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. 1988 Mar;56(3):682–686. doi: 10.1128/iai.56.3.682-686.1988

Liposomes, lipid A, and aluminum hydroxide enhance the immune response to a synthetic malaria sporozoite antigen.

R L Richards 1, M D Hayre 1, W T Hockmeyer 1, C R Alving 1
PMCID: PMC259345  PMID: 3277918

Abstract

A liposome-encapsulated cloned protein (R32tet32) containing sequences from the tetrapeptide repeat region of the circumsporozoite protein of Plasmodium falciparum sporozoites was examined for immunogenicity with rabbits and monkeys. Effects of adjuvants were tested by encapsulation of the antigen in liposomes either lacking or containing lipid A and adsorption with aluminum hydroxide (ALUM). When rabbits were immunized with R32tet32 alone, a primary antibody response was not seen and a secondary response did not appear until 32 to 36 weeks after boosting. Immunization with ALUM-adsorbed R32tet32 resulted in a minimal primary antibody response. A moderate secondary antibody response was detected within 2 weeks after boosting, but antibody levels decreased to preimmunization levels 8 weeks after boosting. When R32tet32 was encapsulated in liposomes containing lipid A, strong primary and secondary antibody responses were observed. Strong primary and secondary responses also were obtained when R32tet32 was encapsulated in liposomes either containing or lacking lipid A and the liposomes were adsorbed with ALUM. The strongest antibody response was obtained by immunization with ALUM-adsorbed liposomes containing lipid A and R32tet32, suggesting that the adjuvant effects of liposomes, lipid A, and ALUM were additive or synergistic.

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Selected References

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