Stefanie A. Barth scite author profile

Pretreatment with the probiotic Escherichia colistrain Nissle 1917 (EcN) was assessed in a pig model of intestinal infection to prevent acute secretory diarrhea. In the model 10(10) colony forming units of the porcine enterotoxigenic Escherichia coli Abbotstown (EcA) was given via orogastric tube to weaned piglets at day 21 postpartum (-EcN/+EcA group, n = 7). Forty-eight hours after challenge electrophysiological parameters of isolated intact jejunal epithelia were characterized in Ussing chambers. In agreement with clinical signs of diarrhea, tissues of challenged animals showed an overshoot of secretory response after stimulation of the cAMP-mediated second messenger pathway by forskolin, indicating higher excitability of chloride secretory systems under infected conditions. The data were compared with respective measurements from animals that got a daily dose of 10(10) cfu of the probiotic EcN over 10 days before EcA challenge (+EcN/+EcA group; n = 4), from a group that received only EcN (+EcN/-EcA; n = 4), or from a group that remained totally untreated (-EcN/-EcA; n = 6). EcN pretreatment completely abolished clinical signs of secretory diarrhea in +EcN/+EcA animals. Furthermore, jejunum epithelia of these animals did not exhibit an overshoot of secretory response upon stimulation with forskolin. Our studies demonstrate for the first time the efficacy of prophylactic EcN in pig small intestine for preventing an effect of toxigenic EcA. This infection model with freshly weaned piglets may be predestinated to further characterize EcN effects on the cellular level, i.e., involved second messenger pathways, or it may also be useful to examine the efficacy of other substrates or microbe strains against secretory stimuli.

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Analysis of Multiple Brachyspira hyodysenteriae Genomes Confirms That the Species Is Relatively Conserved but Has Potentially Important Strain Variation

Black

Moolhuijzen

Barrero

et al. 2015

PLoS ONE

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The intestinal spirochete Brachyspira hyodysenteriae is an important pathogen in swine, causing mucohemorrhagic colitis in a disease known as swine dysentery. Based on the detection of significant linkage disequilibrium in multilocus sequence data, the species is considered to be clonal. An analysis of the genome sequence of Western Australian B. hyodysenteriae strain WA1 has been published, and in the current study 19 further strains from countries around the world were sequenced with Illumina technology. The genomes were assembled and aligned to over 97.5% of the reference WA1 genome at a percentage sequence identity better than 80%. Strain regions not aligned to the reference ranged between 0.2 and 2.5%. Clustering of the strain genes found on average 2,354 (88%) core genes, 255 (8.6%) ancillary genes and 77 (2.9%) unique genes per strain. Depending on the strain the proportion of genes with 100% sequence identity to WA1 ranged from 85% to 20%. The result is a global comparative genomic analysis of B. hyodysenteriae genomes revealing potential differential phenotypic markers for numerous strains. Despite the differences found, the genomes were less varied than those of the related pathogenic species Brachyspira pilosicoli, and the analysis supports the clonal nature of the species. From this study, a public genome resource has been created that will serve as a repository for further genetic and phenotypic studies of these important porcine bacteria. This is the first intra-species B. hyodysenteriae comparative genomic analysis.

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The Accessory Genome of Shiga Toxin-Producing Escherichia coli Defines a Persistent Colonization Type in Cattle

Barth

Menge

Eichhorn

et al. 2016

Appl Environ Microbiol

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Shiga toxin-producing Escherichia coli (STEC) strains can colonize cattle for several months and may, thus, serve as gene reservoirs for the genesis of highly virulent zoonotic enterohemorrhagic E. coli (EHEC). Attempts to reduce the human risk for acquiring EHEC infections should include strategies to control such STEC strains persisting in cattle. We therefore aimed to identify genetic patterns associated with the STEC colonization type in the bovine host. IMPORTANCERuminants, especially cattle, are sources of food-borne infections by Shiga toxin-producing Escherichia coli (STEC) in humans. Some STEC strains persist in cattle for longer periods of time, while others are detected only sporadically. Persisting strains can serve as gene reservoirs that supply E. coli with virulence factors, thereby generating new outbreak strains. Attempts to reduce the human risk for acquiring STEC infections should therefore include strategies to control such persisting STEC strains. By analyzing representative genes of their core and accessory genomes, we show that bovine STEC with a persistent colonization type emerged independently from sporadically colonizing isolates and evolved in parallel evolutionary branches. However, persistent colonizing strains share similar sets of accessory genes. Defining the genetic patterns that distinguish persistent from sporadically colonizing STEC isolates will facilitate the targeted design of new intervention strategies to counteract these zoonotic pathogens at the farm level.

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Escherichia coliNissle 1917 for probiotic use in piglets: evidence for intestinal colonization

Barth

Duncker²,

Hempe³

et al. 2009

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Aims: This study was prompted to investigate the intestinal localization and colonization of orally administered Escherichia coli Nissle 1917 (EcN) in piglets. Methods and Results: EcN was fed to ten EcN‐negative piglets (3 months) over seven consecutive days. Faecal samples were collected repeatedly and tested for EcN‐DNA by a combined culture/PCR assay and for viable EcN by culture methods, respectively. EcN‐DNA was detectable in faeces of all piglets within the first 24 h after it was added to the feed. After the administration of EcN had been stopped, the presence of EcN‐DNA in faecal samples indicated that all piglets shedded EcN with their faeces intermittently through up to 33 days. In addition, E. coli strains indistinguishable from EcN by all markers tested (rdar colony morphotype, multiplex PCR and GEI II‐PCR analyses, XbaI‐pattern, K5 phage susceptibility) were isolated from faecal samples and from mucosal swabs taken at euthanasia at the end of the experiment. Conclusions: EcN colonizes the intestine and persists in conventionally reared piglets for at least 4 weeks upon oral administration. Significance and Impact of the Study: Results of this study have implications for efficacy and safety assessments of EcN as a probiotic strain for use in pigs.

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Demonstration of genes encoding virulence and virulence life-style factors in Brachyspira spp. isolates from pigs

Barth

Gömmel

Baljer

et al. 2012

Veterinary Microbiology

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Stefanie A. Barth

Preventive Effects of the Probiotic Escherichia coli Strain Nissle 1917 on Acute Secretory Diarrhea in a Pig Model of Intestinal Infection

Analysis of Multiple Brachyspira hyodysenteriae Genomes Confirms That the Species Is Relatively Conserved but Has Potentially Important Strain Variation

The Accessory Genome of Shiga Toxin-Producing Escherichia coli Defines a Persistent Colonization Type in Cattle

Escherichia coliNissle 1917 for probiotic use in piglets: evidence for intestinal colonization

Demonstration of genes encoding virulence and virulence life-style factors in Brachyspira spp. isolates from pigs

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