Abstract
Escherichia coli α-hemolysin (HlyA) is a pore-forming protein of 110 kDa belonging to the family of RTX toxins. A hydrophobic region between the amino acid residues 238 and 410 in the N-terminal half of HlyA has previously been suggested to form hydrophobic and/or amphipathic α-helices and has been shown to be important for hemolytic activity and pore formation in biological and artificial membranes. The structure of the HlyA transmembrane channel is, however, largely unknown. For further investigation of the channel structure, we deleted in HlyA different stretches of amino acids that could form amphipathic β-strands according to secondary structure predictions (residues 71–110, 158–167, 180–203, and 264–286). These deletions resulted in HlyA mutants with strongly reduced hemolytic activity. Lipid bilayer measurements demonstrated that HlyAΔ71–110 and HlyAΔ264–286 formed channels with much smaller single-channel conductance than wildtype HlyA, whereas their channel-forming activity was virtually as high as that of the wildtype toxin. HlyAΔ158–167 and HlyAΔ180–203 were unable to form defined channels in lipid bilayers. Calculations based on the single-channel data indicated that the channels generated by HlyAΔ71–110 and HlyAΔ264–286 had a smaller size (diameter about 1.4 to 1.8 nm) than wildtype HlyA channels (diameter about 2.0 to 2.6 nm), suggesting that in these mutants part of the channel-forming domain was removed. Osmotic protection experiments with erythrocytes confirmed that HlyA, HlyAΔ71–110, and HlyAΔ264–286 form defined transmembrane pores and suggested channel diameters that largely agreed with those estimated from the single-channel data. Taken together, these results suggest that the channel-forming domain of HlyA might contain β-strands, possibly in addition to α-helical structures.
Highlights
Size of the E. coli Alpha-Hemolysin Channel together, these results suggest that the channel-forming domain of HlyA might contain b-strands, possibly in addition to a-helical structures
Alpha-hemolysin (HlyA) of Escherichia coli is a member of a large family of cytolytic pore-forming toxins (PFTs) produced by a variety of Gram-negative bacteria
It is noteworthy that the hemolytic activity of HlyAD71–110, HlyAD158–167, and HlyAD180–203 relative to wildtype HlyA was the same irrespective if culture supernatants, protein concentrated by polyethylen glycol (PEG) precipitation or purified protein ( Fig. 2) was used in the experiments provided the toxin concentration in the aqueous phase was the same
Summary
Alpha-hemolysin (HlyA) of Escherichia coli is a member of a large family of cytolytic pore-forming toxins (PFTs) produced by a variety of Gram-negative bacteria. These toxins share common structural properties and contain in particular a series of glycine-rich nonapeptide repeats with the consensus sequence G–G-X-G-(N/D)-D-X-(L/I/F)-X (where X is any amino acid) in the Cterminal half of the toxin protein; they are called RTX (Repeats in ToXin) toxins [1, 2]. The repeat domain (amino acid residues 724 to 852, comprising 13 nonameric repeats) binds Ca2+ and is essential for recognition of the mammalian target cell but it is not essential for channel formation in lipid bilayer membranes [12, 13]. A pronounced hydrophobic region in the N-terminal half of HlyA (residues 238 to 410), which may form hydrophobic and/or amphipathic a-helices, has rather been shown to be crucial for pore formation [14,15,16,17,18,19]
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