CRYSTAL-STRUCTURE OF THE HOLOTOXIN FROM SHIGELLA-DYSENTERIAE AT 2.5-ANGSTROM RESOLUTION

Shigella dysenteriae is the pathogen responsible for the severe form of dysentery in humans. It produces Shiga toxin, the prototype of a family of closely related bacterial protein toxins. We have determined the structure of the holotoxin, an AB(5) hexamer, by X-ray crystallography. The five B subunits form a pentameric ring, encircling a helix at the carboxy terminus of the A subunit. The A subunit interacts with the B pentamer via this C-terminal helix and a four-stranded mixed P-sheet. The fold of the rest of the A subunit is similar to that of the A chain of the plant toxin ricin; both ave N-glycosidases. However, the active site in the bacterial holotoxin is blocked by a segment of polypeptide chain. These residues of the A subunit would be released as part of the activation mechanism of the toxin.