Effects of N-acylation on the immune adjuvanticity of analogs of the Quillaja saponins derivative GPI-0100.

Modification of the 3-glucuronic acid (GlcA) residue from the Quillaja saponin (QS) adjuvants by N-acylation, yields derivatives with linear alkylamides that show structural and functional changes. Structural, since the relatively unreactive added hydrophobic alkyl chains may modify these glycosides' conformation and micellar structure. Functional, because altering the availability of proposed pharmacophores, like fucose (Fucp) and aldehyde groups, to interact with their cellular receptors, may change these glycosides' adjuvanticity. While deacylated QS (DS-QS) adjuvants bias the response toward a sole anti-inflammatory Th2 immunity against an antigen, their N-alkylated derivatives carrying octyl to dodecylamide residues, modify that response to a pro-inflammatory Th1 immunity. As shown by their IgG2a/IgG1 titer ratios, which are higher than those for Th2 immunity. A result of the fact that in mice, the IgG2a levels are dependent on the direct influence of secreted interferon-γ (IFN-γ), a crucial Th1 cytokine. But addition of the longer and more lipophilic tetradecylamide group, yields derivatives that like DS-QS induce Th2 immunity, as shown by their low IgG2a/IgG1 ratio. Results that imply that changes in these analogs' conformation and micellar structure, would affect the immunomodulatory properties or adjuvanticity of N-acylated DS-QS. Physical changes that may alter the availability of groups like Fucp, to bind to its presumed dendritic cells' lectin receptor DC-SIGN; an essential step in the stimulation of Th2 immunity. Structural properties that in an aqueous environment, would depend on these glycosides' balance of their hydrophilic and lipophilic moieties (HLB), and the interactions of the newly introduced alkyl chain with the native QS' lipophilic triterpene aglycone and hydrophilic oligosaccharide chains. A situation that would explain these new derivatives' qualitative and quantitative changes in adjuvanticity.