Cattle are reservoirs of enterohemorrhagic Escherichia coli; however, their role in the epidemiology of other pathogenic E. coli remains undefined. A new set of quantitative real-time PCR assays for the direct detection and quantification of nine virulence-associated genes (VAGs) characteristic of the most important human E. coli pathotypes and four serotype-related genes (wzx O104 ,fliC H4 , rbf O157 , fliC H7 ) that can be used as a surveillance tool for detection of pathogenic strains was developed. A total of 970 cattle fecal samples were collected in slaughterhouses in Germany and Spain, pooled into 134 samples and analyzed with this tool. stx1, eae and invA were more prevalent in Spanish samples whereas bfpA, stx2, ehxA, elt, est and the rbf O157 /fliC H7 combination were observed in similar proportions in both countries. Genes characteristic of the hybrid O104:H4 strain of the 2011 German outbreak (stx2/aggR/wzx O104 / fliC H4 ) were simultaneously detected in six fecal pools from one German abattoir located near the outbreak epicenter. Although no isolate harboring the full stx2/aggR/wzx O104 /fliC H4 combination was cultured, sequencing of the aggR positive PCR products revealed 100% homology to the aggR from the outbreak strain. Concomitant detection by this direct approach of VAGs from a novel human pathogenic E. coli strain in cattle samples implies that the E. coli gene pool in these animals can be implicated in de novo formation of such highly-virulent strains. The application of this set of qPCRs in surveillance studies could be an efficient early-warning tool for the emergence of zoonotic E. coli in livestock.
Experimental findings support the hypothesis that within the functional network of the bone marrow (BM) microenvironment the endothelial cells (ECs) exert a pivotal role as gatekeepers by controlling the trafficking and homing of progenitor cells. However, little information is available concerning the origin of ECs after allogeneic bone marrow transplantation (BMT) in CML. To determine the extent of mixed chimerism (MCh) a simultaneous immunohistochemical and fluorescence in-situ hybridization (FISH) study was performed on BM biopsies derived from patients following sex-mismatched BMT with full unmanipulated BM. ECs were identified by their staining with CD34 and the myofibroblasts (MFs) of large vessels were labeled by an antibody against alpha-smooth muscle actin. For sex-typing and demonstration of the bcr/abl fusion product appropriate commercially available probes and detection systems were applied. Contrasting a total congruence of labeling in control samples five patients showed donor type ECs in the early posttransplant period in about 20%. In the remaining four patients the amount of donor type ECs increased slightly after the third month up to 30%. A total of 26 MFs could be identified lining large capillaries and arterioles that exclusively revealed a host origin. Following successful engraftment only very few of the persistent host-derived ECs also displayed the bcr/abl gene. In five patients, a conversion of MCh from donor to host type ECs was recognizable during the evolution of leukemic relapse. This finding was accompanied by a bcr/abl rearrangement of about 10% of these cells. In conclusion, following myelo-ablative therapy, a survival of a considerable number of ECs and MFs of the vessel walls has been found implying persistence of host-derived vascular structures of the BM stroma. However, in only a small proportion bcr/abl+ ECs and thus minimal residual disease was detectable. Evolution of leukemic relapse was characterized by conversion of MCh with almost total loss of donor type ECs and increase in number of bcr/abl+ ECs.
In 2011, a severe outbreak of hemolytic-uremic syndrome was caused by an unusual, highly virulent enterohemorrhagic E. coli (EHEC) O104:H4 strain, which possessed EHEC virulence traits in the genetic background of human-adapted enteroaggregative E. coli. To determine magnitude of fecal shedding and site of colonization of EHEC O104:H4 in a livestock host, 30 (ten/strain) weaned calves were inoculated with 1010 CFU of EHEC O104:H4, EHEC O157:H7 (positive control) or E. coli strain 123 (negative control) and necropsied (4 or 28 d.p.i.). E. coli O157:H7 was recovered until 28 d.p.i. and O104:H4 until 24 d.p.i. At 4 d.p.i., EHEC O104:H4 was isolated from intestinal content and detected associated with the intestinal mucosa. These results are the first evidence that cattle, the most important EHEC reservoir, can also carry unusual EHEC strains at least transiently, questioning our current understanding of the molecular basis of host adaptation of this important E. coli pathovar.
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