A Single Amino Acid at Residue 188 of the Hexon Protein Is Responsible for the Pathogenicity of the Emerging Novel Virus Fowl Adenovirus 4

A Single Amino Acid at Residue 188 of the Hexon Protein Is Responsible for the Pathogenicity of the Emerging Novel Virus Fowl Adenovirus 4

Since 2015, severe hydropericardium-hepatitis syndrome (HHS) associated with a novel fowl adenovirus 4 (FAdV-4) has emerged in China, representing a new challenge for the poultry industry. Although various highly pathogenic FAdV-4 strains have been isolated, the virulence factor and the pathogenesis...

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Veröffentlicht in:Journal of virology 2021-08, Vol.95 (17), p.e0060321
Hauptverfasser: Zhang, Yu, Liu, Aijing, Wang, Yanan, Cui, Hongyu, Gao, Yulong, Qi, Xiaole, Liu, Changjun, Zhang, Yanping, Li, Kai, Gao, Li, Pan, Qing, Wang, Xiaomei
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Adenoviridae Infections - veterinary
Adenoviridae Infections - virology
Amino Acid Substitution
Animals
Aviadenovirus - classification
Aviadenovirus - genetics
Aviadenovirus - isolation & purification
Aviadenovirus - pathogenicity
Capsid Proteins - genetics
Capsid Proteins - metabolism
Chickens - virology
Mutation
Pathogenesis and Immunity
Poultry Diseases - virology
Viral Proteins - genetics
Viral Proteins - metabolism
Virulence
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container_issue 17
container_start_page e0060321
container_title Journal of virology
container_volume 95
creator Zhang, Yu
Liu, Aijing
Wang, Yanan
Cui, Hongyu
Gao, Yulong
Qi, Xiaole
Liu, Changjun
Zhang, Yanping
Li, Kai
Gao, Li
Pan, Qing
Wang, Xiaomei
description Since 2015, severe hydropericardium-hepatitis syndrome (HHS) associated with a novel fowl adenovirus 4 (FAdV-4) has emerged in China, representing a new challenge for the poultry industry. Although various highly pathogenic FAdV-4 strains have been isolated, the virulence factor and the pathogenesis of novel FAdV-4 are unclear. In our previous studies, we reported that a large genomic deletion (1,966 bp) is not related to increased virulence. Here, two recombinant chimeric viruses, rHN20 strain and rFB2 strain, were generated from a highly pathogenic FAdV-4 strain by replacing the or gene of a nonpathogenic FAdV-4, respectively. Both chimeric strains showed similar titers to the wild-type strain . Notably, rFB2 and the wild-type strain induced 100% mortality, while no mortality or clinical signs appeared in chickens inoculated with rHN20, indicating that hexon, but not fiber-2, determines the novel FAdV-4 virulence. Furthermore, an R188I mutation in the hexon protein identified residue 188 as the key amino acid for the reduced pathogenicity. The rR188I mutant strain was significantly neutralized by chicken serum and , whereas the wild-type strain was able to replicate efficiently. Finally, the immunogenicity of the rescued rR188I was investigated. Nonpathogenic rR188I provided full protection against lethal FAdV-4 challenge. Collectively, these findings provide an in-depth understanding of the molecular basis of novel FAdV-4 pathogenicity and present rR188I as a potential live attenuated vaccine candidate or a novel vaccine vector for HHS vaccines. HHS associated with a novel FAdV-4 infection in chickens has caused huge economic losses to the poultry industry in China since 2015. The molecular basis for the increased virulence remains largely unknown. Here, we demonstrate that the hexon gene is vital for FAdV-4 pathogenicity. Furthermore, we show that the amino acid residue at position 188 of the hexon protein is responsible for pathogenicity. Importantly, the rR188I mutant strain was neutralized by chicken serum and , whereas the wild-type strain was not. Further, the rR188I mutant strain provided complete protection against FAdV-4 challenge. Our results provide a molecular basis of the increased virulence of novel FAdV-4. We propose that the rR188I mutant is a potential live attenuated vaccine against HHS and a new vaccine vector for HHS-combined vaccines.
doi_str_mv 10.1128/JVI.00603-21
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Although various highly pathogenic FAdV-4 strains have been isolated, the virulence factor and the pathogenesis of novel FAdV-4 are unclear. In our previous studies, we reported that a large genomic deletion (1,966 bp) is not related to increased virulence. Here, two recombinant chimeric viruses, rHN20 strain and rFB2 strain, were generated from a highly pathogenic FAdV-4 strain by replacing the or gene of a nonpathogenic FAdV-4, respectively. Both chimeric strains showed similar titers to the wild-type strain . Notably, rFB2 and the wild-type strain induced 100% mortality, while no mortality or clinical signs appeared in chickens inoculated with rHN20, indicating that hexon, but not fiber-2, determines the novel FAdV-4 virulence. Furthermore, an R188I mutation in the hexon protein identified residue 188 as the key amino acid for the reduced pathogenicity. The rR188I mutant strain was significantly neutralized by chicken serum and , whereas the wild-type strain was able to replicate efficiently. Finally, the immunogenicity of the rescued rR188I was investigated. Nonpathogenic rR188I provided full protection against lethal FAdV-4 challenge. Collectively, these findings provide an in-depth understanding of the molecular basis of novel FAdV-4 pathogenicity and present rR188I as a potential live attenuated vaccine candidate or a novel vaccine vector for HHS vaccines. HHS associated with a novel FAdV-4 infection in chickens has caused huge economic losses to the poultry industry in China since 2015. The molecular basis for the increased virulence remains largely unknown. Here, we demonstrate that the hexon gene is vital for FAdV-4 pathogenicity. Furthermore, we show that the amino acid residue at position 188 of the hexon protein is responsible for pathogenicity. Importantly, the rR188I mutant strain was neutralized by chicken serum and , whereas the wild-type strain was not. Further, the rR188I mutant strain provided complete protection against FAdV-4 challenge. Our results provide a molecular basis of the increased virulence of novel FAdV-4. 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Although various highly pathogenic FAdV-4 strains have been isolated, the virulence factor and the pathogenesis of novel FAdV-4 are unclear. In our previous studies, we reported that a large genomic deletion (1,966 bp) is not related to increased virulence. Here, two recombinant chimeric viruses, rHN20 strain and rFB2 strain, were generated from a highly pathogenic FAdV-4 strain by replacing the or gene of a nonpathogenic FAdV-4, respectively. Both chimeric strains showed similar titers to the wild-type strain . Notably, rFB2 and the wild-type strain induced 100% mortality, while no mortality or clinical signs appeared in chickens inoculated with rHN20, indicating that hexon, but not fiber-2, determines the novel FAdV-4 virulence. Furthermore, an R188I mutation in the hexon protein identified residue 188 as the key amino acid for the reduced pathogenicity. The rR188I mutant strain was significantly neutralized by chicken serum and , whereas the wild-type strain was able to replicate efficiently. Finally, the immunogenicity of the rescued rR188I was investigated. Nonpathogenic rR188I provided full protection against lethal FAdV-4 challenge. Collectively, these findings provide an in-depth understanding of the molecular basis of novel FAdV-4 pathogenicity and present rR188I as a potential live attenuated vaccine candidate or a novel vaccine vector for HHS vaccines. HHS associated with a novel FAdV-4 infection in chickens has caused huge economic losses to the poultry industry in China since 2015. The molecular basis for the increased virulence remains largely unknown. Here, we demonstrate that the hexon gene is vital for FAdV-4 pathogenicity. Furthermore, we show that the amino acid residue at position 188 of the hexon protein is responsible for pathogenicity. Importantly, the rR188I mutant strain was neutralized by chicken serum and , whereas the wild-type strain was not. Further, the rR188I mutant strain provided complete protection against FAdV-4 challenge. Our results provide a molecular basis of the increased virulence of novel FAdV-4. We propose that the rR188I mutant is a potential live attenuated vaccine against HHS and a new vaccine vector for HHS-combined vaccines.</description><subject>Adenoviridae Infections - veterinary</subject><subject>Adenoviridae Infections - virology</subject><subject>Amino Acid Substitution</subject><subject>Animals</subject><subject>Aviadenovirus - classification</subject><subject>Aviadenovirus - genetics</subject><subject>Aviadenovirus - isolation &amp; purification</subject><subject>Aviadenovirus - pathogenicity</subject><subject>Capsid Proteins - genetics</subject><subject>Capsid Proteins - metabolism</subject><subject>Chickens - virology</subject><subject>Mutation</subject><subject>Pathogenesis and Immunity</subject><subject>Poultry Diseases - virology</subject><subject>Viral Proteins - genetics</subject><subject>Viral Proteins - metabolism</subject><subject>Virulence</subject><issn>0022-538X</issn><issn>1098-5514</issn><issn>1098-5514</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kU1v1DAQhi0Eokvhxhn5CBJpPf7IJhekqGrpoqpUfFTcLCcZ77pK7K2dLPQv8KvJ7rYVHDiNR37mfTXzEvIa2BEAL44_XS-OGMuZyDg8ITNgZZEpBfIpmTHGeaZE8eOAvEjphjGQMpfPyYGQIETJ-Iz8ruhX55cd0qp3PtCqcS01A_2CybUjUigKGiwdVkjP8Vfw9CqGAZ2ni7Rl1sEnV0_TNsQddGWGVViid40b7h4mT3uMy8mFXoYNdvTaxTHRs_Czo1WLPmx2vXxJnlnTJXx1Xw_J97PTbyfn2cXnj4uT6iIzMochswIApWIW5iU0plSmnkvJ5xZLpmwzz1VTCgO2Rp5jOz2nW6h53vIapK2ZEIfkw153PdY9tg36IZpOr6PrTbzTwTj97493K70MG10IJQVXk8Dbe4EYbkdMg-5darDrjMcwJs2V5EIVoth6vd-jTQwpRbSPNsD0Nj49xad38WkOE_5uj5vUc30TxuinS_yPffP3Go_CD9mKPzW9opk</recordid><startdate>20210810</startdate><enddate>20210810</enddate><creator>Zhang, Yu</creator><creator>Liu, Aijing</creator><creator>Wang, Yanan</creator><creator>Cui, Hongyu</creator><creator>Gao, Yulong</creator><creator>Qi, Xiaole</creator><creator>Liu, Changjun</creator><creator>Zhang, Yanping</creator><creator>Li, Kai</creator><creator>Gao, Li</creator><creator>Pan, Qing</creator><creator>Wang, Xiaomei</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/0000-0002-0448-8467</orcidid><orcidid>https://orcid.org/0000-0001-7411-9184</orcidid></search><sort><creationdate>20210810</creationdate><title>A Single Amino Acid at Residue 188 of the Hexon Protein Is Responsible for the Pathogenicity of the Emerging Novel Virus Fowl Adenovirus 4</title><author>Zhang, Yu ; 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Although various highly pathogenic FAdV-4 strains have been isolated, the virulence factor and the pathogenesis of novel FAdV-4 are unclear. In our previous studies, we reported that a large genomic deletion (1,966 bp) is not related to increased virulence. Here, two recombinant chimeric viruses, rHN20 strain and rFB2 strain, were generated from a highly pathogenic FAdV-4 strain by replacing the or gene of a nonpathogenic FAdV-4, respectively. Both chimeric strains showed similar titers to the wild-type strain . Notably, rFB2 and the wild-type strain induced 100% mortality, while no mortality or clinical signs appeared in chickens inoculated with rHN20, indicating that hexon, but not fiber-2, determines the novel FAdV-4 virulence. Furthermore, an R188I mutation in the hexon protein identified residue 188 as the key amino acid for the reduced pathogenicity. The rR188I mutant strain was significantly neutralized by chicken serum and , whereas the wild-type strain was able to replicate efficiently. Finally, the immunogenicity of the rescued rR188I was investigated. Nonpathogenic rR188I provided full protection against lethal FAdV-4 challenge. Collectively, these findings provide an in-depth understanding of the molecular basis of novel FAdV-4 pathogenicity and present rR188I as a potential live attenuated vaccine candidate or a novel vaccine vector for HHS vaccines. HHS associated with a novel FAdV-4 infection in chickens has caused huge economic losses to the poultry industry in China since 2015. The molecular basis for the increased virulence remains largely unknown. Here, we demonstrate that the hexon gene is vital for FAdV-4 pathogenicity. Furthermore, we show that the amino acid residue at position 188 of the hexon protein is responsible for pathogenicity. Importantly, the rR188I mutant strain was neutralized by chicken serum and , whereas the wild-type strain was not. Further, the rR188I mutant strain provided complete protection against FAdV-4 challenge. Our results provide a molecular basis of the increased virulence of novel FAdV-4. We propose that the rR188I mutant is a potential live attenuated vaccine against HHS and a new vaccine vector for HHS-combined vaccines.</abstract><cop>United States</cop><pub>American Society for Microbiology</pub><pmid>34133902</pmid><doi>10.1128/JVI.00603-21</doi><tpages>15</tpages><orcidid>https://orcid.org/0000-0002-0448-8467</orcidid><orcidid>https://orcid.org/0000-0001-7411-9184</orcidid><oa>free_for_read</oa></addata></record>
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subjects Adenoviridae Infections - veterinary
Adenoviridae Infections - virology
Amino Acid Substitution
Animals
Aviadenovirus - classification
Aviadenovirus - genetics
Aviadenovirus - isolation & purification
Aviadenovirus - pathogenicity
Capsid Proteins - genetics
Capsid Proteins - metabolism
Chickens - virology
Mutation
Pathogenesis and Immunity
Poultry Diseases - virology
Viral Proteins - genetics
Viral Proteins - metabolism
Virulence
title A Single Amino Acid at Residue 188 of the Hexon Protein Is Responsible for the Pathogenicity of the Emerging Novel Virus Fowl Adenovirus 4
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