A live-attenuated malaria vaccine, Plasmodium falciparum sporozoite vaccine (PfSPZ Vaccine), confers sterile protection against controlled human malaria infection (CHMI) with Plasmodium falciparum (Pf) parasites homologous to the vaccine strain up to 14 mo after final vaccination. No injectable malaria vaccine has demonstrated long-term protection against CHMI using Pf parasites heterologous to the vaccine strain. Here, we conducted an open-label trial with PfSPZ Vaccine at a dose of 9.0 × 10 5 PfSPZ administered i.v. three times at 8-wk intervals to 15 malaria-naive adults. After CHMI with homologous Pf parasites 19 wk after final immunization, nine (64%) of 14 (95% CI, 35-87%) vaccinated volunteers remained without parasitemia compared with none of six nonvaccinated controls (P = 0.012). Of the nine nonparasitemic subjects, six underwent repeat CHMI with heterologous Pf7G8 parasites 33 wk after final immunization. Five (83%) of six (95% CI, 36-99%) remained without parasitemia compared with none of six nonvaccinated controls. PfSPZ-specific T-cell and antibody responses were detected in all vaccine recipients. Cytokine production by T cells from vaccinated subjects after in vitro stimulation with homologous (NF54) or heterologous (7G8) PfSPZ were highly correlated. Interestingly, PfSPZspecific T-cell responses in the blood peaked after the first immunization and were not enhanced by subsequent immunizations. Collectively, these data suggest durable protection against homologous and heterologous Pf parasites can be achieved with PfSPZ Vaccine. Ongoing studies will determine whether protective efficacy can be enhanced by additional alterations in the vaccine dose and number of immunizations.alaria caused by Plasmodium falciparum (Pf) is a major cause of morbidity and mortality, particularly in children in sub-Saharan Africa (1, 2). Travelers, military personnel, and international health care workers are also at risk (3, 4). The ideal vaccine would confer on individuals high-level, sterile protection against infection with Pf and would facilitate elimination efforts by interrupting parasite transmission (5, 6).The most extensively studied candidate malaria vaccine, RTS,S/ AS01, is composed of a truncated form of the main sporozoite (SPZ) surface protein (circumsporozoite protein, PfCSP), and an immune adjuvant (AS01). To our knowledge, this vaccine has never been tested using controlled human malaria infection (CHMI) with a heterologous Pf strain of parasites. However, a phase 3 efficacy trial in Africa using a four-dose regimen on a 0-, 1-, 2-, and 20-mo schedule showed a 26% and 36% reduction in clinical malaria among 6-12-wk-olds and 5-17-mo-olds, respectively, through 3-4 y of follow-up (7). Therefore, alternative vaccine approaches are needed that confer durable and sterile protection against homologous and heterologous strains.In contrast to recombinant subunit vaccine approaches, attenuated PfSPZ immunization consistently achieves high-level (>80%) sterile protection against CHMI with homologous Pf parasit...
Reactogenicity and immune responses to cAd3-EBO vaccine were dose-dependent. At the 2×10 particle-unit dose, glycoprotein Zaire-specific antibody responses were in the range reported to be associated with vaccine-induced protective immunity in challenge studies involving nonhuman primates, and responses were sustained to week 48. Phase 2 studies and efficacy trials assessing cAd3-EBO are in progress. (Funded by the Intramural Research Program of the National Institutes of Health; VRC 207 ClinicalTrials.gov number, NCT02231866 .).
Intramural Research Program of the Vaccine Research Center, National Institute of Allergy and Infectious Diseases, National Institutes of Health.
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