Pesquisa de genes de virulência em cepas de Listeria monocytogenes e Listeria innocua originárias de carne suína e ambiente de abatedouros e açougues / Research of virulence genes in strains of Listeria monocytogenes and Listeria innocua originated from pork and slaughterhouse and meat market environment

Moreno, Luisa Zanolli

23 May 2013

Introdução - A bactéria Listeria monocytogenes é um agente zoonótico transmitido, principalmente, por alimentos. Dentre as fontes de contaminação, destacam-se os produtos de origem láctea, carnes e embutidos, além dos ambientes da indústria de processamento alimentício. Na última década, foram detectadas cepas de L. monocytogenes e L. innocua, em ambiente de frigoríficos e alimento. Estas apresentavam variação na intensidade da virulência para células eucarióticas decorrente de mutações nos genes de virulência. Esta alteração em ambas as espécies, e o relato de um caso fatal de listeriose humana ocasionada por L. innocua atípica demandam atenção, pois apresentam maior risco à saúde da população exposta a estes ambientes e alimentos tornando-se, portanto, uma importante questão de saúde pública. Objetivo - Pesquisar genes de virulência em cepas de L. monocytogenes e L. innocua, isoladas em pontos da linha de abate suíno e do comércio de carne no Estado de São Paulo. Material e Métodos Foram estudadas 40 cepas, dentre estas, isolados de L. monocytogenes e L. innocua com atividade hemolítica atípica. Foram realizados testes de atividade hemolítica e produção de fosfolipase A para caracterização dos isolados. A detecção dos genes de virulência foi realizada através da reação em cadeia pela polimerase (PCR). Para confirmação das sequências amplificadas e a análise das mesmas, os fragmentos obtidos foram sequenciados. A identificação molecular das espécies foi realizada por análise filogenética dos genes prs e 16S rRNA. Resultados Dos 40 isolados, cinco de L. monocytogenes e sete de L. innocua apresentaram atividade hemolítica atípica, sendo que nestes últimos também foi observado halo atípico no meio ALOA. As cepas de L. monocytogenes foram positivas para a detecção de todos os genes de virulência estudados. Dois dos isolados atípicos de L. innocua também foram positivos para todos os genes e os outros cinco foram positivos para hly, plcA e inlC. Foram detectadas mutações nas proteínas InlC, InlB, InlA, PI-PLC, PC-PLC e PrfA, nas cepas atípicas, que resultaram em alterações nas suas estruturas secundárias que podem explicar o fenótipo desses isolados. A confirmação de espécie apenas foi alcançada com a análise filogenética do 16S rRNA. Conclusões A partir desses resultados, foi proposta a utilização dos genes prfA, plcB e inlB, como forma de triagem, para diferenciar as espécies L. monocytogenes e L. innocua, de modo a complementar os testes fenotípicos / Introduction - The bacterium Listeria monocytogenes is a zoonotic agent transmitted, mainly, by food. Among the sources of contamination, stands out dairy products, meat and the environments of food processing industry. In the last decade, strains of L. monocytogenes and L. innocua have been detected in food and slaughterhouses environment. These presented variation in the intensity of virulence to eukaryotic cells due to mutations in the virulence genes. These changes in both species, and the report of a fatal case of human listeriosis caused by atypical L. innocua demand attention, because they present greater risk to the health of the population exposed to these environments and food and, therefore, it is an important public health issue. Objective - To search for the virulence genes in strains of L. monocytogenes and L. innocua isolated in points of swine slaughter line and meat trade in Sao Paulo State. Material and Methods 40 strains were studied, among these, isolates of L. monocytogenes and L. innocua with atypical hemolytic activity. Tests of hemolytic activity and production of phospholipase A were performed for isolates characterization. The detection of virulence genes was performed through polymerase chain reaction (PCR). For confirmation of the amplified sequences and analysis of the same, the obtained fragments were sequenced. The molecular identification of species was performed by phylogenetic analysis of 16S rRNA and prs genes. Results - Of the 40 isolates, five L. monocytogenes and seven L. innocua showed atypical hemolytic activity, and in these last ones an atypical halo was also observed in ALOA medium. The L. monocytogenes strains were positive for detection of all virulence genes studied. Two atypical L. innocua isolates were also positive for all genes and the other five were positive for hly, plcA and inlC. Mutations in InlC, InlB, InlA, PI-PLC, PC-PLC and PrfA proteins were detected, in the atypical strains, which resulted in changes in their secondary structures that may explain the isolates phenotype. Species confirmation was achieved only with phylogenetic analysis of 16S rRNA. Conclusions - From these results, it was proposed the use of prfA, plcB and inlB genes as a way of screening, to differentiate the species L. monocytogenes and L. innocua, in order to complement the phenotypic tests

L. innocua

L. innocua

L. monocytogenes

L. monocytogenes

Carne Suína

Genes de Virulência

Pork

Virulence Genes

Pesquisa de genes de virulência em cepas de Listeria monocytogenes e Listeria innocua originárias de carne suína e ambiente de abatedouros e açougues / Research of virulence genes in strains of Listeria monocytogenes and Listeria innocua originated from pork and slaughterhouse and meat market environment

Luisa Zanolli Moreno

23 May 2013

Introdução - A bactéria Listeria monocytogenes é um agente zoonótico transmitido, principalmente, por alimentos. Dentre as fontes de contaminação, destacam-se os produtos de origem láctea, carnes e embutidos, além dos ambientes da indústria de processamento alimentício. Na última década, foram detectadas cepas de L. monocytogenes e L. innocua, em ambiente de frigoríficos e alimento. Estas apresentavam variação na intensidade da virulência para células eucarióticas decorrente de mutações nos genes de virulência. Esta alteração em ambas as espécies, e o relato de um caso fatal de listeriose humana ocasionada por L. innocua atípica demandam atenção, pois apresentam maior risco à saúde da população exposta a estes ambientes e alimentos tornando-se, portanto, uma importante questão de saúde pública. Objetivo - Pesquisar genes de virulência em cepas de L. monocytogenes e L. innocua, isoladas em pontos da linha de abate suíno e do comércio de carne no Estado de São Paulo. Material e Métodos Foram estudadas 40 cepas, dentre estas, isolados de L. monocytogenes e L. innocua com atividade hemolítica atípica. Foram realizados testes de atividade hemolítica e produção de fosfolipase A para caracterização dos isolados. A detecção dos genes de virulência foi realizada através da reação em cadeia pela polimerase (PCR). Para confirmação das sequências amplificadas e a análise das mesmas, os fragmentos obtidos foram sequenciados. A identificação molecular das espécies foi realizada por análise filogenética dos genes prs e 16S rRNA. Resultados Dos 40 isolados, cinco de L. monocytogenes e sete de L. innocua apresentaram atividade hemolítica atípica, sendo que nestes últimos também foi observado halo atípico no meio ALOA. As cepas de L. monocytogenes foram positivas para a detecção de todos os genes de virulência estudados. Dois dos isolados atípicos de L. innocua também foram positivos para todos os genes e os outros cinco foram positivos para hly, plcA e inlC. Foram detectadas mutações nas proteínas InlC, InlB, InlA, PI-PLC, PC-PLC e PrfA, nas cepas atípicas, que resultaram em alterações nas suas estruturas secundárias que podem explicar o fenótipo desses isolados. A confirmação de espécie apenas foi alcançada com a análise filogenética do 16S rRNA. Conclusões A partir desses resultados, foi proposta a utilização dos genes prfA, plcB e inlB, como forma de triagem, para diferenciar as espécies L. monocytogenes e L. innocua, de modo a complementar os testes fenotípicos / Introduction - The bacterium Listeria monocytogenes is a zoonotic agent transmitted, mainly, by food. Among the sources of contamination, stands out dairy products, meat and the environments of food processing industry. In the last decade, strains of L. monocytogenes and L. innocua have been detected in food and slaughterhouses environment. These presented variation in the intensity of virulence to eukaryotic cells due to mutations in the virulence genes. These changes in both species, and the report of a fatal case of human listeriosis caused by atypical L. innocua demand attention, because they present greater risk to the health of the population exposed to these environments and food and, therefore, it is an important public health issue. Objective - To search for the virulence genes in strains of L. monocytogenes and L. innocua isolated in points of swine slaughter line and meat trade in Sao Paulo State. Material and Methods 40 strains were studied, among these, isolates of L. monocytogenes and L. innocua with atypical hemolytic activity. Tests of hemolytic activity and production of phospholipase A were performed for isolates characterization. The detection of virulence genes was performed through polymerase chain reaction (PCR). For confirmation of the amplified sequences and analysis of the same, the obtained fragments were sequenced. The molecular identification of species was performed by phylogenetic analysis of 16S rRNA and prs genes. Results - Of the 40 isolates, five L. monocytogenes and seven L. innocua showed atypical hemolytic activity, and in these last ones an atypical halo was also observed in ALOA medium. The L. monocytogenes strains were positive for detection of all virulence genes studied. Two atypical L. innocua isolates were also positive for all genes and the other five were positive for hly, plcA and inlC. Mutations in InlC, InlB, InlA, PI-PLC, PC-PLC and PrfA proteins were detected, in the atypical strains, which resulted in changes in their secondary structures that may explain the isolates phenotype. Species confirmation was achieved only with phylogenetic analysis of 16S rRNA. Conclusions - From these results, it was proposed the use of prfA, plcB and inlB genes as a way of screening, to differentiate the species L. monocytogenes and L. innocua, in order to complement the phenotypic tests

L. innocua

L. monocytogenes

Carne Suína

Genes de Virulência

L. innocua

L. monocytogenes

Pork

Virulence Genes

High Hydrostatic Pressure (hhp) Applications In Food Science: A Study On Compression Heating, Microbial Inactivation Kinetics, Pulsed Pressure And High Pressure Carbon Dioxide Treatments

Buzrul, Sencer

01 May 2008

In this study the action of high hydrostatic pressure (HHP) on compression heating of liquid foods and pressure transmitting fluids, inactivation of Escherichia coli and Listeria innocua in different food media (milk and fruit juices), pulsed pressure and high pressure carbon dioxide treatments was investigated. The experimental results in this study allowed pointing out some important results: (i) The thermal effects of compression should be taken into account when HHP pasteurization processes are developed. Initial temperature of the food product and compression rate should carefully be selected in order to compensate the compression heating / (ii) The HHP inactivation kinetics need not follow traditional first-order kinetics, hence alternative inactivation models are ought to be found. Weibull model can be used for HHP inactivation kinetics of microorganisms / (iii) The pulsed pressure treatment could be an alternative to continuous HHP, but optimization should be done between the pulse holding time, the number of pulses and the pressure level to reach the desirable number of log-reduction of microorganisms (E. coli and L. innocua) compatible with an industrial application / (iv) The storage duration and storage temperature after HHP treatment should carefully be optimized to increase the safety of HHP treated fruit juices since the growth of injured microorganisms can be avoided during storage / (v) The high pressure carbon dioxide (HPCD) treatment in combination with pulsed pressure can be an efficient way to inactivate the microorganisms in skim milk and to reduce the maximum pressure level for the desired log-reduction.

High hydrostatic pressure

compression heating

microbial inactivation kinetics

E. coli

L. innocua

milk

fruit juice

pulsed pressure

high pressure carbon dioxide.

Effect of Reduced Sodium Cheese on the Growth of Pathogenic Bacteria and Inactivation of Listeria innocua Using Supercritical Fluid Extraction with Co2

Padilla Antunez, Suyapa

01 April 2016

Listeria monocytogenes continues to challenge the dairy industry in causing post-process contamination of cheeses. To reduce risk of contamination, it is crucial to understand the growth and survival of pathogenic bacteria in cheese products and to develop post-process mitigation strategies. This study evaluated the fate of pathogens in reduced and regular sodium Mozzarella cheese, and the potential of Supercritical Fluid Extraction with CO2 (SFE) to reduce Listeria innocua on Mozzarella and Queso Fresco. The survival of L. monocytogenes, Salmonella, and E.coli O157:H7 (2-3 log CFU/g) in reduced sodium Mozzarella (1.62%), compared to regular sodium Mozzarella cheese (2.15%) at 4ºC and 12ºC for 90 and 30 days, respectively, was evaluated. Salmonella and E. coli O157:H7 populations decreased over incubation time at both temperatures and no difference (pListeria monocytogenes population also decreased during incubation time at 4°C regardless of the sodium concentration in Mozzarella cheese. However, there was a difference in the population of L. monocytogenes for regular and reduced sodium incubated 12°C, and its populations increased 1 log CFU/g in reduced sodium Mozzarella cheese. Additionally, this study determined the bactericidal effect of SFE on the population of L. innocua, a surrogate for L. monocytogenes, in Mozzarella and Queso Fresco cheese (6 log CFU/g) treated with SFE at two pressures and temperatures (120 bar at 40°C and 150 bar at 50°C) for 30 min. SFE treatment at 120 bar, 40°C for 30 min decreased L. innocua by approximately 3.0 and 3.5 log CFU/g in Mozzarella and Queso Fresco cheeses, respectively. SFE at 150 bar and 50°C reduced L. innocua by approximately 3.78 and 5.2 log CFU/g in Mozzarella and Queso Fresco cheeses, respectively. Since SFE had a minimal effect on the physico-chemical characteristics of the cheeses assayed, the results suggest SFE might be used to reduce L. monocytogenes in cheeses without negatively impacting product quality.

Queso Fresco

Mozzarella Cheese

Supercritical Fluid Extraction with CO2

L. monocytogenes

Salmonella

E.coli O157:H7

L. innocua

Food Microbiology