Adjuvanticity of stearyl tyrosine on the antibody response to peptide 503-535 from HIV gp160

Enhancement of HIV type 1 vaccine immunogenicity by block copolymer adjuvants. I. Induction of high-titer, long-lasting, cross-reactive antibodies of broad isotype

Improvements in HIV-1 vaccines are urgently needed since many of the available vaccines are weak immunogens. We examined the ability of CRL1005, a novel nonionic block copolymer adjuvant, to improve the immunogenicity of multiple HIV-1 envelope vaccines: six gp120s and single and multiple V3 peptides (MAPs). Formulation of vaccine with adjuvant, as compared with alum or saline, enhanced antibody titer in mice up to 200-fold, with antibody half-lives of >200 days. For most vaccinations, an oil-in-water formulation induced the highest antibody titers; for some antigens, however, particularly single peptides, water-in-oil (w/o) was better. Antigen cross-reactivity was optimized by formulation in w/o, while addition of detoxified lipopolysaccharide enhanced levels of IgG2a and IgG2b. After more than 1 year of observation, no vaccine-related toxicity was observed and emulsified antigen in encapsulated depots was found at immunization sites of w/o-immunized animals. No other adjuvant has been reported to induce such long-lasting antibodies, and the ability of CRL1005 to greatly amplify and qualitatively modify antibody responses suggests that it may be useful in developing improved HIV vaccines for humans.

Adjuvant properties of aluminum and calcium compounds

It is likely that aluminum compounds will continue to be used with human vaccines for many years as a result of their excellent track record of safety and adjuvanticity with a variety of antigens. For infections that can be prevented by induction of serum antibodies, aluminum adjuvants formulated under optimal conditions are the adjuvants of choice. It is important to select carefully the type of aluminum adjuvant and optimize the conditions of adsorption for every antigen since the degree of adsorption of antigens onto aluminum adjuvants markedly affects immunogenicity. The mechanism of adjuvanticity of aluminum compounds includes formation of a depot at the site of injection from which antigen is released slowly; stimulation of immune-competent cells of the body through activation of complement, induction of eosinophilia, and activation of macrophages; and efficient uptake of aluminum-adsorbed antigen particles by antigen-presenting cells because of their particulate nature and optimal size (< 10 microns). Limitations of aluminum adjuvants include local reactions, production of IgE antibodies, ineffectiveness for some antigens, and inability to elicit cell-mediated immune responses especially cytotoxic T-cell responses. Calcium phosphate, which has adjuvant properties similar to aluminum adjuvants, has the potential advantages of being a natural component of the body and of not increasing IgE production. There is a need for alternative adjuvants, particularly for diseases in which cell-mediated immune responses are important for prevention or cure.

Further studies on the adjuvanticity of stearyl tyrosine and amide analogues

Stearly tyrosine has been described in the literature as a candidate adjuvant for human vaccines. More recently, other stearyl esters have been reported to be adjuvant-active. This preliminary study assesses the adjuvanticity of stearyl amides, including the amide analogue of stearyl tyrosine: tyrosyl stearylamine. This study indicates that phenylalanylethanolamine O-stearate induces a significant antibody response and a favourable isotype distribution.

Investigation of a synthetic peptide as immunogen for a variant epidermal growth factor receptor associated with gliomas

We have previously demonstrated antibody production to a glioma-associated variant form of the human epidermal growth factor receptor in rabbits that had received a synthetic peptide mimicking the unique primary structure of the variant protein as immunogen. We report here the response of mice, rabbits, goats, and macaques immunized by various protocols to this peptide. Titers to both peptide- and cell-elaborated variant receptor were measured, and the capacity to recognize the variant receptor in human tumor samples was determined. Within the range of species and strains investigated, we demonstrated a variable species-associated response to the peptide (rabbits > mice > goats > rats > macaques). Rabbits and a single goat produced specific, high titer antibody activity to the variant receptor protein following immunization with peptide alone. Murine titers to the parent protein were not appreciable following peptide immunization alone; additional immunization with variant receptor as expressed on cell membranes was used to boost this response.

Further studies on the adjuvanticity of stearyl tyrosine and ester analogues

A new family of immunoadjuvants, long-chain stearyl esters of amino acids and peptides, are described and examined with bacterial and viral vaccines. The parent compound, stearyl tyrosine, displayed significant adjuvant activity with these vaccines. Stearyl glycyl glycine displayed superior activity with viral vaccines. A number of analogues of stearyl tyrosine were adjuvant-active. Further, these adjuvants were able to elicit a neutralizing antibody response. Stearyl tyrosine and stearyl ester analogues represent promising adjuvants for human vaccines.