Evaluation of Lipopeptides as Toll-like Receptor 2 Ligands

Background: Peptide-based vaccines are considered to be the next generation of modern immunizations, as they are safe, easy to produce and well-defined. However, due to their weak immunogenic effect, it is important to first develop an appropriate adjuvant for peptide-based vaccines. Objective: The aim of this work was to synthesize a series of four adjuvanting moieties as alkyne derivatives, incorporating dipalmitoyl serine (DPS), 1,3-diglyceride (DG), two hexadecane lipoamino acids (diLAA), and 2,3-dipalmitoyl-S-glycerylcysteine (Pam2Cys). Next aim was to synthesize and attach the azide derivative of biotinylated J14 peptide (model B-cell epitope) to the alkynes through copper- catalyzed alkyne-azide 1,3-dipolar cycloaddition (CuAAC) reaction. Final aim was to test the ability of the final biotin labeled conjugates to directly interact with in vitro expressed TLR2 and 8 using AlphaScreen proximity assay. Method: All of the peptides were synthesized by manual stepwise solid phase peptide synthesis (SPPS) on rink amide MBHA resin using HATU/DIPEA Fmoc-chemistry. The target compounds were synthesized in a solution phase using CuAAC reaction. Results: Pam2Cys analogue bound to TLR2 as expected. Analogues of DPS and C16-LAA showed also affinity to TLR2, while it did not bind to the control protein (TLR8), demonstrating ability of the DPS and C16-LAA to be recognized by TLR2. Conclusion: Four alkyne derivatives of lipids were successfully synthesized and coupled to a biotinylated J14 peptide to give a series of self-adjuvanting ligands. These ligands showed different affinity to TLR2 upon testing by AlphaScreen assay. The DPS derivative showed the most promising affinity in comparison to the standard TLR2 agonist, Pam2Cys.