Adriane Liner scite author profile

The ability of genetic vaccination to protect against a lethal challenge of anthrax toxin was evaluated. BALB/c mice were immunized via gene gun inoculation with eucaryotic expression vector plasmids encoding either a fragment of the protective antigen (PA) or a fragment of lethal factor (LF). Plasmid pCLF4 contains the N-terminal region (amino acids [aa] 10 to 254) of Bacillus anthracis LF cloned into the pCI expression plasmid. Plasmid pCPA contains a biologically active portion (aa 175 to 764) of B. anthracis PA cloned into the pCI expression vector. One-micrometer-diameter gold particles were coated with plasmid pCLF4 or pCPA or a 1:1 mixture of both and injected into mice via gene gun (1 g of plasmid DNA/injection) three times at 2-week intervals. Sera were collected and analyzed for antibody titer as well as antibody isotype. Significantly, titers of antibody to both PA and LF from mice immunized with the combination of pCPA and pCLF4 were four to five times greater than titers from mice immunized with either gene alone. Two weeks following the third and final plasmid DNA boost, all mice were challenged with 5 50% lethal doses of lethal toxin (PA plus LF) injected intravenously into the tail vein. All mice immunized with pCLF4, pCPA, or the combination of both survived the challenge, whereas all unimmunized mice did not survive. These results demonstrate that DNA-based immunization alone can provide protection against a lethal toxin challenge and that DNA immunization against the LF antigen alone provides complete protection.

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Genetic immunization against anthrax

Galloway

Liner

Legutki

et al. 2004

Vaccine

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Intracellular delivery of a novel multiepitope peptide vaccine by an amphipathic peptide carrier enhances cytotoxic T‐cell responses in HLA‐A*201 mice

Dakappagari

Sundaram

Rawale

et al. 2005

The Journal of Peptide Research

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Cytotoxic T lymphocytes (CTL) are key players in the neutralization of viruses and killing of tumor cells. However, for generating an optimal CTL response by vaccination, the antigen has to be delivered directly into the cytoplasm for presentation by the conventional MHC class I pathway. To mimic the presentation of multiple epitopes by a tumor or virus infected cell, we have designed a multiepitope peptide vaccine incorporating thee CTL epitopes in tandem with double arginine spacers to facilitate efficient cleavage of the individual epitopes. To deliver the multiepitope peptide vaccine into the cytoplasm of mature dendritic cells for presentation by the MHC class I pathway we made use of an amphipathic peptide carrier. Direct injection of a non-covalent complex of the multiepitope peptide vaccine and amphipathic peptide carrier in an aqueous formulation into HLA-A*0201 (HHD) transgenic mice enhanced the cytotoxic T-cell responses by two to sixfold compared with multiepitope peptide vaccination alone. This novel antigen delivery strategy may find general application in the development of more effective vaccines for the treatment of cancer and infectious disease.

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Adriane Liner

Protection against Anthrax Lethal Toxin Challenge by Genetic Immunization with a Plasmid Encoding the Lethal Factor Protein

Genetic immunization against anthrax

Intracellular delivery of a novel multiepitope peptide vaccine by an amphipathic peptide carrier enhances cytotoxic T‐cell responses in HLA‐A*201 mice

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