Abstract
By using cells overexpressing diphtheria toxin (DT) receptor and a novel method of permeabilizing the plasma membrane with a bacterial pore-forming toxin, specific translocation of fragment A to the cytosol was observed, whereas full-size DT and other minor species of DT-derived fragments were left in intracellular vesicles. The translocation competence of DT proteins with mutations in the transmembrane domain is consistent with their cytotoxicities. The charge-reversal mutants E349K and D352K do not translocate their fragment A to the cytosol, whereas D352N is partially competent. ADP-ribosyltransferase activity of fragment A is not required for translocation. Novel fragments of DT with apparent molecular masses of 28 and 35 kDa were detected in endocytic vesicles. The 28-kDa fragment consists of fragment A and an N-terminal piece of fragment B, whereas the 35-kDa fragment contains part of fragment B and may be complementary to the 28-kDa fragment. Time course studies show that the 28-kDa fragment appears in endocytic vesicles prior to translocation of fragment A to the cytosol, raising the possibility that the 28-kDa fragment is an intermediate in translocation. We present a model for translocation of fragment A that incorporates the observations made using the novel permeabilization method.
Highlights
By using cells overexpressing diphtheria toxin (DT) receptor and a novel method of permeabilizing the plasma membrane with a bacterial pore-forming toxin, specific translocation of fragment A to the cytosol was observed, whereas full-size DT and other minor species of DT-derived fragments were left in intracellular vesicles
Little has been reported about the natural translocation process of DT in intact cells, in which fragment A is translocated from the inside of an acidic endosome to the cytosol across a vesicle membrane [55], due to the absence of an appropriate method to observe this process
The most critical step in this method is the selective permeabilization of the plasma membrane without damage to the endocytic vesicle membrane
Summary
A NOVEL CELL PERMEABILIZATION ASSAY REVEALS NEW DIPHTHERIA TOXIN FRAGMENTS IN ENDOCYTIC VESICLES*. By using cells overexpressing diphtheria toxin (DT) receptor and a novel method of permeabilizing the plasma membrane with a bacterial pore-forming toxin, specific translocation of fragment A to the cytosol was observed, whereas full-size DT and other minor species of DT-derived fragments were left in intracellular vesicles. We developed a method for observing translocation of DT fragment A from endosome to cytosol based on selective permeabilization of the plasma membrane with Clostridium perfringens -toxin. By using this method we studied the structural requirements for DT translocation and found that novel fragments of DT appear in endocytic vesicles during translocation
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