mWIu9GyxZyqzSyrREVgqraulWlRn3G3hy52107YufyDiIMdhtphHhjA5D9V_G0ttdhb6XI2IzIhBd3hBh-7jBNdqTkcBjAY57TqkZUola1Ntn66mh1MaQUsb__Rwp7yNDmDO1thlYdyC-Pdkijspuwiz6v4n_e53_PcQ_-E7D-DV3XqSw</recordid><startdate>20230531</startdate><enddate>20230531</enddate><creator>You, Renrong</creator><creator>Liu, Kangchengyin</creator><creator>Huang, Min</creator><creator>Tang, Lihua</creator><creator>Zhang, Xuehui</creator><creator>Huang, Yahui</creator><creator>Zhao, Jing</creator><creator>Zhao, Ye</creator><creator>Ye, Lilin</creator><creator>Zhang, Guozhong</creator><general>American Society for Microbiology</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0002-8200-312X</orcidid></search><sort><creationdate>20230531</creationdate><title>Identification and Comparison of the Sialic Acid-Binding Domain Characteristics of Avian Coronavirus Infectious Bronchitis Virus Spike Protein</title><author>You, Renrong ; Liu, Kangchengyin ; Huang, Min ; Tang, Lihua ; Zhang, Xuehui ; Huang, Yahui ; Zhao, Jing ; Zhao, Ye ; Ye, Lilin ; Zhang, Guozhong</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a419t-cefd0b824aefd1aeb26a383e00b4ffc155011231bae00541b7ee2ea26b7b253e3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2023</creationdate><topic>Animals</topic><topic>Chickens</topic><topic>Coronavirus Infections</topic><topic>Infectious bronchitis virus - metabolism</topic><topic>N-Acetylneuraminic Acid - metabolism</topic><topic>Oligopeptides - metabolism</topic><topic>Poultry Diseases</topic><topic>Spike Glycoprotein, Coronavirus - metabolism</topic><topic>Veterinary Microbiology</topic><topic>Virus-Cell Interactions</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>You, Renrong</creatorcontrib><creatorcontrib>Liu, Kangchengyin</creatorcontrib><creatorcontrib>Huang, Min</creatorcontrib><creatorcontrib>Tang, Lihua</creatorcontrib><creatorcontrib>Zhang, Xuehui</creatorcontrib><creatorcontrib>Huang, Yahui</creatorcontrib><creatorcontrib>Zhao, Jing</creatorcontrib><creatorcontrib>Zhao, Ye</creatorcontrib><creatorcontrib>Ye, Lilin</creatorcontrib><creatorcontrib>Zhang, Guozhong</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>Journal of virology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>You, Renrong</au><au>Liu, Kangchengyin</au><au>Huang, Min</au><au>Tang, Lihua</au><au>Zhang, Xuehui</au><au>Huang, Yahui</au><au>Zhao, Jing</au><au>Zhao, Ye</au><au>Ye, Lilin</au><au>Zhang, Guozhong</au><au>Schultz-Cherry, Stacey</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Identification and Comparison of the Sialic Acid-Binding Domain Characteristics of Avian Coronavirus Infectious Bronchitis Virus Spike Protein</atitle><jtitle>Journal of virology</jtitle><stitle>J Virol</stitle><addtitle>J Virol</addtitle><date>2023-05-31</date><risdate>2023</risdate><volume>97</volume><issue>5</issue><spage>e0048923</spage><epage>e0048923</epage><pages>e0048923-e0048923</pages><issn>0022-538X</issn><eissn>1098-5514</eissn><abstract>Infectious bronchitis virus (IBV) infections are initiated by the transmembrane spike (S) glycoprotein, which binds to host factors and fuses the viral and cell membranes. The N-terminal domain of the S1 subunit of IBV S protein binds to sialic acids, but the precise location of the sialic acid binding domain (SABD) and the role of the SABD in IBV-infected chickens remain unclear. Here, we identify the S1 N-terminal amino acid (aa) residues 19 to 227 (209 aa total) of IBV strains SD (GI-19) and GD (GI-7), and the corresponding region of M41 (GI-1), as the minimal SABD using truncated protein histochemistry and neuraminidase assays. Both α-2,3- and α-2,6-linked sialic acids on the surfaces of CEK cells can be used as attachment receptors by IBV, leading to increased infection efficiency. However, 9-O acetylation of the sialic acid glycerol side chain inhibits IBV S1 and SABD protein binding. We further constructed recombinant strains in which the S1 gene or the SABD in the GD and SD genomes were replaced with the corresponding region from M41 by reverse genetics. Infecting chickens with these viruses revealed that the virulence and nephrotropism of rSD , rSD , rGD , and rGD strains were decreased to various degrees compared to their parental strains. A positive sera cross-neutralization test showed that the serotypes were changed for the recombinant viruses. Our results provide insight into IBV infection of host cells that may aid vaccine design. To date, only α-2,3-linked sialic acid has been identified as a potential host binding receptor for IBV. Here, we show the minimum region constituting the sialic acid binding domain (SABD) and the binding characteristics of the S1 subunit of spike (S) protein of IBV strains SD (GI-19), GD (GI-7), and M41 (GI-1) to various sialic acids. The 9-O acetylation modification partially inhibits IBV from binding to sialic acid, while the virus can also bind to sialic acid molecules linked to host cells through an α-2,6 linkage, serving as another receptor determinant. Substitution of the putative SABD from strain M41 into strains SD and GD resulted in reduced virulence, nephrotropism, and a serotype switch. These findings suggest that sialic acid binding has diversified during the evolution of γ-coronaviruses, impacting the biological properties of IBV strains. Our results offer insight into the mechanisms by which IBV invades host cells.</abstract><cop>United States</cop><pub>American Society for Microbiology</pub><pmid>37097156</pmid><doi>10.1128/jvi.00489-23</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0002-8200-312X</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Animals Chickens Coronavirus Infections Infectious bronchitis virus - metabolism N-Acetylneuraminic Acid - metabolism Oligopeptides - metabolism Poultry Diseases Spike Glycoprotein, Coronavirus - metabolism Veterinary Microbiology Virus-Cell Interactions
title	Identification and Comparison of the Sialic Acid-Binding Domain Characteristics of Avian Coronavirus Infectious Bronchitis Virus Spike Protein
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