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Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes

AIM: To achieve durable and broad protection against human papillomaviruses by vaccination with multimers of minor capsid antigen L2 using self-adjuvanting fusions with the toll-like receptor-5 (TLR5) ligand bacterial flagellin (Fla) instead of co-formulation with alum. METHODS: Fla fusions with L2...

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Autores principales: Kalnin, Kirill, Chivukula, Sudha, Tibbitts, Timothy, Yan, Yanhua, Stegalkina, Svetlana, Shen, Lihua, Cieszynski, Jacqueline, Costa, Victor, Sabharwal, Robert, Anderson, Stephen F., Christensen, Neil, Jagu, Subhashini, Roden, Richard B.S., Kleanthous, Harry
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2017
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6454882/
https://www.ncbi.nlm.nih.gov/pubmed/28778613
http://dx.doi.org/10.1016/j.vaccine.2017.07.086
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author Kalnin, Kirill
Chivukula, Sudha
Tibbitts, Timothy
Yan, Yanhua
Stegalkina, Svetlana
Shen, Lihua
Cieszynski, Jacqueline
Costa, Victor
Sabharwal, Robert
Anderson, Stephen F.
Christensen, Neil
Jagu, Subhashini
Roden, Richard B.S.
Kleanthous, Harry
author_facet Kalnin, Kirill
Chivukula, Sudha
Tibbitts, Timothy
Yan, Yanhua
Stegalkina, Svetlana
Shen, Lihua
Cieszynski, Jacqueline
Costa, Victor
Sabharwal, Robert
Anderson, Stephen F.
Christensen, Neil
Jagu, Subhashini
Roden, Richard B.S.
Kleanthous, Harry
author_sort Kalnin, Kirill
collection PubMed
description AIM: To achieve durable and broad protection against human papillomaviruses by vaccination with multimers of minor capsid antigen L2 using self-adjuvanting fusions with the toll-like receptor-5 (TLR5) ligand bacterial flagellin (Fla) instead of co-formulation with alum. METHODS: Fla fusions with L2 protective epitopes comprising residues 11–200, 11–88 and/or 17–38 of a single or multiple HPV types were produced in E. coli and their capacity to activate TLR5 signaling was assessed. Immunogenicity was evaluated serially following administration of 3 intramuscular doses of Fla-L2 multimer without exogenous adjuvant, followed by challenge 1, 3, 6 or 12 months later, and efficacy compared to vaccination with human doses of L1 VLP vaccines (Gardasil and Cervarix) or L2 multimer formulated in alum. Serum antibody responses were assessed by peptide ELISA, in vitro neutralization assays and passive transfer to naïve rabbits in which End-Point Protection Titers (EPPT) were determined using serial dilutions of pooled immune sera collected 1, 3, 6 or 12 months after completing active immunization. Efficacy was assessed by determining wart volume following concurrent challenge at different sites with HPV6/16/18/31/45/58 ‘quasivirions’ containing cottontail rabbit papillomavirus (CRPV) genomes. RESULTS: Vaccination in the absence of exogenous adjuvant with Fla-HPV16 L2 11–200 fusion protein elicited durable protection against HPV16, but limited cross-protection against other HPV types. Peptide mapping data suggested the importance of the 17–38 aa region in conferring immunity. Indeed, addition of L2 residues 17–38 of HPV6/18/31/39/52 to a Fla-HPV16 L2 11–200 or 11–88 elicited broader protection via active or passive immunization, similar to that seen with vaccination with an alum-adjuvanted L2 multimer comprising the aa 11–88 peptides of five or eight genital HPV types. CONCLUSIONS: Vaccination with flagellin fused L2 multimers provided lasting (>1 year) immunity without the need for an exogenous adjuvant. Inclusion of the L2 amino acid 17–38 region in such multi-HPV type fusions expanded the spectrum of protection.
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spelling pubmed-64548822019-04-09 Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes Kalnin, Kirill Chivukula, Sudha Tibbitts, Timothy Yan, Yanhua Stegalkina, Svetlana Shen, Lihua Cieszynski, Jacqueline Costa, Victor Sabharwal, Robert Anderson, Stephen F. Christensen, Neil Jagu, Subhashini Roden, Richard B.S. Kleanthous, Harry Vaccine Article AIM: To achieve durable and broad protection against human papillomaviruses by vaccination with multimers of minor capsid antigen L2 using self-adjuvanting fusions with the toll-like receptor-5 (TLR5) ligand bacterial flagellin (Fla) instead of co-formulation with alum. METHODS: Fla fusions with L2 protective epitopes comprising residues 11–200, 11–88 and/or 17–38 of a single or multiple HPV types were produced in E. coli and their capacity to activate TLR5 signaling was assessed. Immunogenicity was evaluated serially following administration of 3 intramuscular doses of Fla-L2 multimer without exogenous adjuvant, followed by challenge 1, 3, 6 or 12 months later, and efficacy compared to vaccination with human doses of L1 VLP vaccines (Gardasil and Cervarix) or L2 multimer formulated in alum. Serum antibody responses were assessed by peptide ELISA, in vitro neutralization assays and passive transfer to naïve rabbits in which End-Point Protection Titers (EPPT) were determined using serial dilutions of pooled immune sera collected 1, 3, 6 or 12 months after completing active immunization. Efficacy was assessed by determining wart volume following concurrent challenge at different sites with HPV6/16/18/31/45/58 ‘quasivirions’ containing cottontail rabbit papillomavirus (CRPV) genomes. RESULTS: Vaccination in the absence of exogenous adjuvant with Fla-HPV16 L2 11–200 fusion protein elicited durable protection against HPV16, but limited cross-protection against other HPV types. Peptide mapping data suggested the importance of the 17–38 aa region in conferring immunity. Indeed, addition of L2 residues 17–38 of HPV6/18/31/39/52 to a Fla-HPV16 L2 11–200 or 11–88 elicited broader protection via active or passive immunization, similar to that seen with vaccination with an alum-adjuvanted L2 multimer comprising the aa 11–88 peptides of five or eight genital HPV types. CONCLUSIONS: Vaccination with flagellin fused L2 multimers provided lasting (>1 year) immunity without the need for an exogenous adjuvant. Inclusion of the L2 amino acid 17–38 region in such multi-HPV type fusions expanded the spectrum of protection. 2017-08-01 2017-09-05 /pmc/articles/PMC6454882/ /pubmed/28778613 http://dx.doi.org/10.1016/j.vaccine.2017.07.086 Text en This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Kalnin, Kirill
Chivukula, Sudha
Tibbitts, Timothy
Yan, Yanhua
Stegalkina, Svetlana
Shen, Lihua
Cieszynski, Jacqueline
Costa, Victor
Sabharwal, Robert
Anderson, Stephen F.
Christensen, Neil
Jagu, Subhashini
Roden, Richard B.S.
Kleanthous, Harry
Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes
title Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes
title_full Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes
title_fullStr Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes
title_full_unstemmed Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes
title_short Incorporation of RG1 epitope concatemers into a self-adjuvanting Flagellin-L2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes
title_sort incorporation of rg1 epitope concatemers into a self-adjuvanting flagellin-l2 vaccine broaden durable protection against cutaneous challenge with diverse human papillomavirus genotypes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6454882/
https://www.ncbi.nlm.nih.gov/pubmed/28778613
http://dx.doi.org/10.1016/j.vaccine.2017.07.086
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