Lipid modification of the 17-kilodalton membrane immunogen of Treponema pallidum determines macrophage activation as well as amphiphilicity.

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Infect Immun. 1993 April; 61(4): 1202-1210

Lipid modification of the 17-kilodalton membrane immunogen of Treponema pallidum determines macrophage activation as well as amphiphilicity.

D R Akins, B K Purcell, M M Mitra, M V Norgard and J D Radolf

Department of Microbiology, University of Texas Southwestern Medical Center, Dallas 75235.

ABSTRACT

A murine monoclonal antibody specific for a 17-kDa major membraneimmunogen of Treponema pallidum was used to select recombinantEscherichia coli clones expressing the molecule from a T. pallidumgenomic library. Sequence analysis of the structural gene forthe immunogen (designated tpp17) revealed a 468-bp open readingframe encoding a polypeptide of 156 amino acids with a calculatedmolecular mass of 16,441 Da. The deduced amino acid sequenceincluded a putative leader peptide terminated by a consensustetrapeptide for the modification and processing of prokaryoticlipoproteins. Immunoprecipitation of the cloned immunogen radiolabeledwith [3H]palmitate confirmed that it was a lipoprotein. Theamino acid sequence also predicted that the mature protein containsfour cysteine residues in addition to the lipid-modified cysteineof the N terminus. The existence of disulfide-bonded multimericforms of the native immunogen was demonstrated by immunoblottingT. pallidum solubilized in the presence and absence of 2-mercaptoethanol.Triton X-114 phase partitioning of a nonlipidated form of the17-kDa immunogen cleaved from a glutathione S-transferase fusionprotein demonstrated that lipid modification is responsiblefor the immunogen's hydrophobic character. The same nonlipidatedform of the immunogen also was used to demonstrate that lipidmodification is essential for the molecule's ability to stimulateproduction of tumor necrosis factor alpha by murine macrophages.We conclude that covalently attached fatty acids not only anchorT. pallidum lipoproteins to spirochetal membranes but also conferupon these molecules the ability to activate immune effectorcells.

Infect Immun. 1993 April; 61(4): 1202-1210

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