Subtilase contributes to the cytotoxicity of a Shiga toxin-producing Escherichia coli strain encoding three different toxins.

Food-borne Shiga toxin-producing Escherichia coli (STEC) O113:H21 strain TS18/08, that has previously been isolated from mixed minced meat, harbors the Shiga toxin (Stx) encoding allele stx2a, the plasmid-located subtilase cytotoxin encoding allele subAB1 and the cytolethal distending toxin type V encoding gene cdt-V. In the current study, it could be shown that each of these toxin genes was transcribed with different transcription levels at different time points by RT real time PCR under laboratory batch conditions in LB-broth. The transcription maximum for cdt-V and subAB1 was observed after 3h while stx2a transcription was highest after 6h of incubation. During this time the mean relationship of the amount of stx2a:subAB1:cdt-V transcripts was 1:26:100. Furthermore, isogenic stx2a and cdt-V chromosomal deletion mutants were constructed to measure the contribution of SubAB1 to the overall cytotoxicity of this strain. In this context, a further copy of stx2 was detected in this strain and was also deleted. Comparing the cytotoxicity of supernatants of the resulting mutant strains TS18/08-3 (Δstx2-1Δstx2-2Δcdt-V) and TS18/08-4 (Δstx2-1Δstx2-2Δcdt-VΔsubAB1) on Vero cells demonstrated a contribution of SubAB1 to the overall cytotoxic effect while the 4-fold isogenic deletion mutant did not show any cytotoxic effect and that was comparable to the non-toxic laboratory E. coli strain C600. The cytotoxic effect could be restored by complementation with the recombinant low copy plasmid pWSK29 harboring subAB1 under the control of its own promoter. In addition, the cytotoxicity of wild type strain TS18/08 to Vero cells was in the same range as the EHEC O157:H7 strain EDL933. Therefore, food-borne STEC O113:H21 strain TS18/08 can be considered as a putative human pathogen.

Prevalence of subtilase cytotoxin-encoding subAB variants among Shiga toxin-producing Escherichia coli strains isolated from wild ruminants and sheep differs from that of cattle and pigs and is predominated by the new allelic variant subAB2-2.

Subtilase cytotoxin (SubAB) is an AB5 toxin produced by Shiga toxin (Stx)-producing Escherichia coli (STEC) strains usually lacking the eae gene product intimin. Three allelic variants of SubAB encoding genes have been described: subAB1, located on a plasmid, subAB2-1, located on the pathogenicity island SE-PAI and subAB2-2 located in an outer membrane efflux protein (OEP) region. SubAB is becoming increasingly recognized as a toxin potentially involved in human pathogenesis. Ruminants and cattle have been identified as reservoirs of subAB-positive STEC. The presence of the three subAB allelic variants was investigated by PCR for 152 STEC strains originating from chamois, ibex, red deer, roe deer, cattle, sheep and pigs. Overall, subAB genes were detected in 45.5% of the strains. Prevalence was highest for STEC originating from ibex (100%), chamois (92%) and sheep (65%). None of the STEC of bovine or of porcine origin tested positive for subAB. None of the strains tested positive for subAB1. The allelic variant subAB2-2 was detected the most commonly, with 51.4% possessing subAb2-1 together with subAB2-2. STEC of ovine origin, serotypes O91:H- and O128:H2, the saa gene, which encodes for the autoagglutinating adhesin and stx2b were significantly associated with subAB-positive STEC. Our results suggest that subAB2-1 and subAB2-2 is widespread among STEC from wild ruminants and sheep and may be important as virulence markers in STEC pathogenic to humans.

Bacteriophage 933W encodes a functional esterase downstream of the Shiga toxin 2a operon.

In this study, the 1938bp open reading frame z1466, which is encoded directly downstream the Shiga toxin 2a (Stx2a) operon in E. coli O157:H7 phage 933W was cloned and expressed recombinantly. Purification with Ni-NTA agarose beads with subsequent SDS-PAGE revealed a 68kDa protein, designated 933Wp42-His. Analysis of 933Wp42-His demonstrated an esterase activity by activity staining of native gels using triacetin as a substrate. Purified 933Wp42-His demonstrated a Km value of about 10mM and a Vmax value of 1.667nkat/ml for 4-methylumbelliferyl-acetate (4-MUF-Ac) as a substrate. The enzyme was most active in the pH-range of 7.0-8.0, and at 50°C. Furthermore, 933Wp42-His was able to hydrolyze acetic acid from mucin, and 5-N-acetyl-9-O-acetyl neuraminic acid (Neu5,9Ac2). This is the first description of an enzymatic activity of the Stx-phage-encoded protein 933Wp42. Its role in substrate utilization during colonization and human infection is discussed.

Molecular analysis of subtilase cytotoxin genes of food-borne Shiga toxin-producing Escherichia coli reveals a new allelic subAB variant.

BACKGROUND: The open reading frames of subAB genes and their flanking regions of 18 food-borne Shiga toxin-producing E. coli (STEC) strains were analyzed. RESULTS: All but one subAB open reading frames (ORF) were complete in all STEC strains. The subAB1 genes of nine STEC strains were located on large plasmids. The subAB2 allele (here designated subAB2-1), which was recently described by others to be present in the Subtilase-Encoding PAI (SE-PAI) was found in 6 STEC strains. A new chromosomal subAB2 variant, designated subAB2-2 was detected in 6 strains and was linked to a chromosomal gene hypothetically encoding an outer membrane efflux protein (OEP). Three STEC strains contained both subAB2 variants. DNA analysis indicated sequence conservation in the plasmid-located alleles and sequence heterogeneity among the chromosomal subAB2 genes. CONCLUSIONS: The results of this study have shown that 18 subAB-PCR positive STEC strains contain complete subAB open reading frames. Furthermore, the new allelic variant subAB2-2 was described, which can occur in addition to subAB2-1 on a new chromosomal locus.

Internalization of biotinylated compounds into cancer cells is promoted by a molecular Trojan horse based upon core streptavidin and clostridial C2 toxin.

The C2 toxin produced by Clostridium botulinum is a binary AB-type exotoxin composed of the enzyme subunit C2I and the binding/translocation moiety C2II. After proteolytic activation, C2IIa mediates the subsequent internalization of C2I into the cytosol of mammalian target cells. The N-terminal domain of C2I (C2IN) is necessary for C2IIa-dependent uptake, but lacks the enzyme domain that is responsible for cytotoxicity. In the present study, we generated a delivery system building on C2IN and a truncated core streptavidin (Stv13) with enhanced solubility for the C2IIa-dependent internalization of biotinylated cargo molecules into mammalian cells. C2IN-Stv13 fusion protein expressed in Escherichia coli was obtained in high yields and purity. The affinity-purified protein formed tetramers and a defined higher order species in solution as shown by gel filtration and retained its biotin-binding properties, however with an obvious reduction in affinity. Uptake of C2IN-Stv13 into the cytosol of HeLa and other cancer cell lines was observed by immunoblot analysis, which was corroborated by confocal microscopy. In addition, the fusion protein was not cytotoxic and did not inhibit cell proliferation as determined by MTS assay. Finally, we demonstrated the C2IN-Stv13/C2IIa-mediated uptake of biocytin-Alexa 488 as cargo into HeLa cells, underscoring the functionality of the generated transport system.