Application of Liposome-Peptide Constructs to Vaccination

The mode of association of peptides to liposome carriers might also be critical to induce a preferential immune response either humoral or cell mediated. For example, using a human mucin MUCl 20-mer peptide, it was found that only the physical association of the peptide to liposomes (either encapsulated or surface exposed after anchoring) was necessary to observe a cell-mediated response (34). In line with this observation, it was recently shown that a soluble peptide, representing a Melan-A/MART-1 tumor-associated antigen, when encapsulated into sterically stabilized liposomes, was able to stimulate a CTL response and this construct represented a suitable formulation for a specific tumor immunotherapy (69). In contrast, and in agreement with other studies (16), only the liposome surface exposed 

MUCl peptide was able to trigger a humoral immune response generating speeifie antiMUCl antibodies (34). 

Because conformational epitopes are not easily mimicked with linear peptides, which can elicit nonspecific antibodies, several alternative strategies such as synthetic cyclic peptides have been developed [see e.g., (18)]. A similar conformational restriction was seemingly achieved with a P-amyloid peptide that was anchored to the surface of liposomes via hydrophobic tails introduced at its both N- and C-termini. The reconstituted peptide proved highly immunogenic and elicited antibodies that could significantly prevent amyloid plaque formation in a model system (70). 

Finally, besides conventional liposomes that are made from natural (e.g., egg yolk and soybean) or synthetic phospholipids, novel liposomes called archaeosomes that are prepared from the polar ether lipids extracted from various archaeobacteria proved also interesting for the design of vaccines as peptide antigen carriers (71) and as powerful self-adjuvanting vaccine delivery vesicles that promote both humoral and cell-mediated immunity (72). Related to this, one can mention that pseudopeptides, which are less prone to proteolysis when conjugated to liposomes, were also competent in triggering a humoral immune response (73). 

The two examples from our work we are going to describe below are the design and study of liposomal diepitope constructs combining either (i) B and T-helper (Th) peptide epitopes, which induced particularly powerful humoral responses (21) (Fig. 3) or (ii) CTL and Th epitopes, which provided a powerful antitumor vaccine (74) (Fig. 4). For the production of these constructs we have conjugated peptides that contain a cysteine residue either at the N- or C-terminus, to the surface of preformed liposomes by reaction with thiol reactive functionalized phospholipids and/or PamaCys lipopeptide anchors (Fig. 2). To that end, we have developed strategies that give, in aqueous media, high 

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