Abstract
Malaria continues to be one of the world’s most devastating infectious tropical diseases, and alternative strategies to prevent infection and disease spread are urgently needed. These strategies include the development of effective vaccines, such as malaria transmission blocking vaccines (TBV) directed against proteins found on the sexual stages of Plasmodium falciparum parasites present in the mosquito midgut. The Pfs25 protein, which is expressed on the surface of gametes, zygotes and ookinetes, has been a primary target for TBV development. One such vaccine strategy based on Pfs25 is a plant-produced malaria vaccine candidate engineered as a chimeric non-enveloped virus-like particle (VLP) comprising Pfs25 fused to the Alfalfa mosaic virus coat protein. This Pfs25 VLP-FhCMB vaccine candidate has been engineered and manufactured in Nicotiana benthamiana plants at pilot plant scale under current Good Manufacturing Practice guidelines. The safety, reactogenicity and immunogenicity of Pfs25 VLP-FhCMB was assessed in healthy adult volunteers. This Phase 1, dose escalation, first-in-human study was designed primarily to evaluate the safety of the purified plant-derived Pfs25 VLP combined with Alhydrogel® adjuvant. At the doses tested in this Phase 1 study, the vaccine was generally shown to be safe in healthy volunteers, with no incidence of vaccine-related serious adverse events and no evidence of any dose-limiting or dose-related toxicity, demonstrating that the plant-derived Pfs25 VLP-FhCMB vaccine had an acceptable safety and tolerability profile. In addition, although the vaccine did induce Pfs25-specific IgG in vaccinated patients in a dose dependent manner, the transmission reducing activity of the antibodies generated were weak, suggesting the need for an alternative vaccine adjuvant formulation.This study was registered at www.ClinicalTrials.gov under reference identifier NCT02013687.
Highlights
Malaria is a mosquito-borne, life-threatening, infectious disease caused by Plasmodium parasites
2 out of the 8 patient samples tested from the 100 mg dose group, had significant %transmission reducing activity (TRA) values near 80%: 81% and 77%, respectively. This first-in-human, Phase 1 clinical study assessed safety and immunogenicity of the Pfs25 Virus-like particles (VLPs)-FhCMB, the plant-produced recombinant Pfs25 transmission blocking vaccine candidate against malaria developed by FhCMB for the prevention of disease caused by P. falciparum
At the doses tested in this Phase 1 study, the vaccine was generally shown to be safe in healthy volunteers, with no incidence of vaccine-related Serious adverse events (AEs) and no evidence of any dose-limiting or dose-related toxicity
Summary
Malaria is a mosquito-borne, life-threatening, infectious disease caused by Plasmodium parasites. Of the five species of malaria parasites that infect humans, Plasmodium falciparum is responsible for the majority of deaths [1]. Effective vaccines for the control and prevention of malaria are urgently needed, as vaccination remains one of the most efficient and cost-effective methods for controlling infectious diseases. There is only one licensed malaria vaccine available for areas where Plasmodium falciparum is prevalent.
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