Novel malaria multi-epitope vaccine design

Abstract

Malaria is a serious infectious disease threat to U.S. military personnel deployed in malaria endemic areas, and an efficacious vaccine is not yet available. To date, most vaccine candidates that have entered clinical trials, whether subunit or whole organism, have components derived from single parasite strains and have largely not been successful due to the strain-dependent features of the elicited immune response. We proposed to identify conserved immunodominant HLA A and B-restricted T cell epitopes from four leading Plasmodium falciparum candidate antigens and utilize a self-assembling protein nanoparticle (SAPN) technology to produce multi-antigen, multi-epitope subunit malaria vaccines. We have completed recruitment and blood sample collection from 300 study subjects. DNA from all 300 subjects have been purified and HLA typing of all subjects has been completed. Interferon-gamma/Granzyme B FLUOROSpot T cell assays with 15meroverlapping peptide stimulation of subject PBMCs is currently on-going, with analysis of samples from 245 subjects currently completed. Of the 245 subject samples analyzed, 212 assays have passed based on our assay quality control criteria. Of the212 passed assays103 HLA-typed subject samples yielded a positive response to at least one of the 31 peptide pools. Analysis of FLUOROSpot assay data for the remaining 55 subjects is ongoing. This report will also present assay data on subject HLA typing, parasite diversity analysis, blood film microscopy and ELISA to assess anti-CSP antibodies as anexposure proxy.

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 2020

Accession Number

AD1106088

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