Comportamento de Escherichia coli enterohemorrágica O157:H7 frente a bactérias autóclones em carne bovina móida. / Influence of bacteria from natural microflora over behaviour of Escherichia coli O157:H7 in ground beef

Susana Marta Isay Saad

26 September 1997

E. coli O157:H7 é um patógeno de importância em alimentos, tendo sido envolvido, nos últimos anos, em surtos de grandes proporções, principalmente por produtos cárneos. Entretanto sua ocorrência em alimentos, particularmente em carne crua, é baixa e poderia, eventualmente, ser atribuída à atividade antagônica expressa por outros microrganismos presentes. Assim sendo, foi avaliada a interferência de bactérias que fazem parte da microbiota normal de carne sobre a multiplicação de E. coli O157:H7 em carne bovina moída mantida em refrigeração e em temperatura ambiente. Com essa finalidade, foram realizados testes de desafio (\"challenge tests\") em porções de 25 g de carne bovina moída inoculadas com diferentes concentrações de E. coli O157:H7 (101, 103 e 106 CFC/g), desafiadas com diferentes inóculos de E. coli não patogênica, Pseudomonas putida e Leuconostoc spp. As cepas de Pseudamonas putida e de Leuconostoc spp., isoladas de carne, foram selecionadas em função de atividade inibitória contra E. calí O157:H7 observada \"in vitro\". Para o monitoramento de E. coli O157:H7, foram utilizados o método convencional, ou seja, plaqueamento em ágar Mac Conkey-sorbitol e identificação de colônias (testes bioquímicos e sorológicos), bem como um método considerado rápido, empregando o Petrifilm™ Kit-HEC. De maneira geral, não foram observadas interferências significativas da presença de diferentes inóculos de E. coli não patogênica, P. putida e Leuconostoc spp., sobre a multiplicação de diferentes inóculos de E. coli O157:H7 à temperatura ambiente e à temperatura de refrigeração. Paralelamente, o Petrifilm™ Kit-HEC revelou um alto índice de correlação com o ágar Mac Conkey-sorbitol (97,2%), com contagens da mesma ordem de grandeza. Os experimentos à temperatura ambiente revelaram um maior índice de correlação (99,0%), quando comparados àqueles à temperatura de refrigeração (94,9%). Aparentemente, a baixa ocorrência de E. coli O157:H7 em alimentos, particularmente em carne bovina crua, não pode ser atribuída à atividade antagônica de alguns microrganismos presentes. / Escherichia coli O157:H7 is a foodborne pathogen of increasing importance, since it has been involved in several threatening outbreaks, most of them associated with meat products. Though, it is possible that the low occurrence af E. coli O157:H7 in food, particularly in meat, may be due to antagonistic effects af other microorganisms present. Therefore, the influence of some bacteria isolated from meat, over E. coli O157:H7 in meat samples stored at chill and room temperatures was evaluated. For that purpose, studies were performed on 25 g of ground beef inoculated with different spiking levels of E. coli O157:H7 (101, 103 and 106 CFC/g), challenged with different spiking levels of non pathogenic E. coli, Pseudomonas putida or Leuconostoc spp. The Ps. putida and Leuconostoc spp. strains were selected based on deferred antagonism observed against E. coli O157:H7. Multiplication was monitored by means of cultural methods, employing sorbitol Mac Conkey agar and additional identification tests, and the rapid method Petrifilm™ Kit-HEC. No significant influence of non pathogenic E. coli, Pseudomonas putida and Leuconostoc spp. over the multiplication of E. coli O157:H7 was observed. Results on Petrifilm™ Kit-HEC showed high correlation with results on sorbitol Mac Conkey agar (97,2%). Experiments performed with meat kept at room temperatures resulted in higher correlation values (99,0%), when compared to those of meat kept at chill temperatures (94,9%). Apparently, the low occurrence of E. coli O157:H7 in food, particularly in raw meat, can\'t be attributed to antagonistic effects of other bacteria from natural microflora.

Antagonismo

Carne bovina

EHEC

Escherichia coli O15:H7

Patógeno

Antagonism

Beef

EHEC

Escherichia coli O157:H7

Meat

Pathogen

Qualidade microbiológica e pesquisa de Escherichia coli produtora de toxina shiga (STEC) na cadeia produtiva do leite

Lopes, Patricia Regina Kraschinski

14 March 2017

Submitted by Biblioteca da Faculdade de Farmácia (bff@ndc.uff.br) on 2017-03-14T17:16:12Z No. of bitstreams: 1 Lopes, Patricia Regina Kraschinski [Dissertação, 2016].pdf: 1353027 bytes, checksum: d3bd0a8823abd0576a16231891f91a13 (MD5) / Made available in DSpace on 2017-03-14T17:16:12Z (GMT). No. of bitstreams: 1 Lopes, Patricia Regina Kraschinski [Dissertação, 2016].pdf: 1353027 bytes, checksum: d3bd0a8823abd0576a16231891f91a13 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O objetivo deste estudo foi avaliar a qualidade microbiológica do leite bovino em diferentes etapas da cadeia produtiva de uma cooperativa de leite do Estado do Rio de Janeiro, e investigar a presença de STEC e STEC O157 no leite e nas fezes dos animais ordenhados. Foram coletadas 100 amostras de leite nas diferentes etapas da cadeia produtiva, sendo 54 amostras do galão de cada propriedade rural, 25 amostras de leite do tanque de refrigeração comunitário, 14 amostras dos carros-tanque isotérmicos e 7 amostras do tanque de resfriamento da indústria bem como 10 amostras de leite pasteurizado. Foram também avaliadas 63 amostras de swab retal do animal ordenhado e 35 amostras de leite recém ordenhado. Para conferir a eficiência da pasteurização foram realizados os testes de peroxidase e fosfatase alcalina. A maioria das amostras (75,9%) de leite cru coletadas nos galões dos produtores apresentou condições microbiológicas satisfatórias, contagem bacteriana total (CBT) < 5,5 log UFC/mL. No entanto, 72% das amostras de leite coletadas no tanque de refrigeração comunitário, 100% das amostras coletadas nos carros-tanque isotérmicos e 100% das amostras coletadas nos tanques de refrigeração da indústria apresentaram condições microbiológicas insatisfatórias. Todas as amostras de leite pasteurizado foram aprovadas quanto a CBT, além de apresentarem a enzina peroxidase ativa e a enzima fosfatase alcalina inativa. No entanto, 80% destas amostras foram classificadas em condições microbiológicas insatisfatórias por apresentarem coliformes totais e E. coli acima dos padrões estabelecidos pela legislação brasileira. Das 100 amostras de leite cru analisadas, 65 apresentaram o gene stx, sendo 33 (61,1%) amostras do galão do produtor, 13 (52%) amostras do tanque de refrigeração comunitário, 14 (100%) amostras dos carros-tanque isotérmicos e cinco (71,4%) amostras dos tanques de resfriamento da indústria. Cinquenta e seis (88,9%) amostras fecais e 17 (48,6%) amostras de leite recém-ordenhado apresentaram o gene stx. Com exceção de uma amostra, todas as amostras de leite recém ordenhado provinham de um animal carreador do gene stx. Foram isolados STEC O157:H7 em 11,9% das amostras de fezes bovinas stxpositivas. Todas as cepas STEC O157:H7 isoladas apresentaram os genes stx2c, eae , tir , espA , espB , ler, iha, astA, EHEC-hlyA e espP. A qualidade microbiológica dos produtos lácteos está diretamente relacionada à qualidade da matéria-prima, com isso, é necessário a adequação dos produtores rurais quanto à implementação de Boas Práticas Agropecuárias, além da implementação das Boas Práticas de Fabricação pela indústria de laticínios / The aim of this study was to evaluate the microbiological quality of cow's milk in different stages of the production chain of a cooperative state milk Rio de Janeiro, and to investigate the presence of STEC and STEC O157 on themilk and the faeces of milked animals. 100 milk samples at different stages of the production chain were collected, 54 samples of a gallon of each rural property, 25 milk samples of Community coolant tank, 14 samples of insulated tank cars and 7 samples of the industrial cooling tank; and 10 samples of pasteurized milk. It was also evaluated 63 samples of rectal swab of milking animals and 35 sample of freshly milked milk. To check the effectiveness of the pasteurization tests peroxidase and alkaline phosphatase were performed. The majority of samples (75.9%) of raw milk collected in gallons producers had satisfactory microbiological conditions, total bacterial count (TBC) < 5.5 log CFU/mL. However, 72% of milk samples collected in the Community coolant tank, 100% of the samples collected in the isothermal tank cars and 100% of the samples collected in the industrial cooling tanks had unsatisfactory microbiological conditions. All (100%) samples of pasteurized milk were approved as the TBC, besides having the peroxidase enzyme is of not presenting the enzyme alkaline phosphatase. However, 80% of these samples were classified as unsatisfactory microbiological conditions for presenting total coliforms and E. coli above the standards set by law. Of 100 raw milk samples analyzed, 65 showed the stx gene, 33 (61.1%) of the producer gallon, 13 (52%) of the community coolant tank, 14 (100%) of the isothermal tank cars and five (71.4%) of cooling tanks industry. Fifty-six (88.9%) and 17 faecal samples (48.6%) of freshly milked milk samples showed the stx gene. With the exception of one sample, all milk samples freshly milked, came from a carrier animal stx gene. They were isolated STEC O157: H7 in 11.9% of samples stx-positive cattle dung. All strains STEC O157: H7 isolated genes showed stx2c, eae , tir , espA , espB , read, iha, astA, EHEC-hlyA and espP. The microbiological quality of dairy products is directly related to the quality of the raw material, thus, the adequacy of farmers as the implementation of Best Practices of Agricultural is required in addition to the implementation of Good Manufacturing Practices by the dairy industry

Contaminação do leite

Produção intelectual

Qualidade microbiológica

STEC O157:H7

Escherichia coli

Microbiological quality

Supply chain

Raw milk

Pasteurized milk

Implication des gènes curli dans un phénotype distinct d'autoagrégation et de formation de biofilm chez certaines souches Escherichia coli O157: H7

Rodriguez Olivera, Yaindrys

12 1900

Les bactéries pathogènes Escherichia coli entérohémorrhagiques (EHEC) O157:H7 causent des toxi-infections sévères chez l’humain. Les biofilms des EHEC rendent difficile leur contrôle dans les environnements favorisant leur persistance. Certaines souches O157:H7 dont celle de référence Sakai, possèdent une capacité accrue à s'autoagréger et former des biofilms. L’étude a visé à identifier les gènes impliqués dans l’autoagrégation et la formation de biofilm chez la souche Sakai, et vérifier l’association des facteurs identifiés avec d’autres EHEC O157:H7 du même phénotype. Avec une banque de mutants Tn10 de la souche Sakai, des mutants non-autoagglutinants et non-formateurs de biofilms des gènes csgB et csgG furent sélectionnés et caractérisés. Ces mutants formaient significativement moins de biofilms et d´autoagrégats que Sakai, et ne produisaient plus curli. La complémentation des mutants restaurait le phénotype sauvage. De plus, des gènes responsables de la biogenèse de curli csgA, csgB et csgG étaient significativement surexprimés chez Sakai, comparativement avec la souche EDL933 non-autoagglutinant, qui forme moins de biofilm. Parmi les souches d’E. coli 0157:H7 on distingue deux groupes d’isolats: Sakai-like et EDL933-like selon leur production de curli, et leur capacité à former des autoagrégats et biofilms. Nos résultats suggèrent qu’une surproduction de fibres de curli dans un sous-ensemble de souches O157:H7 pourrait être responsable de leur phénotype particulier d'autoagrégation et de formation de biofilms forts. Le projet permet de mieux cerner le mécanisme de formation de biofilm dans EHEC et renforce l’hypothèse que le curli est une cible intéressante pour contrer la persistance des EHEC en environnements naturels et industriels. / Enterohemorrhagic E. coli (EHEC) O157:H7 is an important foodborne pathogen that causes severe toxi-infections in humans. These bacteria have a higher capacity to form biofilm, impeding the control of the contamination in different environments and allowing their persistence. Some E. coli O157:H7 strains, including the Sakai reference strain, display a distinctive ability to autoaggregate and form strong biofilms. The aim of this work was to identify the genes involved in autoaggregation and biofilm formation in Sakai strain, and to verify the association between identified factors and the same phenotype in other EHEC O157: H7. We found that csgA, csgB and csgG curli genes were significantly overexpressed in strain Sakai compared to strain EDL933, a low biofilm-former and non-autoaglutinating strain. Sakai csgB and csgG Tn10 mutants formed significantly less biofilm and autoaggregation than the wild-type strain, and lost the curli-producing phenotype. Complementation restored the strong autoaggregation and biofilm formation phenotype, and the curliated morphotype of Sakai. In addition, E. coli O157: H7 isolates tested for curli formation, Sakai-like strains were curli-producing, whereas EDL933-like strains were non-curliated. These results suggest that overproduction of extracellular curli fibers in a subset of E. coli O157: H7 strains may be responsible for their particular phenotype of autoaggregation and strong biofilm formation. The project provides a better understanding of the mechanism of biofilm formation in EHEC, as well as reinforcing the hypothesis that curli fibers are an attractive target to counter the persistence of these bacteria in natural and industrial environments.

Escherichia coli O157:H7

EHEC

autoagrégation

biofilms

curli

autoaggregation

biofilm formation

curli fibers

Lytic Bacteriophages and Lactic Acid As Processing Aids Against Salmonella spp. and Escherichia coli O157:H7 on Marinated and Tenderized Pork Loins

Li, Sherita

01 March 2022

Within the last decade, pork consumption has steadily increased and continues to be the most consumed meat globally. However, pathogenic bacterial strains resistant to antibiotics have also been increasingly found in pig farms, animals, and the environment. Bacterial food poisoning cases due to Salmonella spp. and Escherichia coli (E. coli) O157:H7 appear to be linked with a variety of pork products. The meat industry has recognized that research is needed to combat the multi-drug resistance in foodborne pathogens with alternative methods of control. This study evaluated the effects of both E. coli- and Salmonella-specific lytic bacteriophages and lactic acid (LA) on E. coli O157:H7, Salmonella Enteritidis, Salmonella Montevideo, and Salmonella Heidelberg growth in raw pork loins ready for marination. The efficacy of the treatments was determined after 1 h of application and marination. Lytic bacteriophage 5% significantly (PSalmonella spp. population by 2.30 log CFU/cm2 when compared with the initial surface attachment. Moreover, the combined treatment of LA 2.5% + phage 5% significantly (PSalmonella population by 2.35 log CFU/cm2 after 1 hour of attachment. In the post-tenderization surface samples, the combination of both phage and LA showed (PP>0.05) when analyzing the translocation of Salmonella spp. on pork loins. Similar treatment efficacy results were observed in the application of E. coli O157:H7 on pork. Following antimicrobial treatments, both control and treated loin samples were enumerated after 1 h at 4°C. Both the lytic bacteriophage 5% and the combination of lytic bacteriophage 5% with lactic acid 2.5% had a significant reduction of E. coli O157:H7 on surface attachment after 1 h of treatment application. Lytic bacteriophage 5% and Lactic acid 2.5% significantly (P < 0.05) reduced the surface bacterial population by 1.89 log CFU/cm2. Lytic bacteriophage 5% alone significantly (P < 0.05) reduced the surface bacterial population by 1.90 log CFU/cm2 when compared with the initial surface attachment groups. Moreover, in the post-tenderization surface samples, lytic bacteriophage 5% and the combination of lytic bacteriophage 5% with lactic acid 2.5% were the only treatments that had a significant reduction (P < 0.05) when compared with the control group. Interestingly, lactic acid 2.5% was the only treatment that had a significant reduction (P < 0.05) of 0.76 log CFU/cm2 when analyzing the translocation of pathogens on pork chops.

Lytic Bacteriophage

Lactic Acid

Escherichia Coli O157:H7

Salmonella spp.

Raw Pork Loin

Food Microbiology

Food Science

Shiga toxin-encoding phage from <i>Escherichia coli</i> O157:H7 - interactions with non-pathogenic <i>E. coli</i> and implications for toxin production

GAMAGE, SHANTINI D.

31 March 2004

No description available.

Biology, Microbiology

<i>E. coli</i> O157:H7

Shiga toxin

phage

toxin amplification

toxin neutralization

Gb3

Combination of ultra-high pressure and xanthene-derivatives to inactivate food-borne spoilage and pathogenic bacteria

Waite, Joy Gail

10 December 2007

No description available.

ultra-high pressure

food microbiology

xanthene-derivatives

food colorants

Escherichia coli O157:H7

Listeria monocytogenes

Lactobacillus plantarum

Evaluation of Peanut Skin Extract, Grape Seed Extract, and Grape Seed Extract Fractions to Reduce Populations of Select Foodborne Pathogens

Levy, Jason M.

10 June 2014

Grape seed extract (GSE) and peanut skin extract (PSE) are waste products in the wine and peanut industries. Both extracts have high concentrations of polyphenols, known to possess antioxidant and antimicrobial properties. A subcategory of polyphenol is procyanidin, which can be divided into two types, type A and type B. Type A (PSE), contains two single bonds connecting the phenolic groups while type B (GSE), contains one single bond connecting the phenolic groups. The minimum inhibitory concentration (MIC) of the two extracts was evaluated for their antimicrobial effect on Listeria monocytogenes, Staphylococcus aureus, Escherichia coli O157:H7, and Salmonella Typhimurium using the pour plate method. GSE was found to have a significantly lower MIC (p ≤ 0.05) than PSE for L. monocytogenes (GSE=60.60ppm, PSE=not found), S. aureus (GSE=38.63ppm, PSE=51.36ppm), and S. Typhimurium (GSE=45.73ppm, PSE=60.60ppm). There was no significant difference in inhibition of E. coli O157:H7 (GSE=47.44ppm, PSE=51.13ppm). Since GSE, contributed to greater pathogen inhibition, its extract was fractionated into monomer and oligomers components. Growth curves of all four pathogens inoculated in the monomer and oligomer fractions were compared using the BioScreen method. Oligomers inhibited growth of L. monocytogenes, S. aureus, and E. coli O157:H7 while monomers inhibited growth of S. Typhimurium. These results indicate that an extract with type B procyanidins that are high in oligomers may be more effective as antimicrobials. Type B procyanidins have also been shown to prevent bacterial adhesion, as is the case with urinary tract infections, and may aid in the prevention of biofilms. / Master of Science in Life Sciences

Polyphenols

natural antimicrobials

grape seed extract

Vitis vinifera

peanut skin extract

E. coli O157:H7

Listeria monocytogenes

S. aureus

Salmonella Typhimurium

Effect of Standard Post-harvest Interventions of Fresh Vegetables on Bacterial Community Dynamics, Pathogen Survival and Antibiotic Resistance

Dharmarha, Vaishali

02 August 2018

Food-borne illness outbreaks are occasionally associated with fresh-vegetable consumption, in part due to lack of a microbial inactivation step before consumption. Raw manure or improperly composted manure applied as soil amendments is an established source of pathogenic bacterial contamination. However, less is known about whether such soil amendments could serve as a source of transmission of antibiotic-resistant bacteria (ARB) or antibiotic-resistance genes (ARGs) via fresh produce. As such knowledge is developing, it is useful to identify strategies for mitigating ARGs and ARB on vegetable surfaces, especially those that are synergistic with known benefits in terms of general pathogen reduction on fresh produce. Sanitizers play an important role in post-harvest processing of vegetables, especially in terms of disinfecting the wash water and preventing cross-contamination. Further, temperature and time of storage of vegetables are critical to prevent the growth of microorganisms. To provide a background inoculum representing potential pre-harvest carryover of ARB and ARGs, carrots or romaine lettuce leaves were dipped in a slurry derived from composted manure from dairy cows previously dosed with antibiotics and further inoculated with multi-drug resistant E. coli O157:H7, a human pathogen, and a spoilage-associated and opportunistic pathogenic strain of Pseudomonas aeruginosa. Inoculated carrots (n=3, 25 g) were washed with water containing different sanitizers (sodium hypochlorite or peroxyacetic acid) or unwashed (control), packaged and stored at 10ºC for 7d or 2ºC for up to 60 d. Inoculated lettuce leaves (n=3, 100 g) were washed with sodium hypochlorite, packaged in modified atmosphere conditions (98% nitrogen), irradiated (1.0 kGy) and subsequently stored at 4ºC for 14 d. The effect of post-harvest treatment were compared at various times by enumeration on selective media. In addition, cultureindependent techniques were also performed to determine changes to the surficial carrot and lettuce microbiota by sequencing bacterial 16S rRNA gene amplicons. The effect of post-harvest treatments on the types and relative abundance of ARGs, also known as the “resistome,” were profiled by shotgun metagenomic sequencing and qPCR. Addition of a sanitizer during wash, storage temperature, and duration of storage affected the bacterial community structures on carrots, represented by the weighted Unifrac distance matrices (ANOSIM, R=0.465). Storage of sanitizer-washed carrots at 10ºC was associated with an increase in relative abundance of Pseudomonadaceae compared to 2ºC storage for 7 d (Wilcoxon, p<0.05). Increase in storage temperature from 2ºC (optimum) to 10ºC (temperature abuse) of sanitizer-washed carrots resulted in enrichment of ARGs conferring resistance to the following antibiotic classes: multidrug, peptide, polymyxin, quinolone, triclosan, aminoglycoside, bacitracin, β-lactam, and fosfomycin. Irradiation resulted in significant reductions (~3.5 log CFU/g) of inoculated antibiotic-resistant E. coli O157:H7 and Pseudomonas sp. on lettuce surfaces (ANOVA, p<0.05). The lettuce resistome, represented by the Bray-Curtis similarity of ARG occurrence, was affected by irradiation (ANOSIM, R=0.406). Irradiation of lettuce followed by 14 d of storage at 4ºC resulted in 2-4-fold reductions in relative abundance of ARGs encoding resistance to the following antibiotic classes: triclosan, quinolones, multidrug, polymyxin and β-lactam (Wilcoxon, p<0.05). No additional increase or reduction of the tet(A) gene present on inoculated P. aeruginosa was evident after 14d storage at 4ºC on irradiated samples. Results of this study suggest that inclusion of a sanitizer in wash water, irradiation, and storage at optimum refrigerated temperatures may offer effective strategies to combat proliferation of antibiotic resistant bacteria and antibiotic resistance genes on fresh produce. Further research is needed develop interventions that can mitigate tet(A) and other ARGs on produce that were not significantly reduced by irradiation. This study will guide future research on microbiome and metagenome of processed produce and assessment of critical control points to reduce the risk of antibiotic resistance from farm-to-fork. / PHD / Post-harvest interventions; such as washing, irradiation and cold storage, are employed to provide safe and wholesome fresh vegetables to consumers. Washing of vegetables in water that includes a sanitizing agent, such as chlorine or peroxyacetic acid (POAA), removes soil from the surface, reduces the bacteria in wash water and prevent cross-contamination between vegetables. It has an additional benefit to reduce microorganisms on produce surfaces that may cause the vegetables to spoil or result in illness in humans. Low temperature storage of produce, usually 0-5ºC, decreases the respiration rate of vegetables and reduces growth of microorganisms during storage. Some of the spoilage and/or pathogenic bacteria may also be antibiotic-resistant, which are commonly termed as antibiotic-resistant bacteria (ARB). Antibiotic resistance is a significant public health concern that leads to ineffective medical treatments, prolonged duration of illnesses and increased hospitalization costs. Antibiotic resistance is encoded by genes that confer resistance to wide range of antibiotic classes, including antibiotics used to treat human illnesses. These genes are termed as antibiotic resistance genes (ARGs). In this study we examined the effect of three common post-harvest interventions, washing with sanitizers, gamma irradiation, and cold storage to reduce antibiotic-resistant bacterial pathogens and antibiotic-resistant spoilage bacteria on carrots and lettuce. Storage temperature, inclusion of sanitizer in wash water, and length of chilled storage significantly influenced the diversity of bacteria found on carrot surface. Inclusion of either sanitizer in the wash water significantly reduced the populations of antibiotic-resistant E. coli O157:H7 (a pathogenic bacterium that causes a dangerous form of gastrointestinal illness) and Pseudomonas sp. (a bacterial species that commonly causes food spoilage). Storage at recommended temperature (2ºC) did not allow these bacteria to regrow and also reduced total ARGs on carrot surfaces. Washing of lettuce with sodium hypochlorite followed by irradiation (1.0 kGy) and storage at recommended temperature (4ºC) were effective in reducing the populations of antibiotic-resistant E. coli O157:H7 and Pseudomonas sp., and additionally reduced the number of some ARGs conferring resistance to select classes of antibiotics, including triclosan, quinolones, multidrug, polymyxin and β-lactam antibiotics on the lettuce surface. A novelty of this research is that it employed new, cutting-edge “metagenomic” DNA sequencing technique to identify and track antibiotic resistance through the various post-harvest interventions. Overall results of this research suggest that inclusion of sanitizer in wash water for fresh produce, followed by storage at refrigerated temperatures below 4ºC may reduce the risk posed by antibiotic resistant bacteria and antibiotic resistance genes on produce.

Post-harvest

carrots

sanitizer

lettuce

irradiation

E. coli O157:H7 Pseudomonas

compost

antibiotic-resistant bacteria

antibiotic resistance genes

Rôle des probiotiques lors d'infections entériques d'origine bactérienne et virale : analyses in vitro et études in vivo chez des modèles murins

Gagnon, Mélanie

13 April 2018

Afin de stabiliser le microbiote intestinal et prévenir ou traiter les infections entériques, il est suggéré depuis des décennies d’utiliser certaines bactéries lactiques dites ‘probiotiques’. La consommation de ces bactéries, qui sont des composants normaux du microbiote intestinal, aurait des effets bénéfiques sur la santé. Cependant, leur éventuel rôle prophylactique ou thérapeutique n’a été que très peu étudié. Dans une première partie, cinq bifidobactéries probiotiques isolées de fèces de nouveaux-nés ont été sélectionnées et caractérisées. Parmi celles-ci, une souche de Bifidobacterium thermacidophilum (RBL71) démontrant une forte résistance aux conditions retrouvées dans le tractus intestinal, une forte adhésion aux cellules intestinales Caco-2 et une inhibition de l’adhésion d’Escherichia coli O157:H7 (50%) aux cellules Caco-2 a été administrée par voie orale à des souris BALB/c. Ce gavage probiotique avant infection à E. coli O157:H7 a diminué les comptes fécaux de ce pathogène ainsi que les dommages histologiques intestinaux comparativement au groupe témoin. Une plus forte production d’anticorps spécifiques anti-E. coli O157:H7 a également été détectée chez les souris recevant la souche probiotique. Dans une seconde partie, l’efficacité de trois autres souches de bifidobactéries a été vérifiée contre des entéropathogènes viraux. Une souche de B. thermophilum (RBL67) démontrant la plus forte inhibition de l’attachement du rotavirus (98%) aux cellules intestinales Caco-2 et HT-29 a été administrée par voie orale à des souris néonatales CD-1 infectées par un rotavirus. La concentration de virus dans le contenu intestinal était significativement moins élevée à 48 heures post-infection chez le groupe recevant des probiotiques avant infection par rapport au groupe témoin. De plus, la durée de la diarrhée a été plus courte et une production d’anticorps spécifiques anti-rotavirus a été détectée chez les souris recevant des probiotiques avant l’infection. Ces résultats suggèrent que la souche RBL67 pourrait avoir un impact positif sur l’évolution des infections causées par des pathogènes viraux invasifs tel que rotavirus et que la souche RBL71 pourrait ainsi jouer un rôle dans la prévention ou le traitement d’infections entériques aux pathogènes bactériens non invasifs tel que E. coli O157:H7. Dans ces deux cas, l’inhibition de l’adhésion du pathogène serait le mécanisme d’action le plus probable. Cette démonstration de l’activité de ces nouvelles souches de bifidobactéries d’origine humaine contre E. coli O157:H7 et rotavirus, en interférant sur le mécanisme d’infection de ces entéropathogènes, soutient leur utilisation potentielle chez l’humain pour prévenir les infections entériques transmises par voie orale. / For decades, the use of certain lactic acid bacteria as so-called probiotics has been suggested in order to stabilize the intestinal microbiota and thus prevent or treat enteric infections. Consumption of these bacteria, which are normal components of human intestinal microbiota, is reputed to be beneficial to health. However, their possible role as therapeutic or prophylactic agents has been studied very little. Five probiotic bifidobacteria isolated from the feces of newborn infants were first selected and characterized. Among these, a strain of Bifidobacterium thermacidophilum (called RBL71) demonstrating strong resistance to the conditions prevailing in the digestive tract, strong adhesion to Caco-2 intestinal cells and inhibition of the adhesion of Escherichia coli O157:H7 (50%) to Caco-2 cells was administered via the oral route to BALB/c mice. Mice thus treated before challenge had reduced fecal counts of E. coli O157:H7 and less intestinal histological damage than the control group. Greater production of O157:H7-specific antibody was detected in mice receiving the probiotic. In a second study, the effectiveness of three other strains of bifidobacteria against viral enteropathogens was examined. A strain of B. thermophilum (called RBL67) demonstrating the strongest inhibition (98%) of rotavirus attachment to Caco-2 and HT-29 intestinal cells was administered via the oral route to neonatal CD-1 mice infected with rotavirus. The viral concentration of the intestinal contents 48 hours after infection was significantly lower in the probiotic-treated group than in the control group. In addition, the diarrhea was of shorter duration and rotavirus-specific antibody production was detected in the mice receiving the probiotic before infection. These results suggest that strain RBL67 has a positive impact on the evolution of infections by invasive viral pathogens such as rotavirus and that strain RBL71 could thus have a role to play in the prevention or treatment of enteric infections by non-invasive bacterial pathogens such as E. coli O157:H7. In both cases, inhibition of adhesion of the pathogen seems to be a plausible mechanism of action. This demonstration of the activities of these new bifidobacterial strains of human origin against E. coli O157:H7 and rotavirus suggests their potential for interfering with the mechanism of infection of enteropathogens and supports their use in humans as possible agents for preventing enteric infections transmitted by the oral route.

S 405 UL 2007

Probiotiques

Bifidobacterium

Escherichia coli O157:H7

Diversity in Escherichia coli O157:h7 between human and bovine strains

Page, Jennifer Anne

January 1900

Master of Science / Food Science Institute, Animal Science and Industry / Daniel Y.C. Fung / Within the United States, it has been estimated that 60 deaths and 73,000 illnesses are caused by Escherichia coli O157:H7 infection annually (Gavin et al., 2004). Multiple effects have been known to occur with the onset of infection from E. coli O157:H7 in which some of these can become life-threatening. Escherichia coli O157:H7 is defined as a Shiga-toxin-producing E. coli strain (STEC). This microbial pathogen is a gram-negative bacillus organism that is motile, non-sorbitol fermenting, and β-glucuronidase negative. The infectious dose of E. coli O157:H7 can be as low as ten cells (Food and Drug Administration, 2009). Consumption of contaminated food, mainly undercooked ground beef and non or incorrectly pasteurized milk, are the primary sources of E. coli O157:H7 infection in human. Cattle, in particular, are considered chief asymptomatic reservoirs for this pathogen. Carried in their gut, feces, and milk, cattle carry this Shiga toxin-producing E. coli in ranges from 10[superscript]2 to 10[superscript]5 CFU/g. Although colonized with E. coli O157:H7, cattle and other ruminants show no adverse side effects from the pathogenic bacteria. There is also a difference in the prevalence of this pathogen between human and cattle. There has been a low incidence of illness caused by E. coli O157:H7 in humans when compared to the high prevalence of E. coli 057:H7 found in cattle and their environment. It has been discovered, through population genetic analysis, that E. coli O157:H7 and other O157:H- isolates make up a clone complex. In spite of the clonal nature of E. coli O157:H7 and other O157:H[superscript]- isolates, there are significant characteristics showing variability between the clone complex. These variability aspects can possibly account for the rapid divergence of E. coli strains including the recently discovered divergence of E. coli O157:H7 in to two separate lineages. Other possible reasons for a non-linear relationship between cattle prevalence and human infection include diversity of the Shiga Toxin-Encoding bacteriophage and receptors in cattle verses human, and finally the difference between the production of Locus of Enterocyte Effacement (LEE) in both human and cattle lineages.

Escherichia coli

O157:H7

Shiga toxin

Q933

Diverse E. coli strains

Cattle

Biology, Microbiology (0410)

Biology, Veterinary Science (0778)