Salmonella-type heptaacylated lipid A is inactive and acts as an antagonist of lipopolysaccharide action on human line cells.

The stimulation of both THP-1 and U937 human-derived cells by Salmonella lipid A preparations from various strains, as assessed by TNF-alpha induction and NF-kappaB activation, was found to be very low (almost inactive) compared with Escherichia coli lipid A, but all of the lipid As exerted strong activity on mouse cells and on Limulus gelation activity. Experiments using chemically synthesized E. coli-type hexaacylated lipid A (506) and Salmonella-type heptaacylated lipid A (516) yielded clearer results. Both lipid A preparations strongly induced TNF-alpha release and activated NF-kappaB in mouse peritoneal macrophages and mouse macrophage-like cell line J774-1 and induced Limulus gelation activity, although the activity of the latter was slightly weaker than that of the former. However, 516 was completely inactive on both THP-1 and U937 cells in terms of both induction of TNF-alpha and NF-kappaB activation, whereas 506 displayed strong activity on both cells, the same as natural E. coli LPS. In contrast to the action of the lipid A preparations, all the Salmonella LPSs also exhibited full activity on human cells. However, the polysaccharide portion of the LPS neither exhibited TNF-alpha induction activity on the cells when administered alone or together with lipid A nor inhibited the activity of the LPS. These results suggest that the mechanism of activation by LPS or the recognition of lipid A structure by human and mouse cells may differ. In addition, both 516 and lipid A from Salmonella were found to antagonize the 506 and E. coli LPS action that induced TNF-alpha release and NF-kappaB activation in THP-1 cells.