Abstract
The circumsporozoite protein (CSP) and thrombospondin-related adhesion protein (TRAP) are major targets for pre-erythrocytic malaria vaccine development. However, the CSP-based vaccine RTS,S provides only marginal protection, highlighting the need for innovative vaccine design and development. Here we design and characterize expression and folding of P. berghei (Pb) and P. falciparum (Pf) TRAP-CSP fusion proteins, and evaluate immunogenicity and sterilizing immunity in mice. TRAP N-terminal domains were fused to the CSP C-terminal αTSR domain with or without the CSP repeat region, expressed in mammalian cells, and evaluated with or without N-glycan shaving. Pb and Pf fusions were each expressed substantially better than the TRAP or CSP components alone; furthermore, the fusions but not the CSP component could be purified to homogeneity and were well folded and monomeric. As yields of TRAP and CSP fragments were insufficient, we immunized BALB/c mice with Pb TRAP-CSP fusions in AddaVax adjuvant and tested the effects of absence or presence of the CSP repeats and absence or presence of high mannose N-glycans on total antibody titer and protection from infection by mosquito bite both 2.5 months and 6 months after the last immunization. Fusions containing the repeats were completely protective against challenge and re-challenge, while those lacking repeats were significantly less effective. These results correlated with higher total antibody titers when repeats were present. Our results show that TRAP-CSP fusions increase protein antigen production, have the potential to yield effective vaccines, and also guide design of effective proteins that can be encoded by nucleic acid-based and virally vectored vaccines.
Highlights
Malaria remains a global health problem with an estimated 216 million cases of infection and 445,000 deaths worldwide in 2016
thrombospondin-related adhesion protein (TRAP)-circumsporozoite protein (CSP) fusion antigens with antibodies to P. falciparum (Pf) CSP and with antibodies that we report here to Pf TRAP, we demonstrate that their domains are well folded
In CSP the repeat region contains immunodominant B-cell epitopes recognized by sporozoite neutralizing antibodies in mice and humans, whereas the αTSR domain contains T-cell epitopes associated with protection in mice and humans [34,35,36,37]
Summary
Malaria remains a global health problem with an estimated 216 million cases of infection and 445,000 deaths worldwide in 2016. The most advanced pre-erythrocytic subunit vaccine, RTS,S, in a phase III trial reduced infection by only 27% in infants and 46% in children during the first 18 months. Two major proteins on the surface of sporozoites, circumsporozoite protein (CSP) and thrombospondin-related adhesion protein (TRAP), are a focus of pre-erythrocytic subunit vaccine development; both are essential for sporozoite motility and liver-stage infection [9, 10]. No significant protective efficacy was observed in two recent field trials [21, 22] Combination vaccination targeting both CSP and TRAP has been explored. Co-administration of viral-vectored ME-TRAP with adjuvanted RTS,S reduced immunogenicity and efficacy to RTS,S alone in controlled human malaria infection [26]. Good antigen expression is necessary for protein antigen vaccines, and for modified RNA or viral vector vaccines, and our results are relevant to further development of all these modalities of pre-erythrocytic malaria vaccines
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