The lipopolysaccharide structure affects the detoxifying ability of intestinal alkaline phosphatases.

Lipopolysaccharide (LPS) is one of the most potent mediators of inflammation. In swine husbandry, weaning is associated with LPS-induced intestinal inflammation, resulting in decreased growth rates due to malabsorption of nutrients by the inflamed gut. A potential strategy to treat LPS-mediated disease is administering intestinal alkaline phosphatase (IAP). The latter can detoxify lipid A, the toxic component of LPS, by removal of phosphate groups. Currently, 183 LPS O-serotypes from E. coli have been described, however, comparative experiments to elucidate functional differences between LPS serotypes are scarce. In addition, these functional differences might affect the efficacy of LPS detoxifying enzymes. Here, we evaluated the ability of four LPS serotypes (O26:B6, O55:B5, O111:B4 and O127:B8) derived from Escherichia coli to trigger the secretion of pro-inflammatory cytokines by porcine PBMCs. We also tested the ability of three commercially available IAPs to detoxify these LPS serotypes. The results show that LPS serotypes differ in their ability to trigger cytokine secretion by immune cells, especially at lower concentrations. Moreover, IAPs displayed a different detoxification efficiency of the tested serotypes. Together, this study sheds light on the impact of LPS structure on the detoxification by IAPs. Further research is however needed to elucidate the LPS serotype-specific effects and their implications for the development of novel treatment options to alleviate LPS-induced gut inflammation in weaned piglets.