A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults

BACKGROUND: Many malaria vaccines are currently in development, although very few have been evaluated for efficacy in the field. Plasmodium falciparum multiple epitope (ME)– thrombospondin-related adhesion protein (TRAP) candidate vaccines are designed to potently induce effector T cells and so are...

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Autores principales: Moorthy, Vasee S, Imoukhuede, Egeruan B, Milligan, Paul, Bojang, Kalifa, Keating, Sheila, Kaye, Pauline, Pinder, Margaret, Gilbert, Sarah C, Walraven, Gijs, Greenwood, Brian M, Hill, Adrian S. V
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2004
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC524376/
https://www.ncbi.nlm.nih.gov/pubmed/15526058
http://dx.doi.org/10.1371/journal.pmed.0010033
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author Moorthy, Vasee S
Imoukhuede, Egeruan B
Milligan, Paul
Bojang, Kalifa
Keating, Sheila
Kaye, Pauline
Pinder, Margaret
Gilbert, Sarah C
Walraven, Gijs
Greenwood, Brian M
Hill, Adrian S. V
author_facet Moorthy, Vasee S
Imoukhuede, Egeruan B
Milligan, Paul
Bojang, Kalifa
Keating, Sheila
Kaye, Pauline
Pinder, Margaret
Gilbert, Sarah C
Walraven, Gijs
Greenwood, Brian M
Hill, Adrian S. V
author_sort Moorthy, Vasee S
collection PubMed
description BACKGROUND: Many malaria vaccines are currently in development, although very few have been evaluated for efficacy in the field. Plasmodium falciparum multiple epitope (ME)– thrombospondin-related adhesion protein (TRAP) candidate vaccines are designed to potently induce effector T cells and so are a departure from earlier malaria vaccines evaluated in the field in terms of their mechanism of action. ME-TRAP vaccines encode a polyepitope string and the TRAP sporozoite antigen. Two vaccine vectors encoding ME-TRAP, plasmid DNA and modified vaccinia virus Ankara (MVA), when used sequentially in a prime-boost immunisation regime, induce high frequencies of effector T cells and partial protection, manifest as delay in time to parasitaemia, in a clinical challenge model. METHODS AND FINDINGS: A total of 372 Gambian men aged 15–45 y were randomised to receive either DNA ME-TRAP followed by MVA ME-TRAP or rabies vaccine (control). Of these men, 296 received three doses of vaccine timed to coincide with the beginning of the transmission season (141 in the DNA/MVA group and 155 in the rabies group) and were followed up. Volunteers were given sulphadoxine/pyrimethamine 2 wk before the final vaccination. Blood smears were collected weekly for 11 wk and whenever a volunteer developed symptoms compatible with malaria during the transmission season. The primary endpoint was time to first infection with asexual P. falciparum. Analysis was per protocol. DNA ME-TRAP and MVA ME-TRAP were safe and well-tolerated. Effector T cell responses to a non-vaccine strain of TRAP were 50-fold higher postvaccination in the malaria vaccine group than in the rabies vaccine group. Vaccine efficacy, adjusted for confounding factors, was 10.3% (95% confidence interval, −22% to +34%; p = 0.49). Incidence of malaria infection decreased with increasing age and was associated with ethnicity. CONCLUSIONS: DNA/MVA heterologous prime-boost vaccination is safe and highly immunogenic for effector T cell induction in a malaria-endemic area. But despite having produced a substantial reduction in liver-stage parasites in challenge studies of non-immune volunteers, this first generation T cell–inducing vaccine was ineffective at reducing the natural infection rate in semi-immune African adults.
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spelling pubmed-5243762004-11-02 A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults Moorthy, Vasee S Imoukhuede, Egeruan B Milligan, Paul Bojang, Kalifa Keating, Sheila Kaye, Pauline Pinder, Margaret Gilbert, Sarah C Walraven, Gijs Greenwood, Brian M Hill, Adrian S. V PLoS Med Research Article BACKGROUND: Many malaria vaccines are currently in development, although very few have been evaluated for efficacy in the field. Plasmodium falciparum multiple epitope (ME)– thrombospondin-related adhesion protein (TRAP) candidate vaccines are designed to potently induce effector T cells and so are a departure from earlier malaria vaccines evaluated in the field in terms of their mechanism of action. ME-TRAP vaccines encode a polyepitope string and the TRAP sporozoite antigen. Two vaccine vectors encoding ME-TRAP, plasmid DNA and modified vaccinia virus Ankara (MVA), when used sequentially in a prime-boost immunisation regime, induce high frequencies of effector T cells and partial protection, manifest as delay in time to parasitaemia, in a clinical challenge model. METHODS AND FINDINGS: A total of 372 Gambian men aged 15–45 y were randomised to receive either DNA ME-TRAP followed by MVA ME-TRAP or rabies vaccine (control). Of these men, 296 received three doses of vaccine timed to coincide with the beginning of the transmission season (141 in the DNA/MVA group and 155 in the rabies group) and were followed up. Volunteers were given sulphadoxine/pyrimethamine 2 wk before the final vaccination. Blood smears were collected weekly for 11 wk and whenever a volunteer developed symptoms compatible with malaria during the transmission season. The primary endpoint was time to first infection with asexual P. falciparum. Analysis was per protocol. DNA ME-TRAP and MVA ME-TRAP were safe and well-tolerated. Effector T cell responses to a non-vaccine strain of TRAP were 50-fold higher postvaccination in the malaria vaccine group than in the rabies vaccine group. Vaccine efficacy, adjusted for confounding factors, was 10.3% (95% confidence interval, −22% to +34%; p = 0.49). Incidence of malaria infection decreased with increasing age and was associated with ethnicity. CONCLUSIONS: DNA/MVA heterologous prime-boost vaccination is safe and highly immunogenic for effector T cell induction in a malaria-endemic area. But despite having produced a substantial reduction in liver-stage parasites in challenge studies of non-immune volunteers, this first generation T cell–inducing vaccine was ineffective at reducing the natural infection rate in semi-immune African adults. Public Library of Science 2004-11 2004-10-26 /pmc/articles/PMC524376/ /pubmed/15526058 http://dx.doi.org/10.1371/journal.pmed.0010033 Text en Copyright: © 2004 Moorthy et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Moorthy, Vasee S
Imoukhuede, Egeruan B
Milligan, Paul
Bojang, Kalifa
Keating, Sheila
Kaye, Pauline
Pinder, Margaret
Gilbert, Sarah C
Walraven, Gijs
Greenwood, Brian M
Hill, Adrian S. V
A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults
title A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults
title_full A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults
title_fullStr A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults
title_full_unstemmed A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults
title_short A Randomised, Double-Blind, Controlled Vaccine Efficacy Trial of DNA/MVA ME-TRAP Against Malaria Infection in Gambian Adults
title_sort randomised, double-blind, controlled vaccine efficacy trial of dna/mva me-trap against malaria infection in gambian adults
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC524376/
https://www.ncbi.nlm.nih.gov/pubmed/15526058
http://dx.doi.org/10.1371/journal.pmed.0010033
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