Immunogenicity of vaccines for malaria-exposed populations

Bowyer, GSA

Abstract:: An efficacious malaria vaccine will be a necessary tool for malaria eradication, however current vaccine candidates have only demonstrated a moderate level of short-term efficacy. Additionally, these vaccines often display reduced immunogenicity and efficacy in the malaria-exposed target populations compared with the malaria-naïve populations in which they are initially tested. Reduced vaccine immunogenicity in malaria-exposed populations may affect vaccines for diseases other than malaria. The 2014-2016 Ebola outbreak in West Africa highlighted the need to produce effective vaccines against emerging infectious diseases. Many of the outbreak pathogens for which such vaccines are being developed have geographical distributions that overlap with areas of malaria transmission. Therefore being able to effectively vaccinate malaria-exposed individuals is a key requirement for this new generation of vaccines. This thesis aims to characterise the immunogenicity of candidate malaria and Ebola vaccines in detail and explores potential mechanisms of reduced immunogenicity in malaria-exposed populations. Experiments demonstrated that concomitant administration of viral vectored and VLP-based malaria vaccines caused a Th1-skewed cytokine response that was associated with reduced antibody titres and efficacy, similar to the immunosuppressive effect of acute malaria infection. Humoral, but not cellular, responses to malaria and Ebola vaccines were reduced in malaria-exposed adults and children but not in infants. Although this reduction was associated with malaria exposure in some cases, it was clear that other factors were involved. Further experiments revealed a role for cytomegalovirus infection in the reduction of vaccine immunogenicity in both malaria-naïve and malaria-exposed young adults. Overall this thesis highlights the importance of understanding what impacts immunogenicity in order to optimise vaccines for the target populations.

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APA Style

Bowyer, G. S. A. (2018). Immunogenicity of vaccines for malaria-exposed populations [PhD thesis]. University of Oxford.

MLA Style

Bowyer, G. SA. Immunogenicity of Vaccines for Malaria-Exposed Populations. University of Oxford, 2018.

Chicago Style

Bowyer, GSA. 2018. “Immunogenicity of Vaccines for Malaria-Exposed Populations.” PhD thesis, University of Oxford.
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Files:: Bowyer_2018_Immunogenicity_of_vaccines.pdf

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Authors

+ Bowyer, GSA More by this author

Institution:: University of Oxford
Division:: MSD
Department:: NDM
Sub department:: Jenner Institute
Role:: Author

Contributors

+ Hill, A

Institution:: University of Oxford
Division:: MSD
Department:: NDM
Sub department:: Jenner Institute
Role:: Supervisor

+ Ewer, K

Institution:: University of Oxford
Division:: MSD
Department:: NDM
Sub department:: Jenner Institute
Role:: Supervisor

Type of award:: DPhil
Level of award:: Doctoral
Awarding institution:: University of Oxford

Language:: English
Keywords:: Ebola

flow cytometry

T follicular helper cells

malaria

controlled human malaria infection

antibody responses

clinical vaccine trials

vaccine immunogenicity
Subjects:: Ebola

Immunology

Vaccines

Malaria
UUID:: uuid:91ee68f3-2a16-4241-8cfe-1654bcdb2b1b
Deposit date:: 2019-06-18

Related item:: Activation-induced Markers Detect Vaccine-Specific CD4+ T Cell Responses Not Measured by Assays Conventionally Used in Clinical Trials
Description:: Immunogenicity of T cell-inducing vaccines, such as viral vectors or DNA vaccines and Bacillus Calmette-Guérin (BCG), are frequently assessed by cytokine-based approaches. While these are sensitive methods that have shown correlates of protection in various vaccine studies, they only identify a small proportion of the vaccine-specific T cell response. Responses to vaccination are likely to be heterogeneous, particularly when comparing prime and boost or assessing vaccine performance across diverse populations. Activation-induced markers (AIM) can provide a broader view of the total antigen-specific T cell response to enable a more comprehensive evaluation of vaccine immunogenicity. We tested an AIM assay for the detection of vaccine-specific CD4+ and CD8+ T cell responses in healthy UK adults vaccinated with viral vectored Ebola vaccine candidates, ChAd3-EBO-Z and MVA-EBO-Z. We used the markers, CD25, CD134 (OX40), CD274 (PDL1), and CD107a, to sensitively identify vaccine-responsive T cells. We compared the use of OX40+CD25+ and OX40+PDL1+ in CD4+ T cells and OX40+CD25+ and CD25+CD107a+ in CD8+ T cells for their sensitivity, specificity, and associations with other measures of vaccine immunogenicity. We show that activation-induced markers can be used as an additional method of demonstrating vaccine immunogenicity, providing a broader picture of the global T cell response to vaccination.
Related item:: CXCR3+ T Follicular Helper Cells Induced by Co-Administration of RTS,S/AS01B and Viral-Vectored Vaccines Are Associated With Reduced Immunogenicity and Efficacy Against Malaria
Description:: A malaria vaccine strategy targeting multiple lifecycle stages may be required to achieve a high level of efficacy. In two Phase IIa clinical trials, we tested immunogenicity and efficacy of RTS,S/AS01B administered alone, in a staggered regimen with viral-vectored vaccines or co-administered with viral-vectored vaccines. RTS,S/AS01B induces high titers of antibody against sporozoites and viral-vectored vaccines ChAd63 ME-TRAP and MVA ME-TRAP induce potent T cell responses against infected hepatocytes. By combining these two strategies, we aimed to improve efficacy by inducing immune responses targeting multiple parasite antigens. Vaccination with RTS,S/AS01B alone or in a staggered regimen with viral vectors produced strong immune responses and demonstrated high levels of protection against controlled human malaria infection. However, concomitant administration of these vaccines significantly reduced humoral immunogenicity and protective efficacy. Strong Th1-biased cytokine responses induced by MVA ME-TRAP were associated with a skew in circulating T follicular helper cells toward a CXCR3+ phenotype and a reduction in antibody quantity and quality. This study illustrates that while a multistage-targeting vaccine strategy could provide high-level efficacy, the regimen design will require careful optimization.

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Copyright holder:: Georgie Bowyer

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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Thesis

Immunogenicity of vaccines for malaria-exposed populations

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Immunogenicity of vaccines for malaria-exposed populations

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