Teasing apart structural determinants of `toxicity' and `adjuvanticity': implications for meningococcal vaccine development

Abstract

The use of lipopolysaccharide (LPS) as an adjuvant is limited by its high endotoxic activity. In particular, the fatty-acyl pattern of the lipid A part of LPS has been demonstrated to determine its biological activity. By genetic modification of the lipid A biosynthesis pathway in Neisseria meningitidis, a panel of recombinant strains with specific alterations in the lipid A acylation pattern, as well as a strain completely lacking LPS were isolated. Whereas all variations in the fatty-acyl pattern resulted in reduced endotoxic activity, as measured by TNF-α induction in the human macrophage cell line MM6, the adjuvant activity of the modified LPS was, in most cases, barely affected. The in vivo adjuvant properties of N. meningitidis wild-type and mutant LPS was found to correlate with induction of co-stimulatory molecules, in particular CD80 and CD40, and with IL-12 production by LPS-stimulated bone marrow-derived BALB/c dendritic cells in vitro. Our results suggest that the ability of LPS to stimulate pro-inflammatory cytokine induction is not necessarily linked to its adjuvant activity. The availability of this novel set of lipid A variants with improved pharmacological properties will be of great importance for the improvement of future outer membrane vesicle vaccines against N. meningitidis.