A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens

More than 100 million people have been infected with severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). Common laboratory mice are not susceptible to wild-type SARS-CoV-2 infection, challenging the development and testing of effective interventions. Here, we describe the development and t...

Descripción completa

Detalles Bibliográficos
Autores principales: Gary, Ebony N., Warner, Bryce M., Parzych, Elizabeth M., Griffin, Bryan D., Zhu, Xizhou, Tailor, Nikesh, Tursi, Nicholas J., Chan, Mable, Purwar, Mansi, Vendramelli, Robert, Choi, Jihae, Frost, Kathy L., Reeder, Sophia, Liaw, Kevin, Tello, Edgar, Ali, Ali R., Yun, Kun, Pei, Yanlong, Thomas, Sylvia P., Rghei, Amira D., Guilleman, Matthew M., Muthumani, Kar, Smith, Trevor, Wootton, Sarah K., Patel, Ami, Weiner, David B., Kobasa, Darwyn
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8186956/
https://www.ncbi.nlm.nih.gov/pubmed/34124612
http://dx.doi.org/10.1016/j.isci.2021.102699
_version_ 1783705048127111168
author Gary, Ebony N.
Warner, Bryce M.
Parzych, Elizabeth M.
Griffin, Bryan D.
Zhu, Xizhou
Tailor, Nikesh
Tursi, Nicholas J.
Chan, Mable
Purwar, Mansi
Vendramelli, Robert
Choi, Jihae
Frost, Kathy L.
Reeder, Sophia
Liaw, Kevin
Tello, Edgar
Ali, Ali R.
Yun, Kun
Pei, Yanlong
Thomas, Sylvia P.
Rghei, Amira D.
Guilleman, Matthew M.
Muthumani, Kar
Smith, Trevor
Wootton, Sarah K.
Patel, Ami
Weiner, David B.
Kobasa, Darwyn
author_facet Gary, Ebony N.
Warner, Bryce M.
Parzych, Elizabeth M.
Griffin, Bryan D.
Zhu, Xizhou
Tailor, Nikesh
Tursi, Nicholas J.
Chan, Mable
Purwar, Mansi
Vendramelli, Robert
Choi, Jihae
Frost, Kathy L.
Reeder, Sophia
Liaw, Kevin
Tello, Edgar
Ali, Ali R.
Yun, Kun
Pei, Yanlong
Thomas, Sylvia P.
Rghei, Amira D.
Guilleman, Matthew M.
Muthumani, Kar
Smith, Trevor
Wootton, Sarah K.
Patel, Ami
Weiner, David B.
Kobasa, Darwyn
author_sort Gary, Ebony N.
collection PubMed
description More than 100 million people have been infected with severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). Common laboratory mice are not susceptible to wild-type SARS-CoV-2 infection, challenging the development and testing of effective interventions. Here, we describe the development and testing of a mouse model for SARS-CoV-2 infection based on transduction of the respiratory tract of laboratory mice with an adeno-associated virus vector (AAV6) expressing human ACE-2 (AAV6.2FF-hACE2). We validated this model using a previously described synthetic DNA vaccine plasmid, INO-4800 (pS). Intranasal instillation of AAV6.2FF-hACE2 resulted in robust hACE2 expression in the respiratory tract. pS induced robust cellular and humoral responses. Vaccinated animals were challenged with 10(5) TCID(50) SARS-CoV-2 (hCoV-19/Canada/ON-VIDO-01/2020) and euthanized four days post-challenge to assess viral load. One immunization resulted in 50% protection and two immunizations were completely protective. Overall, the AAV6.2FF-hACE2 mouse transduction model represents an easily accessible, genetically diverse mouse model for wild-type SARS-CoV-2 infection and preclinical evaluation of potential interventions.
format Online
Article
Text
id pubmed-8186956
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher Elsevier
record_format MEDLINE/PubMed
spelling pubmed-81869562021-06-09 A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens Gary, Ebony N. Warner, Bryce M. Parzych, Elizabeth M. Griffin, Bryan D. Zhu, Xizhou Tailor, Nikesh Tursi, Nicholas J. Chan, Mable Purwar, Mansi Vendramelli, Robert Choi, Jihae Frost, Kathy L. Reeder, Sophia Liaw, Kevin Tello, Edgar Ali, Ali R. Yun, Kun Pei, Yanlong Thomas, Sylvia P. Rghei, Amira D. Guilleman, Matthew M. Muthumani, Kar Smith, Trevor Wootton, Sarah K. Patel, Ami Weiner, David B. Kobasa, Darwyn iScience Article More than 100 million people have been infected with severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). Common laboratory mice are not susceptible to wild-type SARS-CoV-2 infection, challenging the development and testing of effective interventions. Here, we describe the development and testing of a mouse model for SARS-CoV-2 infection based on transduction of the respiratory tract of laboratory mice with an adeno-associated virus vector (AAV6) expressing human ACE-2 (AAV6.2FF-hACE2). We validated this model using a previously described synthetic DNA vaccine plasmid, INO-4800 (pS). Intranasal instillation of AAV6.2FF-hACE2 resulted in robust hACE2 expression in the respiratory tract. pS induced robust cellular and humoral responses. Vaccinated animals were challenged with 10(5) TCID(50) SARS-CoV-2 (hCoV-19/Canada/ON-VIDO-01/2020) and euthanized four days post-challenge to assess viral load. One immunization resulted in 50% protection and two immunizations were completely protective. Overall, the AAV6.2FF-hACE2 mouse transduction model represents an easily accessible, genetically diverse mouse model for wild-type SARS-CoV-2 infection and preclinical evaluation of potential interventions. Elsevier 2021-06-08 /pmc/articles/PMC8186956/ /pubmed/34124612 http://dx.doi.org/10.1016/j.isci.2021.102699 Text en © 2021 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Gary, Ebony N.
Warner, Bryce M.
Parzych, Elizabeth M.
Griffin, Bryan D.
Zhu, Xizhou
Tailor, Nikesh
Tursi, Nicholas J.
Chan, Mable
Purwar, Mansi
Vendramelli, Robert
Choi, Jihae
Frost, Kathy L.
Reeder, Sophia
Liaw, Kevin
Tello, Edgar
Ali, Ali R.
Yun, Kun
Pei, Yanlong
Thomas, Sylvia P.
Rghei, Amira D.
Guilleman, Matthew M.
Muthumani, Kar
Smith, Trevor
Wootton, Sarah K.
Patel, Ami
Weiner, David B.
Kobasa, Darwyn
A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens
title A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens
title_full A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens
title_fullStr A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens
title_full_unstemmed A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens
title_short A novel mouse AAV6 hACE2 transduction model of wild-type SARS-CoV-2 infection studied using synDNA immunogens
title_sort novel mouse aav6 hace2 transduction model of wild-type sars-cov-2 infection studied using syndna immunogens
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8186956/
https://www.ncbi.nlm.nih.gov/pubmed/34124612
http://dx.doi.org/10.1016/j.isci.2021.102699
work_keys_str_mv AT garyebonyn anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT warnerbrycem anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT parzychelizabethm anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT griffinbryand anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT zhuxizhou anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT tailornikesh anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT tursinicholasj anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT chanmable anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT purwarmansi anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT vendramellirobert anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT choijihae anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT frostkathyl anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT reedersophia anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT liawkevin anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT telloedgar anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT alialir anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT yunkun anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT peiyanlong anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT thomassylviap anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT rgheiamirad anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT guillemanmatthewm anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT muthumanikar anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT smithtrevor anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT woottonsarahk anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT patelami anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT weinerdavidb anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT kobasadarwyn anovelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT garyebonyn novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT warnerbrycem novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT parzychelizabethm novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT griffinbryand novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT zhuxizhou novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT tailornikesh novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT tursinicholasj novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT chanmable novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT purwarmansi novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT vendramellirobert novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT choijihae novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT frostkathyl novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT reedersophia novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT liawkevin novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT telloedgar novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT alialir novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT yunkun novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT peiyanlong novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT thomassylviap novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT rgheiamirad novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT guillemanmatthewm novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT muthumanikar novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT smithtrevor novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT woottonsarahk novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT patelami novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT weinerdavidb novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens
AT kobasadarwyn novelmouseaav6hace2transductionmodelofwildtypesarscov2infectionstudiedusingsyndnaimmunogens

Ejemplares similares