Anthrax Intoxication Reveals That ER-Golgi Membrane Contact Sites Control the Formation of Plasma Membrane Lipid Nanodomains

To promote infections, pathogens exploit host cell machineries including structural elements of the plasma membrane. Studying these interactions and identifying involved molecular players is an ideal way to gain insights into the fundamental biology of the host cell. Here, using the anthrax toxin, we screened a 1500-gene library of regulatory, cell surface, and membrane trafficking genes for their involvement in the intoxication process. We found that the ER–Golgi-localized proteins TMED2 and TMED10 are required for toxin oligomerization at the cell surface, an essential step for anthrax intoxication that depends on localization to cholesterol-rich lipid nanodomains. Further biochemical, morphological and mechanistic analyses showed that TMED2 and TMED10 are essential components of a multiprotein supercomplex that operates exchange of both cholesterol and ceramides at ER-Golgi membrane contact sites. Overall, this study of anthrax intoxication led to the discovery that lipid compositional remodelling at ER-Golgi interfaces fully controls the formation of functional membrane nanodomains at the cell surface.