A totally synthetic lipopeptide-based self-adjuvanting vaccine induces neutralizing antibodies against heat-stable enterotoxin from enterotoxigenic Escherichia coli

Abstract: ST-based lipopeptide vaccine candidates were constructed in which ST was chemically synthesized and folded into the correct conformation prior to ligation to a module containing a T-helper cell epitope (TH) and the Toll-like receptor 2 (TLR2) agonist, S-[2,3-bis(palmitoyloxy)propyl]cysteine (P2C). Two different chemistries, thioether-based and oxime-based, were then used to ligate ST to the lipidated TH epitope. The enterotoxic activity of synthetic ST and the ST-based lipopeptide vaccines was determined in mice followed by an evaluation of immunological efficacy. The importance of the fine detail in chemical composition used in vaccine design was demonstrated by the findings that (i) the oxime-based vaccine exhibited little or no toxicity but the thioether-based vaccine, exhibited residual toxicity in suckling mice, (ii) although each of the synthetic vaccines generated specific anti-ST antibodies, it was the low titer antibodies induced by the oxime-based vaccine that demonstrated better neutralizing activity suggesting that the chemical linkage also affects the specificity of antibodies, (iii) the geometric arrangement of ST within a vaccine can profoundly affect the specificity and biological function of the antibodies that are elicited, and (iv) the lipopeptide-based ST vaccine candidate assembled using oxime chemistry induced a better neutralizing antibody response to ST when administered by the mucosal (intranasal) route. [Copyright &y& Elsevier]