Abstract
The immunogenicity and antigenicity of synthetic Escherichia coli lipid A (compound 506) and its 1- and 4'-monophosphorylated derivatives (compounds 505 and 504, respectively) and nonphosphorylated derivative (compound 503) were compared with those of bis- and 4'-monophosphorylated natural free lipid A from E. coli. The synthetic compounds under study were either coated onto sheep erythrocytes (except for the water-insoluble preparation 503) or incorporated into liposomes and used for the immunization of rabbits. Both types of immunogens (the latter representing fully synthetic immunogens) resulted in high-titered polyclonal antisera which were characterized before or after absorption in a passive hemolysis assay as well as in a passive hemolysis inhibition assay with the synthetic compounds as test antigens. All antisera were found to react with their corresponding homologous antigens coated onto sheep erythrocytes, with titers of up to 2,048, and were comparable to those antisera obtained after immunization with natural lipid A exposed on the bacterial surface after acid hydrolysis. Antisera against bisphosphorylated compound 506 were highly specific for the homologous antigens, showing no interaction with compounds 504 and 505 in the passive hemolysis test. The same held true for the absorption experiments in which glutaraldehyde-fixed sheep erythrocytes were sensitized with the respective antigens. Antisera against monophosphorylated compounds 504 and 505 exhibited, besides their expected homologous reactivity, complete cross-reactivity with compound 506, but they did not cross-react with each other. Thus, anti-504 and anti-505 antibodies recognized distinct antigenic determinants, being related to the ester linked 4'-phosphate or the glycosidically linked 1-phosphate, respectively. Both antigenic determinants were also expressed by bisphosphorylated compound 506 used as an antigen; however, upon immunization, only antibodies against compound 506 were elicited.
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