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1.
Antibiotics (Basel) ; 12(11)2023 Nov 08.
Article in English | MEDLINE | ID: mdl-37998804

ABSTRACT

The emergence of extended-spectrum cephalosporin (ESC)-resistant Escherichia coli is a global concern. This study aimed to assess the prevalence and transmission of ESC-resistant E. coli in the Danish broiler production system. Samples from two vertically integrated Production Systems (1 and 2) and two slaughterhouses (A and B) were analyzed (n = 943) for the occurrence of ESC-resistant E. coli from 2015 to 2018. ESC-resistant E. coli isolates were whole-genome sequenced (WGS) for characterization of the multi-locus sequence type (MLST), antibiotic resistance genes, virulence genes, and plasmid replicon types. An ad hoc core genome (cg) MLST based on 2513 alleles was used to examine the genetic relatedness among isolates. The prevalence of ESC-resistant E. coli in the conventional Production System 1 was 2.7%, while in Production System 2 the prevalence was 26.7% and 56.5% for samples from the conventional and organic production, respectively. The overall prevalence of ESC-resistant E. coli in broiler thigh and fecal samples ranged from 19.3% in Slaughterhouse A to 22.4% in Slaughterhouse B. In total, 162 ESC-resistant E. coli were isolated and shown to belong to 16 different sequence types (STs). The most prevalent STs were ST2040 (n = 85) and ST429 (n = 22). Seven ESC resistance genes were detected: blaCMY-2 (n = 119), blaTEM-52B (n = 16), blaCTX-M-1 (n = 5), blaTEM-52C (n = 3), blaCTX-M-14 (n = 1), blaSHV-12 (n = 1), and up-regulation of ampC (n = 16), with an unknown resistance gene in one isolate (n = 1). The carriage of blaCMY-2 in 119 isolates was primarily associated with IncI1 (n = 87), and IncK plasmids (n = 31). Highly similar blaCMY-2 carrying E. coli isolates from ST429 were found in production systems as well as in slaughterhouses. In conclusion, findings from this study indicate that ESC-resistant E. coli are transferred vertically from farms in the production systems to slaughterhouses with the potential to enter the food supply.

2.
Methods Mol Biol ; 1512: 19-28, 2017.
Article in English | MEDLINE | ID: mdl-27885595

ABSTRACT

Here, we describe the methods for isolation, purification, and propagation of Campylobacter jejuni bacteriophages from samples expected to contain high number of phages such as chicken feces. The overall steps are (1) liberation of phages from the sample material; (2) observation of plaque-forming units on C. jejuni lawns using a spot assay; (3) isolation of single plaques; (4) consecutive purification procedures; and (5) propagation of purified phages from a plate lysate to prepare master stocks.


Subject(s)
Bacteriophages/isolation & purification , Campylobacter Infections/veterinary , Campylobacter jejuni/virology , Chickens/microbiology , Poultry Diseases/microbiology , Viral Plaque Assay , Agar/chemistry , Animals , Bacteriophages/growth & development , Campylobacter Infections/microbiology , Campylobacter jejuni/growth & development , Campylobacter jejuni/isolation & purification , Culture Media/chemistry , Feces/microbiology
3.
PLoS One ; 10(1): e0116287, 2015.
Article in English | MEDLINE | ID: mdl-25585385

ABSTRACT

In this study we isolated novel bacteriophages, infecting the zoonotic bacterium Campylobacter jejuni. These phages may be used in phage therapy of C. jejuni colonized poultry to prevent spreading of the bacteria to meat products causing disease in humans. Many C. jejuni phages have been isolated using NCTC12662 as the indicator strain, which may have biased the selection of phages. A large group of C. jejuni phages rely on the highly diverse capsular polysaccharide (CPS) for infection and recent work identified the O-methyl phosphoramidate modification (MeOPN) of CPS as a phage receptor. We therefore chose seven C. jejuni strains each expressing different CPS structures as indicator strains in a large screening for phages in samples collected from free-range poultry farms. Forty-three phages were isolated using C. jejuni NCTC12658, NCTC12662 and RM1221 as host strains and 20 distinct phages were identified based on host range analysis and genome restriction profiles. Most phages were isolated using C. jejuni strains NCTC12662 and RM1221 and interestingly phage genome size (140 kb vs. 190 kb), host range and morphological appearance correlated with the isolation strain. Thus, according to C. jejuni phage grouping, NCTC12662 and NCTC12658 selected for CP81-type phages, while RM1221 selected for CP220-type phages. Furthermore, using acapsular ∆kpsM mutants we demonstrated that phages isolated on NCTC12658 and NCTC12662 were dependent on the capsule for infection. In contrast, CP220-type phages isolated on RM1221 were unable to infect non-motile ∆motA mutants, hence requiring motility for successful infection. Hence, the primary phage isolation strain determines both phage type (CP81 or CP220) as well as receptors (CPS or flagella) recognised by the isolated phages.


Subject(s)
Bacteriophages/isolation & purification , Campylobacter Infections/microbiology , Campylobacter jejuni/isolation & purification , Animals , Chickens , Flagella , Humans
4.
BMC Microbiol ; 12: 174, 2012 Aug 13.
Article in English | MEDLINE | ID: mdl-22889088

ABSTRACT

BACKGROUND: During the transmission route from poultry to the human host, the major foodborne pathogen C. jejuni may experience many types of stresses, including low pH caused by different acids. However, not all strains are equally sensitive to the stresses. The aim of this study was to investigate the response to acid stress of three sequenced C. jejuni strains with different acid tolerances using HCl and acetic acid. RESULTS: Two-dimensional gel electrophoresis was used for proteomic analysis and proteins were radioactively labelled with methionine to identify proteins only related to acid exposure. To allow added radioactive methionine to be incorporated into induced proteins, a modified chemically defined broth was developed with the minimal amount of methionine necessary for satisfactory growth of all strains. Protein spots were analyzed using image software and identification was done with MALDI-TOF-TOF. The most acid-sensitive isolate was C. jejuni 327, followed by NCTC 11168 and isolate 305 as the most tolerant. Overall, induction of five proteins was observed within the pI range investigated: 19 kDa periplasmic protein (p19), thioredoxin-disulfide (TrxB), a hypothetical protein Cj0706 (Cj0706), molybdenum cofactor biosynthesis protein (MogA), and bacterioferritin (Dps). Strain and acid type dependent differences in the level of response were observed. For strain NCTC 11168, the induced proteins and the regulator fur were analysed at the transcriptomic level using qRT-PCR. In this transcriptomic analysis, only up-regulation of trxB and p19 was observed. CONCLUSIONS: A defined medium that supports the growth of a range of Campylobacter strains and suitable for proteomic analysis was developed. Mainly proteins normally involved in iron control and oxidative stress defence were induced during acid stress of C. jejuni. Both strain and acid type affected sensitivity and response.


Subject(s)
Acetic Acid/toxicity , Bacterial Proteins/biosynthesis , Campylobacter jejuni/drug effects , Campylobacter jejuni/physiology , Drug Tolerance , Hydrochloric Acid/toxicity , Stress, Physiological , Campylobacter jejuni/chemistry , Campylobacter jejuni/growth & development , Culture Media/chemistry , Electrophoresis, Gel, Two-Dimensional , Isotope Labeling/methods , Methionine/metabolism , Proteome/analysis , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
5.
J Food Prot ; 75(3): 456-64, 2012 Mar.
Article in English | MEDLINE | ID: mdl-22410218

ABSTRACT

The spread of epidemically successful nontyphoidal Salmonella clones has been suggested as the most important cause of salmonellosis in industrialized countries. Factors leading to the emergence of success clones are largely unknown, but their ability to survive and grow after physical stress may contribute. During epidemiological studies, a mathematical model was developed that allowed estimation of a factor (q) accounting for the relative ability of Salmonella serovars with different antimicrobial resistances to survive in the food chain and cause human disease. Based on this q-factor, 26 Salmonella isolates were characterized as successful or nonsuccessful. We studied the survival and growth of stationary- and exponential-phase cells of these isolates after freezing for up to 336 days in minced meat. We also investigated survival and growth after dehydration at 10°C and 82% relative humidity (RH) and 25°C and 49% RH for 112 days. Stationary-phase cells were reduced by less than 1 log unit during 1 year of freezing, and growth was initiated with an average lag phase of 1.7 h. Survival was lower in exponentialphase cells, but lag phases tended to be shorter. High humidity and low temperature were less harmful to Salmonella than were low humidity and high temperature. Tolerance to adverse conditions was highest for Salmonella Infantis and one Salmonella Typhimurium U292 isolate and lowest for Salmonella Derby and one Salmonella Typhimurium DT170 isolate. Dehydration, in contrast to freezing, was differently tolerated by the Salmonella strains in this study, but tolerance to freezing and dehydration does not appear to contribute to the emergence of successful Salmonella clones.


Subject(s)
Desiccation , Food Contamination/prevention & control , Freezing , Meat Products/microbiology , Salmonella enterica/growth & development , Colony Count, Microbial , Food Microbiology , Food Preservation/methods , Humans , Kinetics , Microbial Viability , Salmonella Food Poisoning/prevention & control
6.
J Food Prot ; 75(2): 353-8, 2012 Feb.
Article in English | MEDLINE | ID: mdl-22289597

ABSTRACT

The pH of the human stomach is dynamic and changes over time, depending on the composition of the food ingested and a number of host-related factors such as age. To evaluate the number of bacteria surviving the gastric acid barrier, we have developed a simple gastric acid model, in which we mimicked the dynamic pH changes in the human stomach. In the present study, model gastric fluid was set up to imitate pH dynamics in the stomachs of young and elderly people after ingestion of a standard meal. To model a serious foodborne pathogen, we followed the survival of Salmonella enterica serotype Dublin, and found that the addition of proteins such as pepsin, ovalbumin, and blended turkey meat to the simple gastric acid model significantly delayed pathogen inactivation compared with the control, for which no proteins were added. In contrast, no delay in inactivation was observed in the presence of bovine serum albumin, indicating that protection could be protein specific. The simple gastric acid model was validated against a more laborious and complex fermenter model, and similar survival of Salmonella Dublin was observed in both models. Our gastric acid model allowed us to evaluate the influence of food components on survival of pathogens under gastric conditions, and the model could contribute to a broader understanding of the impact of specific food components on the inactivation of pathogens during gastric passage.


Subject(s)
Dietary Proteins/metabolism , Gastric Acid/chemistry , Models, Biological , Poultry Products/microbiology , Salmonella enterica/physiology , Serum Albumin, Bovine/metabolism , Animals , Cattle , Dietary Proteins/classification , Food Microbiology , Gastrointestinal Transit , Humans , Hydrogen-Ion Concentration , Kinetics , Microbial Viability , Salmonella enterica/drug effects , Salmonella enterica/metabolism , Stomach/microbiology
7.
J Food Prot ; 73(2): 258-65, 2010 Feb.
Article in English | MEDLINE | ID: mdl-20132670

ABSTRACT

The aim of this study was to determine whether marination of chicken meat in different food ingredients can be used to reduce populations of Campylobacter jejuni. C. jejuni strains were exposed to different organic acids (tartaric, acetic, lactic, malic, and citric acids) and food marinating ingredients at 4 degrees C in broth and on chicken meat. The organic acids (0.5%) reduced populations of C. jejuni in broth (chicken juice and brain heart infusion broth) by 4 to 6 log units (after 24 h); tartaric acid was the most efficient treatment. Large strain variation was observed among 14 C. jejuni isolates inoculated in brain heart infusion broth containing 0.3% tartaric acid. On chicken meat medallions, reductions of C. jejuni were 0.5 to 2 log units when tartaric acid solutions (2, 4, 6, and 10%) were spread onto the meat. Analysis of acidic food ingredient (e.g., vinegar, lemon juice, pomegranate syrup, and soya sauce) revealed that such ingredients reduced counts of C. jejuni by at least 0.8 log units on meat medallions. Three low pH marinades (pH < 3) based on pomegranate syrup, lemon juice, and white wine vinegar were prepared. When applied to whole filets, these marinades resulted in a reduction of approximately 1.2 log units after 3 days of storage. Taste evaluations of chicken meat that had been marinated and then fried were graded positively for flavor and texture. Thus, success was achieved in creating a marinade with an acceptable taste that reduced the counts of C. jejuni.


Subject(s)
Acids/pharmacology , Anti-Infective Agents, Local/pharmacology , Campylobacter jejuni/drug effects , Food Preservation/methods , Meat/microbiology , Animals , Campylobacter jejuni/growth & development , Chickens , Colony Count, Microbial , Consumer Product Safety , Dose-Response Relationship, Drug , Food Contamination/analysis , Food Contamination/prevention & control , Food Microbiology , Humans , Hydrogen-Ion Concentration , Microbial Sensitivity Tests , Refrigeration , Skin/microbiology , Time Factors
8.
J Food Prot ; 72(3): 549-55, 2009 Mar.
Article in English | MEDLINE | ID: mdl-19343943

ABSTRACT

The aim of this study was to test the effect of ultrasound, red wine, and yogurt marination on Brochotrix thermosphacta, Carnobacterium maltaromaticum, Listeria monocytogenes, and Campylobacter jejuni on pork meat. Two different marination procedures of the pork medallions were tested: (i) submersion of meat medallions in red wine during the entire experiment and (ii) vacuum packaging of meat medallions after different forms of marination. In the submersion procedure, the meat was either submerged in 42 degrees C red wine for 15 min prior to storage at 4 degrees C or submerged in 4 degrees C red wine during the entire experiment. In the vacuum procedure, the meat was either submerged in 4 degrees C red wine for 4 h or submerged in 42 degrees C red wine for 15 min prior to vacuum packaging and storage at 4 degrees C. The most efficient antimicrobial procedure was submersion of the pork meat in 42 degrees C red wine for 15 min and subsequent storage at 4 degrees C, still submerged in red wine. After 3 days, C. maltaromaticum, L. monocytogenes, B. thermosphacta, and C. jejuni were reduced approximately 1.5, 2, 3, and 6 log, respectively. The remarkable acid sensitivity of C. jejuni compared with the other bacteria was confirmed in an experiment with yogurt as a marinade. Ultrasound treatment in combination with red wine enhanced the antibacterial effect compared with ultrasound alone for L. monocytogenes, B. thermosphacta, and C. jejuni and resulted in approximately a 1-log reduction after 10 min. This synergistic effect of ultrasound and red wine was not observed for C. maltaromaticum.


Subject(s)
Campylobacter jejuni/growth & development , Food Contamination/analysis , Food Handling , Food Preservation/methods , Lactobacillus/growth & development , Listeria monocytogenes/growth & development , Meat Products/microbiology , Animals , Colony Count, Microbial , Consumer Product Safety , Food Contamination/prevention & control , Food Handling/instrumentation , Food Handling/methods , Sonication/instrumentation , Swine , Temperature , Time Factors , Vacuum , Wine/microbiology , Yogurt/microbiology
9.
J Food Prot ; 69(11): 2635-9, 2006 Nov.
Article in English | MEDLINE | ID: mdl-17133806

ABSTRACT

The survival of Campylobacter jejuni NCTC 11168 was tested at freezing conditions (-18 degrees C) over a period of 32 days in two food models that simulated either (i) the chicken skin surface (skin model) or (ii) the chicken juice in and around a broiler carcass (liquid model). In the skin model, cells were suspended in chicken juice or brain heart infusion broth (BHIB) and added to 4-cm2 skin pieces, which were subsequently stored at -18 degrees C. In the liquid model, cells were suspended in chicken juice or BHIB and stored at -18 degrees C. The decrease in the number of viable C. jejuni NCTC 11168 cells was slower when suspended in chicken juice than in BHIB. After freezing for 32 days, the reductions in the cell counts were 1.5 log CFU/ml in chicken juice and 3.5 log CFU/ml in BHIB. After the same time of freezing but when inoculated onto chicken skin, C. jejuni NCTC 11168 was reduced by 2.2 log units when inoculated in chicken juice and 3.2 log units when inoculated into BHIB. For both models, the major decrease occurred within the first 24 h of freezing. The results obtained in the liquid model with chicken juice were comparable to the reductions of Campylobacter observed for commercially processed chickens. The survival at -18 degrees C in the liquid model was also tested for three poultry isolates and three human clinical isolates of the serotypes 1.44, 2, and 4 complex. As observed for C. jejuni NCTC 11168, all the strains survived significantly better in chicken juice than in BHIB and were not notably influenced by serotype or origin. The findings indicate that the composition of the medium around the bacteria, rather than the chicken skin surface, is the major determining factor for the survival of C. jejuni at freezing conditions. The liquid model with chicken juice was therefore the best model system to study the freezing tolerance in Campylobacter strains.


Subject(s)
Campylobacter jejuni/growth & development , Chickens/microbiology , Food Microbiology , Food Preservation/methods , Freezing , Animals , Colony Count, Microbial , Food Contamination/analysis , Food Handling , Humans , Models, Biological , Skin/microbiology , Time Factors
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