Rapid engineering of foot-and-mouth disease vaccine and challenge viruses

Seo Yong Lee; Yeo Joo Lee; Rae Hyung Kim; Jeong Nam Park; Min Eun Park; Mi Kyeong Ko; Joo Hyung Choi; Jia Qi Chu; Kwang Nyeong Lee; Su Mi Kim; Dongseob Tark; Hyang Sim Lee; Young Joon Ko; Min Goo Seo; Jung Won Park; Byounghan Kim; Myoung Heon Lee; Jong Soo Lee; Jong Hyeon Park

doi:10.1128/JVI.00155-17

Rapid engineering of foot-and-mouth disease vaccine and challenge viruses

Seo Yong Lee
, Yeo Joo Lee
, Rae Hyung Kim
, Jeong Nam Park
, Min Eun Park
, Mi Kyeong Ko
, Joo Hyung Choi
, Jia Qi Chu
, Kwang Nyeong Lee
, Su Mi Kim
, Dongseob Tark
, Hyang Sim Lee
, Young Joon Ko
, Min Goo Seo
, Jung Won Park
, Byounghan Kim
, Myoung Heon Lee
, Jong Soo Lee^*
, Jong Hyeon Park

^*Corresponding author for this work

Korea Zoonosis Research Institute at Jeonbuk National University

Research output: Contribution to journal › Journal article › peer-review

38 Scopus citations

Abstract

There are seven antigenically distinct serotypes of foot-and-mouth disease virus (FMDV), each of which has intratypic variants. In the present study, we have developed methods to efficiently generate promising vaccines against seven serotypes or subtypes. The capsid-encoding gene (P1) of the vaccine strain O1/ Manisa/Turkey/69 was replaced with the amplified or synthetic genes from the O, A, Asia1, C, SAT1, SAT2, and SAT3 serotypes. Viruses of the seven serotype were rescued successfully. Each chimeric FMDV with a replacement of P1 showed serotypespecific antigenicity and varied in terms of pathogenesis in pigs and mice. Vaccination of pigs with an experimental trivalent vaccine containing the inactivated recombinants based on the main serotypes O, A, and Asia1 effectively protected them from virus challenge. This technology could be a potential strategy for a customized vaccine with challenge tools to protect against epizootic disease caused by specific serotypes or subtypes of FMDV.

Original language	English
Article number	e00155-17
Journal	Journal of Virology
Volume	91
Issue number	16
DOIs	https://doi.org/10.1128/JVI.00155-17
State	Published - 2017.08.1

Keywords

Foot-and-mouth disease
Pathogenesis
Serotype
Synthetic vaccine

Quacquarelli Symonds(QS) Subject Topics

Agriculture & Forestry
Biological Sciences

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10.1128/JVI.00155-17

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Lee, S. Y., Lee, Y. J., Kim, R. H., Park, J. N., Park, M. E., Ko, M. K., Choi, J. H., Chu, J. Q., Lee, K. N., Kim, S. M., Tark, D., Lee, H. S., Ko, Y. J., Seo, M. G., Park, J. W., Kim, B., Lee, M. H., Lee, J. S., & Park, J. H. (2017). Rapid engineering of foot-and-mouth disease vaccine and challenge viruses. Journal of Virology, 91(16), Article e00155-17. https://doi.org/10.1128/JVI.00155-17

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title = "Rapid engineering of foot-and-mouth disease vaccine and challenge viruses",

abstract = "There are seven antigenically distinct serotypes of foot-and-mouth disease virus (FMDV), each of which has intratypic variants. In the present study, we have developed methods to efficiently generate promising vaccines against seven serotypes or subtypes. The capsid-encoding gene (P1) of the vaccine strain O1/ Manisa/Turkey/69 was replaced with the amplified or synthetic genes from the O, A, Asia1, C, SAT1, SAT2, and SAT3 serotypes. Viruses of the seven serotype were rescued successfully. Each chimeric FMDV with a replacement of P1 showed serotypespecific antigenicity and varied in terms of pathogenesis in pigs and mice. Vaccination of pigs with an experimental trivalent vaccine containing the inactivated recombinants based on the main serotypes O, A, and Asia1 effectively protected them from virus challenge. This technology could be a potential strategy for a customized vaccine with challenge tools to protect against epizootic disease caused by specific serotypes or subtypes of FMDV.",

keywords = "Foot-and-mouth disease, Pathogenesis, Serotype, Synthetic vaccine",

author = "Lee, \{Seo Yong\} and Lee, \{Yeo Joo\} and Kim, \{Rae Hyung\} and Park, \{Jeong Nam\} and Park, \{Min Eun\} and Ko, \{Mi Kyeong\} and Choi, \{Joo Hyung\} and Chu, \{Jia Qi\} and Lee, \{Kwang Nyeong\} and Kim, \{Su Mi\} and Dongseob Tark and Lee, \{Hyang Sim\} and Ko, \{Young Joon\} and Seo, \{Min Goo\} and Park, \{Jung Won\} and Byounghan Kim and Lee, \{Myoung Heon\} and Lee, \{Jong Soo\} and Park, \{Jong Hyeon\}",

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doi = "10.1128/JVI.00155-17",

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AU - Lee, Seo Yong

AU - Lee, Yeo Joo

AU - Kim, Rae Hyung

AU - Park, Jeong Nam

AU - Park, Min Eun

AU - Ko, Mi Kyeong

AU - Choi, Joo Hyung

AU - Chu, Jia Qi

AU - Lee, Kwang Nyeong

AU - Kim, Su Mi

AU - Tark, Dongseob

AU - Lee, Hyang Sim

AU - Ko, Young Joon

AU - Seo, Min Goo

AU - Park, Jung Won

AU - Kim, Byounghan

AU - Lee, Myoung Heon

AU - Lee, Jong Soo

AU - Park, Jong Hyeon

PY - 2017/8/1

Y1 - 2017/8/1

N2 - There are seven antigenically distinct serotypes of foot-and-mouth disease virus (FMDV), each of which has intratypic variants. In the present study, we have developed methods to efficiently generate promising vaccines against seven serotypes or subtypes. The capsid-encoding gene (P1) of the vaccine strain O1/ Manisa/Turkey/69 was replaced with the amplified or synthetic genes from the O, A, Asia1, C, SAT1, SAT2, and SAT3 serotypes. Viruses of the seven serotype were rescued successfully. Each chimeric FMDV with a replacement of P1 showed serotypespecific antigenicity and varied in terms of pathogenesis in pigs and mice. Vaccination of pigs with an experimental trivalent vaccine containing the inactivated recombinants based on the main serotypes O, A, and Asia1 effectively protected them from virus challenge. This technology could be a potential strategy for a customized vaccine with challenge tools to protect against epizootic disease caused by specific serotypes or subtypes of FMDV.

AB - There are seven antigenically distinct serotypes of foot-and-mouth disease virus (FMDV), each of which has intratypic variants. In the present study, we have developed methods to efficiently generate promising vaccines against seven serotypes or subtypes. The capsid-encoding gene (P1) of the vaccine strain O1/ Manisa/Turkey/69 was replaced with the amplified or synthetic genes from the O, A, Asia1, C, SAT1, SAT2, and SAT3 serotypes. Viruses of the seven serotype were rescued successfully. Each chimeric FMDV with a replacement of P1 showed serotypespecific antigenicity and varied in terms of pathogenesis in pigs and mice. Vaccination of pigs with an experimental trivalent vaccine containing the inactivated recombinants based on the main serotypes O, A, and Asia1 effectively protected them from virus challenge. This technology could be a potential strategy for a customized vaccine with challenge tools to protect against epizootic disease caused by specific serotypes or subtypes of FMDV.

KW - Foot-and-mouth disease

KW - Pathogenesis

KW - Serotype

KW - Synthetic vaccine

UR - https://www.scopus.com/pages/publications/85026313983

U2 - 10.1128/JVI.00155-17

DO - 10.1128/JVI.00155-17

M3 - Journal article

C2 - 28566375

AN - SCOPUS:85026313983

SN - 0022-538X

VL - 91

JO - Journal of Virology

JF - Journal of Virology

IS - 16

M1 - e00155-17

ER -

Rapid engineering of foot-and-mouth disease vaccine and challenge viruses

Abstract

Keywords

Quacquarelli Symonds(QS) Subject Topics

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