Differences in crystal and solution structures of the cytolethal distending toxin B subunit: Relevance to nuclear translocation and functional activation.

Cytolethal distending toxin (CDT) induces cell cycle arrest and apoptosis in eukaryotic cells, which are mediated by the DNA-damaging CdtB subunit. Here we report the first x-ray structure of an isolated CdtB subunit (Escherichia coli-II CdtB, EcCdtB). In conjunction with previous structural and biochemical observations, active site structural comparisons between free and holotoxin-assembled CdtBs suggested that CDT intoxication is contingent upon holotoxin disassembly.

Crystallization of Escherichia coli CdtB, the biologically active subunit of cytolethal distending toxin.

Cytolethal distending toxin (CDT) is a secreted protein toxin produced by several bacterial pathogens. The biologically active CDT subunit CdtB is an active homolog of mammalian type I DNase. Internalization of CdtB and subsequent translocation into the nucleus of target cells results in DNA-strand breaks, leading to cell-cycle arrest and apoptosis.

Carbohydrate-binding specificity of the Escherichia coli cytolethal distending toxin CdtA-II and CdtC-II subunits.

Intoxication by cytolethal distending toxin depends on assembly of CdtB, the active A component of this AB toxin, with the cell surface-binding (B) component, composed of the CdtA-CdtC heterodimer, to form the active holotoxin. Here we examine the cell surface binding properties of Escherichia coli-derived CdtA-II (CdtA-II(Ec)) and CdtC-II(Ec) and their capacity to provide a binding platform for CdtB-II(Ec). Using a flow cytometry-based binding assay, we demonstrate that CdtB-II(Ec) binds to the HeLa cell surface in a CdtA-II(Ec)- and CdtC-II(Ec)-dependent manner and that CdtA-II(Ec) and CdtC-II(Ec) compete for the same structure on the HeLa cell surface.

Nuclear localization of the Escherichia coli cytolethal distending toxin CdtB subunit.

Cytolethal distending toxin (CDT) is a heterotrimeric protein toxin produced by several bacterial pathogens. Cells exposed to CDT die from either activation of the mitotic checkpoint cascade or apoptosis. Introduction of the purified CdtB subunit, a homologue of mammalian type I DNase, into cells mimics the action of the CDT holotoxin.

Diversity of the metalloprotease toxin produced by enterotoxigenic Bacteroides fragilis.

Enterotoxigenic Bacteroides fragilis (ETBF) strains produce a 20-kDa zinc metalloprotease toxin (BFT) associated with diarrheal disease of animals, young children, and adults. BFT stimulates secretion in intestinal loops in vivo and modifies epithelial cell morphology in vitro. The B.