The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice

The recent SARS‐CoV‐2 pandemic has taught the world a costly lesson about the devastating consequences of viral disease outbreaks but also, the remarkable impact of vaccination in limiting life and economic losses. Vaccination against human Hepatitis B Virus (HBV), a major human pathogen affecting 2...

Descripción completa

Detalles Bibliográficos
Autores principales: Pantazica, Ana‐Maria, van Eerde, André, Dobrica, Mihaela‐Olivia, Caras, Iuliana, Ionescu, Irina, Costache, Adriana, Tucureanu, Catalin, Steen, Hege, Lazar, Catalin, Heldal, Inger, Haugslien, Sissel, Onu, Adrian, Stavaru, Crina, Branza‐Nichita, Norica, Liu Clarke, Jihong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2023
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214758/
https://www.ncbi.nlm.nih.gov/pubmed/36779605
http://dx.doi.org/10.1111/pbi.14028
_version_ 1785047904305545216
author Pantazica, Ana‐Maria
van Eerde, André
Dobrica, Mihaela‐Olivia
Caras, Iuliana
Ionescu, Irina
Costache, Adriana
Tucureanu, Catalin
Steen, Hege
Lazar, Catalin
Heldal, Inger
Haugslien, Sissel
Onu, Adrian
Stavaru, Crina
Branza‐Nichita, Norica
Liu Clarke, Jihong
author_facet Pantazica, Ana‐Maria
van Eerde, André
Dobrica, Mihaela‐Olivia
Caras, Iuliana
Ionescu, Irina
Costache, Adriana
Tucureanu, Catalin
Steen, Hege
Lazar, Catalin
Heldal, Inger
Haugslien, Sissel
Onu, Adrian
Stavaru, Crina
Branza‐Nichita, Norica
Liu Clarke, Jihong
author_sort Pantazica, Ana‐Maria
collection PubMed
description The recent SARS‐CoV‐2 pandemic has taught the world a costly lesson about the devastating consequences of viral disease outbreaks but also, the remarkable impact of vaccination in limiting life and economic losses. Vaccination against human Hepatitis B Virus (HBV), a major human pathogen affecting 290 million people worldwide, remains a key action towards viral hepatitis elimination by 2030. To meet this goal, the development of improved HBV antigens is critical to overcome non‐responsiveness to standard vaccines based on the yeast‐produced, small (S) envelope protein. We have recently shown that combining relevant immunogenic determinants of S and large (L) HBV proteins in chimeric antigens markedly enhances the anti‐HBV immune response. However, the demand for cost‐efficient, high‐quality antigens remains challenging. This issue could be addressed by using plants as versatile and rapidly scalable protein production platforms. Moreover, the recent generation of plants lacking β‐1,2‐xylosyltransferase and α‐1,3‐fucosyltransferase activities (FX‐KO), by CRISPR/Cas9 genome editing, enables production of proteins with “humanized” N‐glycosylation. In this study, we investigated the impact of plant N‐glycosylation on the immunogenic properties of a chimeric HBV S/L vaccine candidate produced in wild‐type and FX‐KO Nicotiana benthamiana. Prevention of β‐1,2‐xylose and α‐1,3‐fucose attachment to the HBV antigen significantly increased the immune response in mice, as compared with the wild‐type plant‐produced counterpart. Notably, the antibodies triggered by the FX‐KO‐made antigen neutralized more efficiently both wild‐type HBV and a clinically relevant vaccine escape mutant. Our study validates in premiere the glyco‐engineered Nicotiana benthamiana as a substantially improved host for plant production of glycoprotein vaccines.
format Online
Article
Text
id pubmed-10214758
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher John Wiley and Sons Inc.
record_format MEDLINE/PubMed
spelling pubmed-102147582023-05-27 The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice Pantazica, Ana‐Maria van Eerde, André Dobrica, Mihaela‐Olivia Caras, Iuliana Ionescu, Irina Costache, Adriana Tucureanu, Catalin Steen, Hege Lazar, Catalin Heldal, Inger Haugslien, Sissel Onu, Adrian Stavaru, Crina Branza‐Nichita, Norica Liu Clarke, Jihong Plant Biotechnol J Research Articles The recent SARS‐CoV‐2 pandemic has taught the world a costly lesson about the devastating consequences of viral disease outbreaks but also, the remarkable impact of vaccination in limiting life and economic losses. Vaccination against human Hepatitis B Virus (HBV), a major human pathogen affecting 290 million people worldwide, remains a key action towards viral hepatitis elimination by 2030. To meet this goal, the development of improved HBV antigens is critical to overcome non‐responsiveness to standard vaccines based on the yeast‐produced, small (S) envelope protein. We have recently shown that combining relevant immunogenic determinants of S and large (L) HBV proteins in chimeric antigens markedly enhances the anti‐HBV immune response. However, the demand for cost‐efficient, high‐quality antigens remains challenging. This issue could be addressed by using plants as versatile and rapidly scalable protein production platforms. Moreover, the recent generation of plants lacking β‐1,2‐xylosyltransferase and α‐1,3‐fucosyltransferase activities (FX‐KO), by CRISPR/Cas9 genome editing, enables production of proteins with “humanized” N‐glycosylation. In this study, we investigated the impact of plant N‐glycosylation on the immunogenic properties of a chimeric HBV S/L vaccine candidate produced in wild‐type and FX‐KO Nicotiana benthamiana. Prevention of β‐1,2‐xylose and α‐1,3‐fucose attachment to the HBV antigen significantly increased the immune response in mice, as compared with the wild‐type plant‐produced counterpart. Notably, the antibodies triggered by the FX‐KO‐made antigen neutralized more efficiently both wild‐type HBV and a clinically relevant vaccine escape mutant. Our study validates in premiere the glyco‐engineered Nicotiana benthamiana as a substantially improved host for plant production of glycoprotein vaccines. John Wiley and Sons Inc. 2023-03-10 2023-06 /pmc/articles/PMC10214758/ /pubmed/36779605 http://dx.doi.org/10.1111/pbi.14028 Text en © 2023 The Authors. Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd. https://creativecommons.org/licenses/by-nc/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle Research Articles
Pantazica, Ana‐Maria
van Eerde, André
Dobrica, Mihaela‐Olivia
Caras, Iuliana
Ionescu, Irina
Costache, Adriana
Tucureanu, Catalin
Steen, Hege
Lazar, Catalin
Heldal, Inger
Haugslien, Sissel
Onu, Adrian
Stavaru, Crina
Branza‐Nichita, Norica
Liu Clarke, Jihong
The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice
title The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice
title_full The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice
title_fullStr The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice
title_full_unstemmed The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice
title_short The “humanized” N‐glycosylation pathway in CRISPR/Cas9‐edited Nicotiana benthamiana significantly enhances the immunogenicity of a S/preS1 Hepatitis B Virus antigen and the virus‐neutralizing antibody response in vaccinated mice
title_sort “humanized” n‐glycosylation pathway in crispr/cas9‐edited nicotiana benthamiana significantly enhances the immunogenicity of a s/pres1 hepatitis b virus antigen and the virus‐neutralizing antibody response in vaccinated mice
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10214758/
https://www.ncbi.nlm.nih.gov/pubmed/36779605
http://dx.doi.org/10.1111/pbi.14028
work_keys_str_mv AT pantazicaanamaria thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT vaneerdeandre thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT dobricamihaelaolivia thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT carasiuliana thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT ionescuirina thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT costacheadriana thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT tucureanucatalin thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT steenhege thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT lazarcatalin thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT heldalinger thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT haugsliensissel thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT onuadrian thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT stavarucrina thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT branzanichitanorica thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT liuclarkejihong thehumanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT pantazicaanamaria humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT vaneerdeandre humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT dobricamihaelaolivia humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT carasiuliana humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT ionescuirina humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT costacheadriana humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT tucureanucatalin humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT steenhege humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT lazarcatalin humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT heldalinger humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT haugsliensissel humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT onuadrian humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT stavarucrina humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT branzanichitanorica humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice
AT liuclarkejihong humanizednglycosylationpathwayincrisprcas9editednicotianabenthamianasignificantlyenhancestheimmunogenicityofaspres1hepatitisbvirusantigenandthevirusneutralizingantibodyresponseinvaccinatedmice

Ejemplares similares