Activation and mechanism of Clostridium septicum alpha toxin

Abstract

Clostridium septicum produces a single lethal factor, alpha toxin (AT), which is a cytolytic protein with a molecular mass of approximately 48kDa. The 48kDa toxin was found to be an inactive protoxin (AT^pro) which could be activated via a carboxy-terminal cleavage with trypsin. The cleavage site was located approximately 4kDa from the carboxy-terminus. Proteolytically activated AT^pro had a specific activity of approximately 1.5 × 10⁶ haemolytic units mg^-1. The trypsin-activated toxin (AT^act) was haemolytic, stimulated a prelytic release of potassium ions from erythrocytes which was followed by haemoglobin release, induced channel formation in planar membranes and aggregated into a complex of M_r >210000 on erythrocyte membranes. AT^pro did not exhibit these properties. AT^act formed pores with a diameter of at least 1.3-1.6 nm. We suggest that pore formation on target cell membranes is responsible for the cytolytic activity of alpha toxin.