Abstract
C2-toxin from Clostridium botulinum and Iota-toxin from Clostridium perfringens belong both to the binary A-B-type of toxins consisting of two separately secreted components, an enzymatic subunit A and a binding component B that facilitates the entry of the corresponding enzymatic subunit into the target cells. The enzymatic subunits are in both cases actin ADP-ribosyltransferases that modify R177 of globular actin finally leading to cell death. Following their binding to host cells’ receptors and internalization, the two binding components form heptameric channels in endosomal membranes which mediate the translocation of the enzymatic components Iota a and C2I from endosomes into the cytosol of the target cells. The binding components form ion-permeable channels in artificial and biological membranes. Chloroquine and related 4-aminoquinolines were able to block channel formation in vitro and intoxication of living cells. In this study, we extended our previous work to the use of different chloroquine analogs and demonstrate that positively charged aminoquinolinium salts are able to block channels formed in lipid bilayer membranes by the binding components of C2- and Iota-toxin. Similarly, these molecules protect cultured mammalian cells from intoxication with C2- and Iota-toxin. The aminoquinolinium salts did presumably not interfere with actin ADP-ribosylation or receptor binding but blocked the pores formed by C2IIa and Iota b in living cells and in vitro. The blocking efficiency of pores formed by Iota b and C2IIa by the chloroquine analogs showed interesting differences indicating structural variations between the types of protein-conducting nanochannels formed by Iota b and C2IIa.
Highlights
IntroductionBinary A-B type protein toxins are potent virulence factors of certain gram-positive bacteria (for reviews see refs [1,2,3]).The most prominent example of this type of toxins is the anthrax toxin produced by Bacillus anthracis, which is known as a possible biological weapon [4,5,6]
Binary A-B type protein toxins are potent virulence factors of certain gram-positive bacteria.The most prominent example of this type of toxins is the anthrax toxin produced by Bacillus anthracis, which is known as a possible biological weapon [4,5,6]
The channels formed by the binding components C2IIa and Iota b are fully oriented in artificial and presumably in biological membranes when they are added to only one side of an artificial and biological membrane [37,39]
Summary
Binary A-B type protein toxins are potent virulence factors of certain gram-positive bacteria (for reviews see refs [1,2,3]).The most prominent example of this type of toxins is the anthrax toxin produced by Bacillus anthracis, which is known as a possible biological weapon [4,5,6]. PA [11,13,14,15,16] These heptamers (C2IIa, Iota b) are the biologically active species of the B components and mediate two different functions during cellular uptake of the toxins: First, they bind to their receptors on the surface of target cells and form complexes with their A components. These complexes are subsequently taken up into cells via receptor-mediated endocytosis and thereby reach early endosomal vesicles. The acidic conditions in such endosomes trigger a conformational change of the compound B heptamers, which insert into endosomal membranes to form trans-membrane pores
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