Resumo
As doenças respiratórias são um problema significativo na produção suína e podem levar à condenação de carcaças no abate. Entre os agentes causadores dessas doenças destacam-se o Actinobacillus pleuropneumoniae, Mycoplasma hyopneumoniae e a Pasteurella multocida. O Actinobacillus pleuropneumoniae é um patógeno altamente contagioso, que ocasiona hemorragia, pleuropneumonia purulenta e fibrosa. A Pleuropneumonia é amplamente distribuída e gera graves prejuízos para a suinocultura. O Mycoplasma hyopneumoniae ocasionador da pneumonia por micoplasma, doença respiratória crônica. As infecções originadas podem regular negativamente o sistema imunológico do hospedeiro e aumentar a infecção e assim a replicação de outros patógenos. A Pasteurella multocida é o agente causador de uma ampla gama de infecções levando a alto impacto econômico. Patógeno comensal e oportunista da boca, nasofaringe e trato respiratório superior. A identificação precoce e o manejo adequado desses agentes causadores de doenças respiratórias são fundamentais para minimizar a incidência de carcaças suínas. A adoção de medidas preventivas, como a vacinação e práticas de manejo adequadas, pode ajudar a prevenir a propagação dessas doenças e garantir a produção de carne suína segura e de alta qualidade para o consumo humano.(AU)
Respiratory diseases are a significant problem in pork production and can lead to condemnation of carcasses at slaughter. Among the causative agents of these diseases are Actinobacillus pleuropneumoniae, Mycoplasma hyopneumoniae and Pasteurella multocida. Actinobacillus pleuropneumoniae is a highly contagious pathogen that causes hemorrhage, purulent and fibrous pleuropneumonia. Pleuropneumonia is widely distributed and causes serious damage to pig farming. Mycoplasma hyopneumoniae causes mycoplasma pneumonia, a chronic respiratory disease. Originating infections can down-regulate the host's immune system and increase infection and thus replication of other pathogens. Pasteurella multocida is the causative agent of a wide range of infections leading to high economic impact. Commensal and opportunistic pathogen of the mouth, nasopharynx and upper respiratory tract. Early identification and proper management of these agents that cause respiratory diseases are essential to minimize the incidence of swine carcasses. Adopting preventive measures, such as vaccination and proper management practices, can help prevent the spread of these diseases and ensure the production of safe, high-quality pork for human consumption.(AU)
Las enfermedades respiratorias son un problema importante en la producción porcina y pueden provocar el decomiso de las canales en el matadero. Entre los agentes causantes de estas enfermedades se encuentran Actinobacillus pleuropneumoniae, Mycoplasma hyopneumoniae y Pasteurella multocida. Actinobacillus pleuropneumoniae es un patógeno altamente contagioso que causa hemorragia, pleuroneumonía purulenta y fibrosa. La pleuroneumonía está ampliamente distribuida y causa graves daños a la cría de cerdos. Mycoplasma hyopneumoniae causa neumonía por micoplasma, una enfermedad respiratoria crónica. Las infecciones que se originan pueden regular a la baja el sistema inmunitario del huésped y aumentar la infección y, por lo tanto, la replicación de otros patógenos. Pasteurella multocida es el agente causal de una amplia gama de infecciones que tienen un alto impacto económico. Patógeno comensal y oportunista de la boca, nasofaringe y tracto respiratorio superior. La identificación temprana y el manejo adecuado de estos agentes causantes de enfermedades respiratorias son fundamentales para minimizar la incidencia de las canales porcinas. La adopción de medidas preventivas, como la vacunación y prácticas de manejo adecuadas, puede ayudar a prevenir la propagación de estas enfermedades y garantizar la producción de carne de cerdo segura y de alta calidad para el consumo humano.(AU)
Assuntos
Animais , Infecções por Pasteurella/diagnóstico , Suínos/fisiologia , Infecções por Actinobacillus/diagnóstico , Abate de Animais/métodos , Carne de Porco/análise , Infecções por Mycoplasma/diagnóstico , Doenças Respiratórias/veterinária , Pasteurella multocida/patogenicidade , Actinobacillus pleuropneumoniae/patogenicidade , Mycoplasma hyopneumoniae/patogenicidadeResumo
Fowl Cholera (FC) is a disease caused by Pasteurella multocida. The severity of this disease is partly caused by virulence factors. Genes encoding fimbriae, capsule, sialidases and proteins for iron metabolism may be related to P. multocida's ability to infect the host. Besides to examining DNA for the presence of virulence genes, DNA is essential for the diagnostic and FTA cards are an alternative for genetic material transport. The study aims to evaluate the viability of P. multocida DNA transport using the cards and to detect 14 virulence genes in 27 strains isolated from FC cases in the United States by multiplex-PCR. No growth was observed in any of the FTA cards, which was essential to assess the security. Furthermore, DNA detection was possible in 100% of the samples, independent of the storage period (7 to 35 days) and temperature (4°C and 37°C). ptfA, exbd-tonB, hgbA, nanB, oma87, hyaD-hyaC, sodC, hgbB, sodA, nanH and pfhA genes were detected in more than 80% of the samples. FTA cards have proven to be a viable and safe tool for DNA transport of P. multocida. A majority of genes showed a high frequency, which was similar to strains isolated from FC cases.(AU)
Cólera aviária (CA) é uma doença causada pela bactéria Pasteurella multocida e a severidade dos casos é em parte justificada por fatores de virulência. Genes codificando fímbrias, cápsulas, sialidases, dismutases e proteínas do metabolismo férrico podem ser relacionados à capacidade do agente em infectar o hospedeiro. Além da obtenção do DNA para pesquisa de genes de virulência, o material genético é fundamental para o diagnóstico, e os cartões FTA seriam uma alternativa no transporte de microrganismos. Os objetivos da presente pesquisa foram avaliar a viabilidade do transporte de DNA de P. multocida através dos cartões e detectar 14 genes de virulência em 27 cepas isoladas de CA nos Estados Unidos, por meio de multiplex-PCR. Nenhuma das amostras para análise microbiológica da segurança dos cartões apresentou crescimento. Foi possível a detecção do DNA em 100% das amostras, independentemente do tempo de estocagem (sete a 35 dias) e das temperaturas (4°C e 37°C) avaliadas. Genes ptfA, exbd-tonB, hgbA, nanB, oma87, hyaD-hyaC, sodC, hgbB, sodA, nanH e pfhA foram detectados em mais de 80% das amostras. Os cartões FTA demonstraram ser uma ferramenta viável e segura para o transporte do DNA de P. multocida. A maioria dos genes apresentou uma alta frequência, compatível com isolados de CA.(AU)
Assuntos
Pasteurella multocida/genética , Pasteurella multocida/patogenicidade , Fatores de Virulência/isolamento & purificaçãoResumo
Fowl Cholera (FC) is a disease caused by Pasteurella multocida. The severity of this disease is partly caused by virulence factors. Genes encoding fimbriae, capsule, sialidases and proteins for iron metabolism may be related to P. multocida's ability to infect the host. Besides to examining DNA for the presence of virulence genes, DNA is essential for the diagnostic and FTA cards are an alternative for genetic material transport. The study aims to evaluate the viability of P. multocida DNA transport using the cards and to detect 14 virulence genes in 27 strains isolated from FC cases in the United States by multiplex-PCR. No growth was observed in any of the FTA cards, which was essential to assess the security. Furthermore, DNA detection was possible in 100% of the samples, independent of the storage period (7 to 35 days) and temperature (4°C and 37°C). ptfA, exbd-tonB, hgbA, nanB, oma87, hyaD-hyaC, sodC, hgbB, sodA, nanH and pfhA genes were detected in more than 80% of the samples. FTA cards have proven to be a viable and safe tool for DNA transport of P. multocida. A majority of genes showed a high frequency, which was similar to strains isolated from FC cases.(AU)
Cólera aviária (CA) é uma doença causada pela bactéria Pasteurella multocida e a severidade dos casos é em parte justificada por fatores de virulência. Genes codificando fímbrias, cápsulas, sialidases, dismutases e proteínas do metabolismo férrico podem ser relacionados à capacidade do agente em infectar o hospedeiro. Além da obtenção do DNA para pesquisa de genes de virulência, o material genético é fundamental para o diagnóstico, e os cartões FTA seriam uma alternativa no transporte de microrganismos. Os objetivos da presente pesquisa foram avaliar a viabilidade do transporte de DNA de P. multocida através dos cartões e detectar 14 genes de virulência em 27 cepas isoladas de CA nos Estados Unidos, por meio de multiplex-PCR. Nenhuma das amostras para análise microbiológica da segurança dos cartões apresentou crescimento. Foi possível a detecção do DNA em 100% das amostras, independentemente do tempo de estocagem (sete a 35 dias) e das temperaturas (4°C e 37°C) avaliadas. Genes ptfA, exbd-tonB, hgbA, nanB, oma87, hyaD-hyaC, sodC, hgbB, sodA, nanH e pfhA foram detectados em mais de 80% das amostras. Os cartões FTA demonstraram ser uma ferramenta viável e segura para o transporte do DNA de P. multocida. A maioria dos genes apresentou uma alta frequência, compatível com isolados de CA.(AU)
Assuntos
Pasteurella multocida/genética , Pasteurella multocida/patogenicidade , Fatores de Virulência/isolamento & purificaçãoResumo
Fowl cholera is a contagious disease that results from infection by the bacterium Pasteurella multocida. This microorganism is extensively distributed among animal species, but little is known regarding its pathogenesis and specificity to various hosts. Many studies using pathogenicity evaluation methods are subjective and difficult to quantify because they are often only involved in the observation of the lethal capacity of the agent in experimental inoculation. Due to a lack of more consistent data, this study aimed to establish a classification model of P. multocida pathogenicity in mice using strains isolated from poultry and swine. A total of 94 strains of P. multocida isolated from clinical cases of FC and from lungs of swine were tested. A volume of 0.1 mL of bacterial suspension was obtained from the concentration of 106 CFU/mL and inoculated by an intraperitoneal route in five mice. The animals were observed every six hours over seven days. In addition to the mortality observed, the time of death and gross lesions were also analyzed. The Pathogenicity Indexes obtained showed significant differences (p<0.05) according to the origin of the strains. Likewise, the number of gross lesions and isolation percentages were also varied (p<0.05) among strains isolated from poultry and swine. From the observed ratios, the isolates were grouped into three pathogenicity classes: high, medium and low. This study proposed a consistent measurement and classification of P. multocida pathogenicity. The obtained results will be used to generate other adjusted models, as well as to form the basis for disease diagnosis.(AU)
Assuntos
Animais , Ratos , Camundongos/microbiologia , Pasteurella multocida/patogenicidade , Aves/microbiologiaResumo
Fowl cholera is a contagious disease that results from infection by the bacterium Pasteurella multocida. This microorganism is extensively distributed among animal species, but little is known regarding its pathogenesis and specificity to various hosts. Many studies using pathogenicity evaluation methods are subjective and difficult to quantify because they are often only involved in the observation of the lethal capacity of the agent in experimental inoculation. Due to a lack of more consistent data, this study aimed to establish a classification model of P. multocida pathogenicity in mice using strains isolated from poultry and swine. A total of 94 strains of P. multocida isolated from clinical cases of FC and from lungs of swine were tested. A volume of 0.1 mL of bacterial suspension was obtained from the concentration of 106 CFU/mL and inoculated by an intraperitoneal route in five mice. The animals were observed every six hours over seven days. In addition to the mortality observed, the time of death and gross lesions were also analyzed. The Pathogenicity Indexes obtained showed significant differences (p<0.05) according to the origin of the strains. Likewise, the number of gross lesions and isolation percentages were also varied (p<0.05) among strains isolated from poultry and swine. From the observed ratios, the isolates were grouped into three pathogenicity classes: high, medium and low. This study proposed a consistent measurement and classification of P. multocida pathogenicity. The obtained results will be used to generate other adjusted models, as well as to form the basis for disease diagnosis.
Assuntos
Animais , Ratos , Aves/microbiologia , Camundongos/microbiologia , Pasteurella multocida/patogenicidadeResumo
Pasteurella multocida is a Gram-negative bacillus that causes economic losses due to the development of respiratory diseases in several animal species. Among the mechanisms of virulence, the formation of biofilms is an important factor for bacterial survival in hostile environments. Studies of biofilm formation by P. multocida are needed because P. multocida is an important pathogen involved in respiratory infections. However, in contrast to other microorganisms, few studies of biofilm formation have examined P. multocida. Studies comparing the pathogenicity of microbial strains as a function of their biofilm production capacity are also rare. Consequently, the aim of this study was to evaluate the biofilm formation capacity of 94 P. multocida strains isolated from cases of fowl cholera and from swine lungs on polystyrene plates. The associations of the biofilm formation capacity with the pathogenicity index (PI) in vivo and with the presence of four genes (screened by PCR) of the tad locus (tadB, tadD, tadE and tadG), described as adhesion markers, were also determined. Strains from both animal origins were able to form biofilms. However, most of the specimens (52.13%) were classified as weak producers, and more than 40% of the strains of P. multocida (40.42%) did not produce biofilms. There was no significant difference (p>0.05) in the degree of biofilm production between the two sources of isolation. Of the analyzed strains, 56.52% contained all four genes (tadB, tadD, tadE and tadG). The PI arithmetic mean of the strains classified as non-biofilm producers was significantly different (p<0.05) from the PI of moderate-producer strains. The PI of specimens classified as weak biofilm producers also differed significantly (p<0.05) from that of the moderate-producer strains. The results indicate that even though the P. multocida strains isolated from cases of fowl cholera and swine lungs formed biofilms on polystyrene surfaces, adhesion was usually weak. The genes tadB, tadD, tadE and tadG were not significantly associated (p>0.05) with the production of biofilms and with the origin of a given strain. Finally, low virulence strains may suggest a higher biofilm formation capacity on polystyrene plates.(AU)
Pasteurella multocida é um bacilo Gram negativo que ocasiona perdas econômicas, geralmente associadas a doenças respiratórias em diversas espécies animais. Entre os mecanismos de virulência existentes, a formação de biofilmes demonstra ser um importante fator para a proteção e para a sobrevivência bacteriana em ambientes hostis. Estudos relacionados à formação de biofilmes por P. multocida são necessários, uma vez que este é um importante patógeno envolvido em infecções respiratórias. Entretanto, ainda são poucos os estudos desenvolvidos nesta área, quando comparados com aqueles envolvendo outros microrganismos. Também são os raros os estudos que comparam a patogenicidade das cepas com a sua capacidade de produção de biofilme. Neste contexto, o objetivo deste estudo foi avaliar a capacidade de formação de biofilme em placas de poliestireno de 94 cepas de P. multocida isoladas de casos de cólera aviária e de pulmões de suínos, associando-se com o índice de patogenicidade (IP) in vivo e com a presença de quatro genes do locus tad (tadB, tadD, tadE e tadG), descritos como marcadores de adesão e pesquisados através de PCR. As cepas de ambas as origens foram capazes de formar biofilme. Contudo, a maioria dos exemplares (52,12%) foi classificada como fracamente produtora e mais de 40% das cepas de P. multocida (40,42%) não produziram biofilme. Não foi observada diferença estatística (p>0,05) quanto ao grau de produção de biofilme entre as duas origens de isolamento. 56,52% das cepas analisadas apresentaram os quatro genes (tadB, tadD, tadE e tadG) concomitantemente. O IP médio das cepas classificadas como não produtoras de biofilme apresentou diferença estatística (p˂0,05) em relação ao IP das cepas moderadamente produtoras. Os exemplares classificados como fracamente produtores de biofilme diferiram significativamente (p˂0,05) do grupo de cepas moderadamente produtoras. Os resultados obtidos indicaram que, apesar de as cepas de P. multocida isoladas de casos de cólera aviária e do pulmão de suínos apresentarem capacidade de formar biofilme em superfícies de poliestireno, a adesão ocorreu geralmente de forma fraca. Os genes tadB, tadD, tadE e tadG, pertencentes ao locus tad, não apresentaram associação significativa com a produção de biofilme e nem com a origem de isolamento da cepa. Por fim, observou-se que as cepas de menor patogenicidade apresentaram uma maior capacidade de formação de biofilme em placas de poliestireno.(AU)
Assuntos
Animais , Infecções por Pasteurella/veterinária , Pasteurella multocida/patogenicidade , Biofilmes , Sus scrofa/microbiologiaResumo
Pasteurella multocida is a Gram-negative bacillus that causes economic losses due to the development of respiratory diseases in several animal species. Among the mechanisms of virulence, the formation of biofilms is an important factor for bacterial survival in hostile environments. Studies of biofilm formation by P. multocida are needed because P. multocida is an important pathogen involved in respiratory infections. However, in contrast to other microorganisms, few studies of biofilm formation have examined P. multocida. Studies comparing the pathogenicity of microbial strains as a function of their biofilm production capacity are also rare. Consequently, the aim of this study was to evaluate the biofilm formation capacity of 94 P. multocida strains isolated from cases of fowl cholera and from swine lungs on polystyrene plates. The associations of the biofilm formation capacity with the pathogenicity index (PI) in vivo and with the presence of four genes (screened by PCR) of the tad locus (tadB, tadD, tadE and tadG), described as adhesion markers, were also determined. Strains from both animal origins were able to form biofilms. However, most of the specimens (52.13%) were classified as weak producers, and more than 40% of the strains of P. multocida (40.42%) did not produce biofilms. There was no significant difference (p>0.05) in the degree of biofilm production between the two sources of isolation. Of the analyzed strains, 56.52% contained all four genes (tadB, tadD, tadE and tadG). The PI arithmetic mean of the strains classified as non-biofilm producers was significantly different (p<0.05) from the PI of moderate-producer strains. The PI of specimens classified as weak biofilm producers also differed significantly (p<0.05) from that of the moderate-producer strains. The results indicate that even though the P. multocida strains isolated from cases of fowl cholera and swine lungs formed biofilms on polystyrene surfaces, adhesion was usually weak. The genes tadB, tadD, tadE and tadG were not significantly associated (p>0.05) with the production of biofilms and with the origin of a given strain. Finally, low virulence strains may suggest a higher biofilm formation capacity on polystyrene plates.(AU)
Pasteurella multocida é um bacilo Gram negativo que ocasiona perdas econômicas, geralmente associadas a doenças respiratórias em diversas espécies animais. Entre os mecanismos de virulência existentes, a formação de biofilmes demonstra ser um importante fator para a proteção e para a sobrevivência bacteriana em ambientes hostis. Estudos relacionados à formação de biofilmes por P. multocida são necessários, uma vez que este é um importante patógeno envolvido em infecções respiratórias. Entretanto, ainda são poucos os estudos desenvolvidos nesta área, quando comparados com aqueles envolvendo outros microrganismos. Também são os raros os estudos que comparam a patogenicidade das cepas com a sua capacidade de produção de biofilme. Neste contexto, o objetivo deste estudo foi avaliar a capacidade de formação de biofilme em placas de poliestireno de 94 cepas de P. multocida isoladas de casos de cólera aviária e de pulmões de suínos, associando-se com o índice de patogenicidade (IP) in vivo e com a presença de quatro genes do locus tad (tadB, tadD, tadE e tadG), descritos como marcadores de adesão e pesquisados através de PCR. As cepas de ambas as origens foram capazes de formar biofilme. Contudo, a maioria dos exemplares (52,12%) foi classificada como fracamente produtora e mais de 40% das cepas de P. multocida (40,42%) não produziram biofilme. Não foi observada diferença estatística (p>0,05) quanto ao grau de produção de biofilme entre as duas origens de isolamento. 56,52% das cepas analisadas apresentaram os quatro genes (tadB, tadD, tadE e tadG) concomitantemente. O IP médio das cepas classificadas como não produtoras de biofilme apresentou diferença estatística (p˂0,05) em relação ao IP das cepas moderadamente produtoras. Os exemplares classificados como fracamente produtores de biofilme diferiram significativamente (p˂0,05) do grupo de cepas moderadamente produtoras. Os resultados obtidos indicaram que, apesar de as cepas de P. multocida isoladas de casos de cólera aviária e do pulmão de suínos apresentarem capacidade de formar biofilme em superfícies de poliestireno, a adesão ocorreu geralmente de forma fraca. Os genes tadB, tadD, tadE e tadG, pertencentes ao locus tad, não apresentaram associação significativa com a produção de biofilme e nem com a origem de isolamento da cepa. Por fim, observou-se que as cepas de menor patogenicidade apresentaram uma maior capacidade de formação de biofilme em placas de poliestireno.(AU)
Assuntos
Animais , Infecções por Pasteurella/veterinária , Pasteurella multocida/patogenicidade , Biofilmes , Sus scrofa/microbiologiaResumo
The ability of Pasteurella multocida to invade and multiply in its host is enhanced by the presence of the capsule, one of the most important virulence factors for this bacterium. Capsular typing methods are often used in epidemiological and pathogenesis studies of this agent. Five different serogroups have been identified based on serological typing. However, such tests are laborious, and agglutination of homologous antiserum may fail. The aim of this study was to develop a multiplex PCR protocol for the identification of the hyaD-hyaC and dcbF genes specific to serogroups A and D, respectively, and to compare these results with those of phenotypic tests for 54 strains isolated from fowl cholera cases in southern Brazil. The kappa coefficient and chisquare statistics were calculated to assess the agreement between the diagnostic methods and to determine the significance of the results, respectively. The multiplex PCR was able to detect the evaluated genes. Forty-nine strains (90.74%) were classified into serogroup A, and only two isolates (3.7%) were not identified as belonging to any of the serogroups analyzed. In contrast, with the phenotypic tests, only 41 strains (75.93%) were classified into serogroup A and 11 samples (20.37%) were unidentifiable. Of the strains analyzed, 70.37% were classified into the same serogroup (A) by both methods, and the kappa coefficient (k = 0.017) indicated poor agreement between the tests. Thus, multiplex PCR is an alternative for P. multocida capsular typing, as it allows the simultaneous and rapid detection of genes and also provides a greater strain-typing capacity.
Assuntos
Animais , Aves/microbiologia , Cápsulas Bacterianas , Pasteurella multocida/isolamento & purificação , Pasteurella multocida/patogenicidade , Reação em Cadeia da Polimerase Multiplex/métodos , Reação em Cadeia da Polimerase Multiplex/veterinária , Técnicas de Tipagem Bacteriana/métodosResumo
The ability of Pasteurella multocida to invade and multiply in its host is enhanced by the presence of the capsule, one of the most important virulence factors for this bacterium. Capsular typing methods are often used in epidemiological and pathogenesis studies of this agent. Five different serogroups have been identified based on serological typing. However, such tests are laborious, and agglutination of homologous antiserum may fail. The aim of this study was to develop a multiplex PCR protocol for the identification of the hyaD-hyaC and dcbF genes specific to serogroups A and D, respectively, and to compare these results with those of phenotypic tests for 54 strains isolated from fowl cholera cases in southern Brazil. The kappa coefficient and chisquare statistics were calculated to assess the agreement between the diagnostic methods and to determine the significance of the results, respectively. The multiplex PCR was able to detect the evaluated genes. Forty-nine strains (90.74%) were classified into serogroup A, and only two isolates (3.7%) were not identified as belonging to any of the serogroups analyzed. In contrast, with the phenotypic tests, only 41 strains (75.93%) were classified into serogroup A and 11 samples (20.37%) were unidentifiable. Of the strains analyzed, 70.37% were classified into the same serogroup (A) by both methods, and the kappa coefficient (k = 0.017) indicated poor agreement between the tests. Thus, multiplex PCR is an alternative for P. multocida capsular typing, as it allows the simultaneous and rapid detection of genes and also provides a greater strain-typing capacity.(AU)