Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen

Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen

Protein nativity is one of the most critical factors for the quality of antigens used as immunogens and the reactivities of the resultant antibodies. The preparation and purification of native viral antigens in conventional cell-based protein expression systems are often accompanied by technical har...

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Main Authors: Yutaro eYamaoka, Shutoku eMatsuyama, Shuetsu eFukushi, Satoko eMatsunaga, Yuki eMatsushima, Hiroyuki eKuroyama, Hirokazu eKimura, Makoto eTakeda, Tomoyuki eChimuro, Akihide eRyo
Format: Article
Language:English
Published: Frontiers Media S.A. 2016-04-01
Series:Frontiers in Microbiology
Subjects:
Nucleocapsid
Monoclonal antibody
diagnosis
detection
antigen
cell-free protein synthesis
Online Access:http://journal.frontiersin.org/Journal/10.3389/fmicb.2016.00509/full
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spelling doaj-adbb7e23d37e4fc7911b938ac9e722652020-11-25T00:09:43ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2016-04-01710.3389/fmicb.2016.00509190497Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigenYutaro eYamaoka0Yutaro eYamaoka1Shutoku eMatsuyama2Shuetsu eFukushi3Satoko eMatsunaga4Yuki eMatsushima5Yuki eMatsushima6Hiroyuki eKuroyama7Hirokazu eKimura8Makoto eTakeda9Tomoyuki eChimuro10Akihide eRyo11Yokohama City UniversityKanto Chemical Co., Inc.National Institute of Infectious DiseasesNational Institute of Infectious DiseasesYokohama City UniversityYokohama City UniversityKawasaki City Institute for Public HealthKanto Chemical Co., Inc.National Institute of Infectious DiseasesNational Institute of Infectious DiseasesKanto Chemical Co., Inc.Yokohama City UniversityProtein nativity is one of the most critical factors for the quality of antigens used as immunogens and the reactivities of the resultant antibodies. The preparation and purification of native viral antigens in conventional cell-based protein expression systems are often accompanied by technical hardships. These challenges are attributable mainly to protein aggregation and insolubility during expression and purification, as well as to very low expression levels associated with the toxicity of some viral proteins. Here, we describe a novel approach for the production of monoclonal antibodies (mAbs) against nucleocapsid protein (NP) of the Middle East respiratory syndrome coronavirus (MERS-CoV). Using a wheat germ cell-free protein synthesis system, we successfully prepared large amounts of MERS-CoV NP antigen in a state that was highly soluble and intact for immunization. Following mouse immunization and hybridoma generation, we selected seven hybridoma clones that produced mAbs with exclusive reactivity against MERS-CoV NP. Epitope mapping and subsequent bioinformatic analysis revealed that these mAbs recognized epitopes located within relatively highly conserved regions of the MERS-CoV amino-acid sequence. Consistently, the mAbs exhibited no obvious cross-reactivity with NPs derived from other related viruses, including SARS coronavirus. After determining the optimal combinations of these mAbs, we developed an enzyme-linked immunosorbent assay and a rapid immunochromatographic antigen detection test that can be reliably used for laboratory diagnosis of MERS-CoV. Thus, this study provides strong evidence that the wheat germ cell-free system is useful for the production of diagnostic mAbs against emerging pathogens.http://journal.frontiersin.org/Journal/10.3389/fmicb.2016.00509/fullNucleocapsidMonoclonal antibodydiagnosisdetectionantigencell-free protein synthesis
collection DOAJ
language English
format Article
sources DOAJ
author Yutaro eYamaoka
Yutaro eYamaoka
Shutoku eMatsuyama
Shuetsu eFukushi
Satoko eMatsunaga
Yuki eMatsushima
Yuki eMatsushima
Hiroyuki eKuroyama
Hirokazu eKimura
Makoto eTakeda
Tomoyuki eChimuro
Akihide eRyo
spellingShingle Yutaro eYamaoka
Yutaro eYamaoka
Shutoku eMatsuyama
Shuetsu eFukushi
Satoko eMatsunaga
Yuki eMatsushima
Yuki eMatsushima
Hiroyuki eKuroyama
Hirokazu eKimura
Makoto eTakeda
Tomoyuki eChimuro
Akihide eRyo
Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen
Frontiers in Microbiology
Nucleocapsid
Monoclonal antibody
diagnosis
detection
antigen
cell-free protein synthesis
author_facet Yutaro eYamaoka
Yutaro eYamaoka
Shutoku eMatsuyama
Shuetsu eFukushi
Satoko eMatsunaga
Yuki eMatsushima
Yuki eMatsushima
Hiroyuki eKuroyama
Hirokazu eKimura
Makoto eTakeda
Tomoyuki eChimuro
Akihide eRyo
author_sort Yutaro eYamaoka
title Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen
title_short Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen
title_full Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen
title_fullStr Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen
title_full_unstemmed Development of monoclonal antibody and diagnostic test for Middle East respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen
title_sort development of monoclonal antibody and diagnostic test for middle east respiratory syndrome coronavirus using cell-free synthesized nucleocapsid antigen
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2016-04-01
description Protein nativity is one of the most critical factors for the quality of antigens used as immunogens and the reactivities of the resultant antibodies. The preparation and purification of native viral antigens in conventional cell-based protein expression systems are often accompanied by technical hardships. These challenges are attributable mainly to protein aggregation and insolubility during expression and purification, as well as to very low expression levels associated with the toxicity of some viral proteins. Here, we describe a novel approach for the production of monoclonal antibodies (mAbs) against nucleocapsid protein (NP) of the Middle East respiratory syndrome coronavirus (MERS-CoV). Using a wheat germ cell-free protein synthesis system, we successfully prepared large amounts of MERS-CoV NP antigen in a state that was highly soluble and intact for immunization. Following mouse immunization and hybridoma generation, we selected seven hybridoma clones that produced mAbs with exclusive reactivity against MERS-CoV NP. Epitope mapping and subsequent bioinformatic analysis revealed that these mAbs recognized epitopes located within relatively highly conserved regions of the MERS-CoV amino-acid sequence. Consistently, the mAbs exhibited no obvious cross-reactivity with NPs derived from other related viruses, including SARS coronavirus. After determining the optimal combinations of these mAbs, we developed an enzyme-linked immunosorbent assay and a rapid immunochromatographic antigen detection test that can be reliably used for laboratory diagnosis of MERS-CoV. Thus, this study provides strong evidence that the wheat germ cell-free system is useful for the production of diagnostic mAbs against emerging pathogens.
topic Nucleocapsid
Monoclonal antibody
diagnosis
detection
antigen
cell-free protein synthesis
url http://journal.frontiersin.org/Journal/10.3389/fmicb.2016.00509/full
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