Mice genetically hyporesponsive to lipopolysaccharide (LPS) exhibit a defect in endocytic uptake of LPS and ceramide

We have recently shown that monomeric bacterial LPS is rapidly delivered from the plasma membrane to an intracellular site and that agents that block vesicular transport block responses of neutrophils to lipopolysaccharide (LPS) (Detmers, P.A., N. Thieblemont, T. Vasselon, R. Pironkova, D.S. Miller, and S.D. Wright. 1996. J. Immunol. 157:5589-5596). To examine further the connection between intracellular transport of LPS and signaling, we observed internalization of fluorescently labeled LPS in cells from LPS-hyporesponsive (Lps(d)) mice. Binding of fluorescent LPS from LPS-soluble CD14 (sCD14) complexes by peritoneal macrophages from Lps(d) and control (Lps(n)) mice was quantitatively similar, and confocal images obtained from these cells exhibited an identical appearance immediately after labeling. Incubation of labeled Lps(n) macrophages at 37 degrees C caused movement of the fluorescence from the cell perimeter in one or two spots in the perinuclear region. However, in Lps(d) cells the fluorescence remained dispersed, suggesting a defect in vesicular transport. LPS resembles ceramide, and Lps(d) mice fail to respond to ceramide. As with LPS, we found that binding of fluorescent ceramide by Lps(d) and Lps(n) macrophages was quantitatively similar, and the label moved rapidly to one to two spots in the perinuclear region in Lps(n) mice. However, in Lps(d) macrophages the fluorescence remained dispersed. These results show that cells deficient in responses to LPS exhibit defective vesicular transport of LPS and ceramide and point to a role for vesicular transport in responses to these mediators.