Structural determinants for the binding of anthrax lethal factor to oligomeric protective antigen

Abstract

Anthrax lethal toxin assembles at the surface of mammalian cells when the lethal factor (LF) binds via its amino-terminal domain, LFN, to oligomeric forms of activated protective antigen (PA). LF·PA complexes are then trafficked to acidified endosomes, where PA forms heptameric pores in the bounding membrane and LF translocates through these pores to the cytosol. We used enhanced peptide amide hydrogen/deuterium exchange mass spectrometry and directed mutagenesis to define the surface on LFN that interacts with PA. A continuous surface encompassing one face of LFN became protected from deuterium exchange when LFN was bound to a PA dimer. Directed mutational analysis demonstrated that residues within this surface on LFN interact with Lys-197 on two PA subunits simultaneously, thereby showing that LFN spans the PA subunit:subunit interface and explaining why heptameric PA binds amaximum of three LFN molecules. Our results elucidate the structural basis for anthrax lethal toxin assembly and may be useful in developing drugs to block toxin action. © 2006 by The American Society for Biochemistry and Molecular Biology, Inc.