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Merck

Reduced blood-stage malaria growth and immune correlates in humans following RH5 vaccination.

Med (New York, N.Y.) (2021-07-06)
Angela M Minassian, Sarah E Silk, Jordan R Barrett, Carolyn M Nielsen, Kazutoyo Miura, Ababacar Diouf, Carolin Loos, Jonathan K Fallon, Ashlin R Michell, Michael T White, Nick J Edwards, Ian D Poulton, Celia H Mitton, Ruth O Payne, Michael Marks, Hector Maxwell-Scott, Antonio Querol-Rubiera, Karen Bisnauthsing, Rahul Batra, Tatiana Ogrina, Nathan J Brendish, Yrene Themistocleous, Thomas A Rawlinson, Katherine J Ellis, Doris Quinkert, Megan Baker, Raquel Lopez Ramon, Fernando Ramos Lopez, Lea Barfod, Pedro M Folegatti, Daniel Silman, Mehreen Datoo, Iona J Taylor, Jing Jin, David Pulido, Alexander D Douglas, Willem A de Jongh, Robert Smith, Eleanor Berrie, Amy R Noe, Carter L Diggs, Lorraine A Soisson, Rebecca Ashfield, Saul N Faust, Anna L Goodman, Alison M Lawrie, Fay L Nugent, Galit Alter, Carole A Long, Simon J Draper
ABSTRACT

Development of an effective vaccine against the pathogenic blood-stage infection of human malaria has proved challenging, and no candidate vaccine has affected blood-stage parasitemia following controlled human malaria infection (CHMI) with blood-stage Plasmodium falciparum. We undertook a phase I/IIa clinical trial in healthy adults in the United Kingdom of the RH5.1 recombinant protein vaccine, targeting the P. falciparum reticulocyte-binding protein homolog 5 (RH5), formulated in AS01B adjuvant. We assessed safety, immunogenicity, and efficacy against blood-stage CHMI. Trial registered at ClinicalTrials.gov, NCT02927145. The RH5.1/AS01B formulation was administered using a range of RH5.1 protein vaccine doses (2, 10, and 50 μg) and was found to be safe and well tolerated. A regimen using a delayed and fractional third dose, in contrast to three doses given at monthly intervals, led to significantly improved antibody response longevity over ∼2 years of follow-up. Following primary and secondary CHMI of vaccinees with blood-stage P. falciparum, a significant reduction in parasite growth rate was observed, defining a milestone for the blood-stage malaria vaccine field. We show that growth inhibition activity measured in vitro using purified immunoglobulin G (IgG) antibody strongly correlates with in vivo reduction of the parasite growth rate and also identify other antibody feature sets by systems serology, including the plasma anti-RH5 IgA1 response, that are associated with challenge outcome. Our data provide a new framework to guide rational design and delivery of next-generation vaccines to protect against malaria disease. This study was supported by USAID, UK MRC, Wellcome Trust, NIAID, and the NIHR Oxford-BRC.

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