Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Standard

Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses. / Janitzek, Christoph M; Matondo, Sungwa; Thrane, Susan; Nielsen, Morten A; Kavishe, Reginald; Mwakalinga, Steve B; Theander, Thor G; Salanti, Ali; Pedersen, Adam Frederik Sander.

I: Malaria Journal, Bind 15, 545, 08.11.2016.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Janitzek, CM, Matondo, S, Thrane, S, Nielsen, MA, Kavishe, R, Mwakalinga, SB, Theander, TG, Salanti, A & Pedersen, AFS 2016, 'Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses', Malaria Journal, bind 15, 545. https://doi.org/10.1186/s12936-016-1574-1

APA

Janitzek, C. M., Matondo, S., Thrane, S., Nielsen, M. A., Kavishe, R., Mwakalinga, S. B., Theander, T. G., Salanti, A., & Pedersen, A. F. S. (2016). Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses. Malaria Journal, 15, [545]. https://doi.org/10.1186/s12936-016-1574-1

Vancouver

Janitzek CM, Matondo S, Thrane S, Nielsen MA, Kavishe R, Mwakalinga SB o.a. Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses. Malaria Journal. 2016 nov. 8;15. 545. https://doi.org/10.1186/s12936-016-1574-1

Author

Janitzek, Christoph M ; Matondo, Sungwa ; Thrane, Susan ; Nielsen, Morten A ; Kavishe, Reginald ; Mwakalinga, Steve B ; Theander, Thor G ; Salanti, Ali ; Pedersen, Adam Frederik Sander. / Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses. I: Malaria Journal. 2016 ; Bind 15.

Bibtex

@article{eb5250b88b1a4d68b25052b232148d02,
title = "Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses",
abstract = "BACKGROUND: Malaria, caused by Plasmodium falciparum, continues to have a devastating impact on global health, emphasizing the great need for a malaria vaccine. The circumsporozoite protein (CSP) is an attractive target for a malaria vaccine, and forms a major component of RTS,S, the most clinically advanced malaria vaccine. The clinical efficacy of RTS,S has been moderate, yet has demonstrated the viability of a CSP-based malaria vaccine. In this study, a vaccine comprised of the full-length CSP antigen presented on a virus-like particle (VLP) is produced using a split-intein conjugation system (SpyTag/SpyCatcher) and the immunogenicity is tested in mice.METHODS: Full-length 3d7 CSP protein was genetically fused at the C-terminus to SpyCatcher. The CSP-SpyCatcher antigen was then covalently attached (via the SpyTag/SpyCatcher interaction) to Acinetobacter phage AP205 VLPs which were modified to display one SpyTag per VLP subunit. To evaluate the VLP-display effect, the immunogenicity of the VLP vaccine was tested in mice and compared to a control vaccine containing AP205 VLPs plus unconjugated CSP.RESULTS: Full-length CSP was conjugated at high density (an average of 112 CSP molecules per VLP) to AP205 SpyTag-VLPs. Vaccination of mice with the CSP Spy-VLP vaccine resulted in significantly increased antibody titres over a course of 7 months as compared to the control group (2.6-fold higher at 7 months after immunization). Furthermore, the CSP Spy-VLP vaccine appears to stimulate production of IgG2a antibodies, which has been linked with a more efficient clearing of intracellular parasite infection.CONCLUSION: This study demonstrates that the high-density display of CSP on SpyTag-VLPs, significantly increases the level and quality of the vaccine-induced humoral response, compared to a control vaccine consisting of soluble CSP plus AP205 VLPs. The SpyTag-VLP platform utilized in this study constitutes a versatile and rapid method to develop highly immunogenic vaccines. It might serve as a generic tool for the cost-effective development of effective VLP-vaccines, e.g., against malaria.",
author = "Janitzek, {Christoph M} and Sungwa Matondo and Susan Thrane and Nielsen, {Morten A} and Reginald Kavishe and Mwakalinga, {Steve B} and Theander, {Thor G} and Ali Salanti and Pedersen, {Adam Frederik Sander}",
year = "2016",
month = nov,
day = "8",
doi = "10.1186/s12936-016-1574-1",
language = "English",
volume = "15",
journal = "Malaria Journal",
issn = "1475-2875",
publisher = "BioMed Central",

}

RIS

TY - JOUR

T1 - Bacterial superglue generates a full-length circumsporozoite protein virus-like particle vaccine capable of inducing high and durable antibody responses

AU - Janitzek, Christoph M

AU - Matondo, Sungwa

AU - Thrane, Susan

AU - Nielsen, Morten A

AU - Kavishe, Reginald

AU - Mwakalinga, Steve B

AU - Theander, Thor G

AU - Salanti, Ali

AU - Pedersen, Adam Frederik Sander

PY - 2016/11/8

Y1 - 2016/11/8

N2 - BACKGROUND: Malaria, caused by Plasmodium falciparum, continues to have a devastating impact on global health, emphasizing the great need for a malaria vaccine. The circumsporozoite protein (CSP) is an attractive target for a malaria vaccine, and forms a major component of RTS,S, the most clinically advanced malaria vaccine. The clinical efficacy of RTS,S has been moderate, yet has demonstrated the viability of a CSP-based malaria vaccine. In this study, a vaccine comprised of the full-length CSP antigen presented on a virus-like particle (VLP) is produced using a split-intein conjugation system (SpyTag/SpyCatcher) and the immunogenicity is tested in mice.METHODS: Full-length 3d7 CSP protein was genetically fused at the C-terminus to SpyCatcher. The CSP-SpyCatcher antigen was then covalently attached (via the SpyTag/SpyCatcher interaction) to Acinetobacter phage AP205 VLPs which were modified to display one SpyTag per VLP subunit. To evaluate the VLP-display effect, the immunogenicity of the VLP vaccine was tested in mice and compared to a control vaccine containing AP205 VLPs plus unconjugated CSP.RESULTS: Full-length CSP was conjugated at high density (an average of 112 CSP molecules per VLP) to AP205 SpyTag-VLPs. Vaccination of mice with the CSP Spy-VLP vaccine resulted in significantly increased antibody titres over a course of 7 months as compared to the control group (2.6-fold higher at 7 months after immunization). Furthermore, the CSP Spy-VLP vaccine appears to stimulate production of IgG2a antibodies, which has been linked with a more efficient clearing of intracellular parasite infection.CONCLUSION: This study demonstrates that the high-density display of CSP on SpyTag-VLPs, significantly increases the level and quality of the vaccine-induced humoral response, compared to a control vaccine consisting of soluble CSP plus AP205 VLPs. The SpyTag-VLP platform utilized in this study constitutes a versatile and rapid method to develop highly immunogenic vaccines. It might serve as a generic tool for the cost-effective development of effective VLP-vaccines, e.g., against malaria.

AB - BACKGROUND: Malaria, caused by Plasmodium falciparum, continues to have a devastating impact on global health, emphasizing the great need for a malaria vaccine. The circumsporozoite protein (CSP) is an attractive target for a malaria vaccine, and forms a major component of RTS,S, the most clinically advanced malaria vaccine. The clinical efficacy of RTS,S has been moderate, yet has demonstrated the viability of a CSP-based malaria vaccine. In this study, a vaccine comprised of the full-length CSP antigen presented on a virus-like particle (VLP) is produced using a split-intein conjugation system (SpyTag/SpyCatcher) and the immunogenicity is tested in mice.METHODS: Full-length 3d7 CSP protein was genetically fused at the C-terminus to SpyCatcher. The CSP-SpyCatcher antigen was then covalently attached (via the SpyTag/SpyCatcher interaction) to Acinetobacter phage AP205 VLPs which were modified to display one SpyTag per VLP subunit. To evaluate the VLP-display effect, the immunogenicity of the VLP vaccine was tested in mice and compared to a control vaccine containing AP205 VLPs plus unconjugated CSP.RESULTS: Full-length CSP was conjugated at high density (an average of 112 CSP molecules per VLP) to AP205 SpyTag-VLPs. Vaccination of mice with the CSP Spy-VLP vaccine resulted in significantly increased antibody titres over a course of 7 months as compared to the control group (2.6-fold higher at 7 months after immunization). Furthermore, the CSP Spy-VLP vaccine appears to stimulate production of IgG2a antibodies, which has been linked with a more efficient clearing of intracellular parasite infection.CONCLUSION: This study demonstrates that the high-density display of CSP on SpyTag-VLPs, significantly increases the level and quality of the vaccine-induced humoral response, compared to a control vaccine consisting of soluble CSP plus AP205 VLPs. The SpyTag-VLP platform utilized in this study constitutes a versatile and rapid method to develop highly immunogenic vaccines. It might serve as a generic tool for the cost-effective development of effective VLP-vaccines, e.g., against malaria.

U2 - 10.1186/s12936-016-1574-1

DO - 10.1186/s12936-016-1574-1

M3 - Journal article

C2 - 27825348

VL - 15

JO - Malaria Journal

JF - Malaria Journal

SN - 1475-2875

M1 - 545

ER -

ID: 168653822