SummaryThe binary Clostridium botulinum C2 toxin consists of the binding/translocation component C2IIa and the separate enzyme component C2I, which mono-ADP-ribosylates actin in eukaryotic cells. Pore formation of C2IIa in early endosomal membranes facilitates translocation of unfolded C2I into the cytosol. We discovered earlier that translocation of C2I depends on the activity of the host cell chaperone heat shock protein Hsp90. Here, we demonstrate that cyclosporin A, which inhibits the peptidyl-prolyl cis/trans isomerase activity of cyclophilins, inhibited intoxication of cells with C2 toxin and prevented uptake of C2I into the cytosol. Cyclosporin A blocked the pH-dependent translocation of C2I activity across membranes of intact cells and of partially purified early endosomes. In vitro, the addition of cytosol to C2 toxin-loaded endosomes induced translocation of C2I activity into the cytosol, which was prevented by pretreatment of the cytosol with an antibody against cyclophilin A. Pull-down experiments with lysates from C2 toxin-treated cells revealed specific binding of cyclophilin A to the N-terminal domain of C2I. In conclusion, our results suggest an essential role of cyclophilin A for translocation of C2I across endosomal membranes during the uptake of C2 toxin into mammalian cells.
Some hypervirulent strains of Clostridium difficile produce the binary actin-ADP-ribosylating toxin C. difficile transferase (CDT) in addition to Rho-glucosylating toxins A and B. It has been suggested that the presence of CDT increases the severity of C. difficile-associated diseases, including pseudomembranous colitis. CDT contains a binding and translocation component, CDTb, that mediates the transport of the separate enzyme component CDTa into the cytosol of target cells, where CDTa modifies actin. Here we investigated the mechanism of cellular CDT uptake and found that bafilomycin A1 protects cultured epithelial cells from intoxication with CDT, implying that CDTa is translocated from acidified endosomal vesicles into the cytosol. Consistently, CDTa is translocated across the cytoplasmic membranes into the cytosol when cell-bound CDT is exposed to acidic medium. Radicicol and cyclosporine A, inhibitors of the heat shock protein Hsp90 and cyclophilins, respectively, protected cells from intoxication with CDT but not from intoxication with toxins A and B. Moreover, both inhibitors blocked the pH-dependent membrane translocation of CDTa, strongly suggesting that Hsp90 and cyclophilin are crucial for this process. In contrast, the inhibitors did not interfere with the ADP-ribosyltransferase activity, receptor binding, or endocytosis of the toxin. We obtained comparable results with the closely related iota-toxin from Clostridium perfringens. Moreover, CDTa and Ia, the enzyme component of iota-toxin, specifically bound to immobilized Hsp90 and cyclophilin A in vitro. In combination with our recently obtained data on the C2 toxin from C. botulinum, these results imply a common Hsp90/cyclophilin A-dependent translocation mechanism for the family of binary actin-ADP-ribosylating toxins.Clostridium difficile infection causes human diseases ranging from mild diarrhea to severe and potentially life-threatening pseudomembranous colitis. C. difficile-associated diseases occur in patients treated with broad-spectrum antibiotics. Under these conditions, the disturbed gut flora allows germination of C. difficile spores and colonization of the gut by this pathogen. C. difficile produces two exotoxins, toxin A (308 kDa) and toxin B (270 kDa), which are the causative agents of pseudomembranous colitis. The toxin-catalyzed glucosylation of Rho, Rac, and Cdc42 results in the inhibition of GTPase-mediated cell signaling, destruction of the actin cytoskeleton, and cell rounding that are the reasons for loss of integrity of the intestinal wall (for a review, see references 20 and 21).During the last 10 years, hypervirulent C. difficile strains were identified that produce, in addition to toxins A and B, a third exotoxin, the binary C. difficile transferase (CDT). Up to 35% of the strains tested produce CDT, and it has been suggested that the presence of CDT correlates with the severity of C. difficile-associated diseases (12,14,25,27,52). CDT belongs to the family of binary actin-ADP-ribosylating toxins and consists of two nonlink...
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