Abstract
Protective antigen (PA) of anthrax toxin binds cellular receptors and forms pores in target cell membranes, through which catalytic lethal factor (LF) and edema factor (EF) are believed to translocate to the cytoplasm. Using patch clamp electrophysiological techniques, we assayed pore formation by PA in real time on the surface of cultured cells. The membranes of CHO-K1 cells treated with activated PA had little to no electrical conductivity at neutral pH (7.3) but exhibited robust mixed ionic currents in response to voltage stimuli at pH 5.3. Pore formation depended on specific cellular receptors and exhibited voltage-dependent inactivation at large potentials (>60 mV). The pH requirement for pore formation was receptor-specific as membrane insertion occurs at significantly different pH values when measured in cells specifically expressing tumor endothelial marker 8 (TEM8) or capillary morphogenesis protein 2 (CMG2), the two known cellular receptors for anthrax toxin. Pores were inhibited by an N-terminal fragment of LF and by micromolar concentrations of tetrabutylammonium ions. These studies demonstrated basic biophysical properties of PA pores in cell membranes and served as a foundation for the study of LF and EF translocation in vivo.
Highlights
Anthrax toxin, secreted by Bacillus anthracis, belongs to the A-B family of bacterial toxins and consists of three protein components
Because the cellular receptors for protective antigen (PA) may form some structural component of the pore in vivo [18, 19] and because of differences in lipid composition, it is reasonable to ask whether the overall structure of the pores formed in artificial membranes accurately reflects that found in plasma or endosomal membranes
We showed that pore formation in plasma membranes requires cellular receptors, and we measured basic biophysical properties of these pores, comparing our recordings with those made in artificial bilayers
Summary
Materials—Proteins were produced and purified as described previously [23].
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