Malaria vaccine candidates displayed on novel virus-like particles are immunogenic and induce transmission-blocking activity
Autoři:
Jo-Anne Chan aff001; David Wetzel aff003; Linda Reiling aff001; Kazutoyo Miura aff005; Damien R. Drew aff001; Paul R. Gilson aff001; David A. Anderson aff001; Jack S. Richards aff001; Carole A. Long aff005; Manfred Suckow aff003; Volker Jenzelewski aff003; Takafumi Tsuboi aff007; Michelle J. Boyle aff008; Michael Piontek aff003; James G. Beeson aff001
Působiště autorů:
Burnet Institute, Life Sciences, Melbourne, VIC, Australia
aff001; Department of Immunology, Central Clinical School, Monash University, VIC, Australia
aff002; ARTES Biotechnology GmbH, Langenfeld, Germany
aff003; Technical University of Dortmund, Laboratory of Plant and Process Design, Dortmund, Germany
aff004; Laboratory of Malaria and Vector Research, National Institute of Allergy and Infectious Disease, National Institutes of Health, Rockville, Maryland, United States of America
aff005; Department of Medicine, University of Melbourne, VIC, Australia
aff006; Proteo-Science Centre, Ehime University, Matsuyama, Ehime, Japan
aff007; Immunology Department, QIMR-Berghofer Medical Research Institute, Herston, QLD, Australia
aff008
Vyšlo v časopise:
PLoS ONE 14(9)
Kategorie:
Research Article
prolekare.web.journal.doi_sk:
https://doi.org/10.1371/journal.pone.0221733
Souhrn
The development of effective malaria vaccines remains a global health priority. Currently, the most advanced vaccine, known as RTS,S, has only shown modest efficacy in clinical trials. Thus, the development of more efficacious vaccines by improving the formulation of RTS,S for increased efficacy or to interrupt malaria transmission are urgently needed. The RTS,S vaccine is based on the presentation of a fragment of the sporozoite antigen on the surface of virus-like particles (VLPs) based on human hepatitis B virus (HBV). In this study, we have developed and evaluated a novel VLP platform based on duck HBV (known as Metavax) for malaria vaccine development. This platform can incorporate large and complex proteins into VLPs and is produced in a Hansenula cell line compatible with cGMP vaccine production. Here, we have established the expression of leading P. falciparum malaria vaccine candidates as VLPs. This includes Pfs230 and Pfs25, which are candidate transmission-blocking vaccine antigens. We demonstrated that the VLPs effectively induce antibodies to malaria vaccine candidates with minimal induction of antibodies to the duck-HBV scaffold antigen. Antibodies to Pfs230 also recognised native protein on the surface of gametocytes, and antibodies to both Pfs230 and Pfs25 demonstrated transmission-reducing activity in standard membrane feeding assays. These results establish the potential utility of this VLP platform for malaria vaccines, which may be suitable for the development of multi-component vaccines that achieve high vaccine efficacy and transmission-blocking immunity.
Klíčová slova:
Biology and life sciences – Cell biology – Biochemistry – Research and analysis methods – Proteins – Cellular types – Animal cells – Medicine and health sciences – Physiology – Infectious diseases – Tropical diseases – Immunology – Immune physiology – Vaccination and immunization – Public and occupational health – Preventive medicine – Immune system proteins – Infectious disease control – Vaccines – Antibodies – Spectrum analysis techniques – Spectrophotometry – Cytophotometry – Flow cytometry – Parasitic diseases – Immunologic techniques – Immunoassays – Enzyme-linked immunoassays – Malaria – Immunologic adjuvants – Recombinant proteins – Germ cells – Gametocytes
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