Incorporation of T and B epitopes of the circumsporozoite protein in a chemically defined synthetic vaccine against malaria.
Open Access
- 1 January 1990
- journal article
- research article
- Published by Rockefeller University Press in The Journal of Experimental Medicine
- Vol. 171 (1), 299-306
- https://doi.org/10.1084/jem.171.1.299
Abstract
We show here an effective and novel approach to engineer peptide-based vaccines using a chemically defined system, known as multiple peptide antigen systems (MAPs), to protect an inbred mouse strain from infection against rodent malaria. 10 mono- and di-epitope MAP models containing different arrangements and stoichiometry of functional B and/or T helper cell epitopes from the circumsporozoite protein of Plasmodium berghei were used to immunize A/J mice. While these mice did not respond to the mono-epitope MAP bearing only the B or T epitope, very high titers of antibody and protective immunity against sporozoite challenge were elicited by di-epitope MAPs, particularly those with the B and T epitopes in tandem and present in equimolar amounts. These results, obtained in a well-defined rodent malaria model, indicate that MAPs may overcome some of the difficulties in the development of synthetic vaccines, not only for malaria but also for other infectious diseases.This publication has 20 references indexed in Scilit:
- Rationale for the Development of an Engineered Sporozoite Malaria VaccineAdvances in Immunology, 1989
- Synthetic peptide vaccine design: synthesis and properties of a high-density multiple antigenic peptide system.Proceedings of the National Academy of Sciences, 1988
- A novel method for producing anti-peptide antibodies. Production of site-specific antibodies to the T cell antigen receptor beta-chain.Journal of Biological Chemistry, 1988
- Synthetic peptide vaccine confers protection against murine malaria.The Journal of Experimental Medicine, 1987
- Plasmodium berghei: Cloning of the circumsporozoite protein geneExperimental Parasitology, 1987
- Efficacy of Murine Malaria Sporozoite Vaccines: Implications for Human Vaccine DevelopmentScience, 1987
- Circumsporozoite protein of Plasmodium berghei: gene cloning and identification of the immunodominant epitopes.Molecular and Cellular Biology, 1986
- Solid Phase SynthesisScience, 1986
- Rationale for Development of a Synthetic Vaccine Against Plasmodium falciparum MalariaScience, 1985
- Plasmodium berghei: Relationship between protective immunity and anti-sporozoite (CSP) antibody in miceExperimental Parasitology, 1973