[HTML][HTML] Elimination of a bacterial pore-forming toxin by sequential endocytosis and exocytosis
M Husmann, E Beckmann, K Boller, N Kloft, S Tenzer… - FEBS letters, 2009 - Elsevier
FEBS letters, 2009•Elsevier
Staphylococcus aureus α-toxin is the archetype of bacterial pore forming toxins and a key
virulence factor secreted by the majority of clinical isolates of S. aureus. Toxin monomers
bind to target cells and oligomerize to form small β-barrel pores in the plasma membrane.
Many nucleated cells are able to repair a limited number of lesions by unknown, calcium-
independent mechanisms. Here we show that cells can internalize α-toxin, that uptake is
essential for cellular survival, and that pore-complexes are not proteolytically degraded, but …
virulence factor secreted by the majority of clinical isolates of S. aureus. Toxin monomers
bind to target cells and oligomerize to form small β-barrel pores in the plasma membrane.
Many nucleated cells are able to repair a limited number of lesions by unknown, calcium-
independent mechanisms. Here we show that cells can internalize α-toxin, that uptake is
essential for cellular survival, and that pore-complexes are not proteolytically degraded, but …
Staphylococcus aureus α-toxin is the archetype of bacterial pore forming toxins and a key virulence factor secreted by the majority of clinical isolates of S. aureus. Toxin monomers bind to target cells and oligomerize to form small β-barrel pores in the plasma membrane. Many nucleated cells are able to repair a limited number of lesions by unknown, calcium-independent mechanisms. Here we show that cells can internalize α-toxin, that uptake is essential for cellular survival, and that pore-complexes are not proteolytically degraded, but returned to the extracellular milieu in the context of exosome-like structures, which we term toxosomes.
Elsevier