Abstract
Staphylococcal leukocidin (Luk) and alpha-hemolysin (alphaHL) are members of the same family of beta barrel pore-forming toxins (betaPFTs). Although the alphaHL pore is a homoheptamer, the Luk pore is formed by the co-assembly of four copies each of the two distantly related polypeptides, LukF and LukS, to form an octamer. Here, we examine N- and C-terminal truncation mutants of LukF and LukS. LukF subunits missing up to nineteen N-terminal amino acids are capable of producing stable, functional hetero-oligomers with WT LukS. LukS subunits missing up to fourteen N-terminal amino acids perform similarly in combination with WT LukF. Further, the simultaneous truncation of both LukF and LukS is tolerated. Both Luk subunits are vulnerable to short deletions at the C terminus. Interestingly, the N terminus of the LukS polypeptide becomes resistant to proteolytic digestion in the fully assembled Luk pore while the N terminus of LukF remains in an exposed conformation. The results from this work and related experiments on alphaHL suggest that, although the N termini of betaPFTs may undergo reorganization during assembly, they are dispensable for the formation of functional pores.
Highlights
 barrel pore-forming toxins (PFTs)3 are secreted by bacteria as water-soluble polypeptides that bind to the surfaces of susceptible cells and assemble into oligomeric transmembrane pores
We find the following: 1) Neither N terminus is required for pore formation; latch formation is not necessary for assembly of the pore
As documented in the preceding report, by a thorough examination of a new series of truncation mutants with up to 22 residues deleted, we demonstrated that the N terminus of ␣HL is not necessary for pore formation (Jayasinghe et al, preceding paper [36])
Summary
 barrel pore-forming toxins (PFTs)3 are secreted by bacteria as water-soluble polypeptides that bind to the surfaces of susceptible cells and assemble into oligomeric transmembrane pores. A loss of up to 4 residues from the C terminus yielded similar amounts of SDS-stable oligomer as WT LukF, when the truncated LukF subunits were assembled with WT LukS (Fig. 7A, lanes 1–3).
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