ABSTRACT
La calidad de los alimentos que consumimos se ha convertido en uno de los principales problemas de salud pública a nivel mundial, ya que son la puerta de entrada de patógenos y vectores para la trasmisión de diversas enfermedades. Se estimó que el 17,9% de las enfermedades trasmitidas por el consumo de alimentos, está relacionada con aves de corral, y el 19% de estas enfermedades, están asociadas a la contaminación por Salmonella entérica. La Salmonelosis es una enfermedad invasiva que afecta en gran medida a las poblaciones altamente vulnerables (niños, ancianos e inmunocomprometidos), causando la necesidad de hospitalización y en ocasiones la muerte. A nivel mundial se estima que anualmente hay más de 94 millones de personas afectadas por gastroenteritis causada por el consumo de aves contaminadas con Salmonella, así como más de 155.000 fallecidos. Sin embargo, los orígenes de esta cepa: Salmonella entérica y otras de mayor alcance patógeno están influenciadas muy de cerca por el control de dos cepas con poca acción en la población humana: la S. polloroum y la S. gallinarum. La casi desaparición de estos dos serovares impulsó la colonización de cepas más resistente a los antibióticos y más perjudiciales para los seres humanos(AU)
The quality of the food we consume has become one of the main public health problems worldwide, since it is the gateway for pathogens and vectors for the transmission of various diseases. It was estimated that 17.9% of diseases transmitted by food consumption are related to poultry, and 19% of these diseases are associated with contamination by Salmonella enterica. Salmonellosis is an invasive disease that greatly affects highly vulnerable populations (children, the elderly and immunocompromised), causing the need for hospitalization and sometimes death. Worldwide, it is estimated that annually there are more than 94 million people affected by gastroenteritis caused by the intake of poultry contaminated with Salmonella, as well as more than 155,000 deaths. However, the origins of this strain: Salmonella enterica and others with a greater pathogenic scope are closely influenced by the control of two strains with little action in the human population: S. polloroum and S. gallinarum. The near disappearance of these two serovars prompted the colonization of strains more resistant to antibiotics and more harmful to humans(AU)
Subject(s)
Poultry , Salmonella , Food Quality , Salmonella Infections , Public Health , Environmental Pollution , GastroenteritisABSTRACT
Coturniculture has increased significantly in the last decades. There are several pathogens that can affect these birds. Among the diseases, fowl typhoid stands out as a disease with a potentially great impact to the poultry industry. The objective of this the study was to evaluate the effect of doses and administration routes of live 9R vaccine on protection of Japanese quails against experimental infection with Salmonella Gallinarum (SG). Two hundred and fifty birds were used, divided into five groups: G1, oral vaccination with one dose; G2, oral vaccination with 2 doses; G3, subcutaneous vaccination with one dose; G4, subcutaneous vaccination with two doses and G5 not vaccinated. All birds from all five groups were challenged with SG at an age of 45 days. SG was quantified in the periods of one, four, seven and twelve days after the challenge. The presence of clinical signs and macroscopic lesions of the disease were observed. The groups vaccinated by subcutaneous route had a higher egg production and lower mortality rate. Birds receiving a dose of the vaccine by subcutaneous route also showed lower amount of SG in the liver and spleen seven days after the challenge.(AU)
A coturnicultura tem aumentado significativamente nas últimas décadas. Existem vários patógenos que podem afetar essas aves. Entre as doenças, o tifo aviário se destaca como uma doença de grande impacto para a indústria avícola. O objetivo deste estudo foi avaliar o efeito de doses e vias de administração da vacina viva 9R na proteção de codornas japonesas contra infecção experimental por Salmonella Gallinarum (SG). Foram utilizadas duzentos e cinquenta aves, divididas em cinco grupos: G1, vacinação oral com uma dose; G2, vacinação oral com 2 doses; G3, vacinação subcutânea com uma dose; G4, vacinação subcutânea com duas doses e G5 não vacinado. Todas as aves dos cinco grupos foram desafiadas com SG aos 45 dias de idade. A SG foi quantificada nos períodos de um, quatro, sete e doze dias após o desafio. Foi observada a presença de sinais clínicos e lesões macroscópicas da doença. Os grupos vacinados por via subcutânea apresentaram maior produção de ovos e menor taxa de mortalidade. Aves recebendo uma dose da vacina por via subcutânea também apresentaram menor quantidade de SG no fígado e baço sete dias após o desafio.(AU)
Subject(s)
Animals , Salmonella/immunology , Vaccines/administration & dosage , Drug Administration Routes/veterinary , Coturnix/immunologyABSTRACT
A comparative survey between non-systemic (paratyphoid Salmonellae) and systemic (S. Pullorum and S. Gallinarum) Salmonella strains was performed to produce a virulence gene profile for differentiation among the groups. The following virulence genes were evaluated: invA, spvC, sefC, pefA, fimY, sopB, sopE1, stn and avrA. There are substantial differences among paratyphoid Salmonellae, S. Pullorum, and S. Gallinarum regarding the genes sefC, spvC, sopE1 and avrA. A higher frequency of sefC, spvC, sopE1 and avrA genes were detected in S. Gallinarum and S. Pullorum when compared with strains from the paratyphoid group of Salmonella. These results may be useful for differentiating among different groups and serotypes.(AU)
Uma investigação comparativa entre amostras de Salmonella não-sistêmicas (grupo paratifoide) e sistêmicas (S. Pullorum and S. Gallinarum) foi desenvolvida para produzir um perfil de genes de virulência para diferenciação entre os grupos. Os seguintes genes de virulência foram avaliados invA, spvC, sefC, pefA, fimY, sopB, sopE1, stn e avrA. Detectou-se uma diferença substancial entre Salmonella do grupo paratifoide, S. Pullorum e S. Gallinarum considerando os genes sefC, spvC, sopE1 e avrA. Os genes sefC, spvC, sopE1 e avrA foram detectados, em maior número, em S. Gallinarum e S. Pullorum quando comparados com as amostras de Salmonella do grupo paratifoide. Estes resultados podem ser úteis para a diferenciação entre os diferentes grupos e sorotipos de Salmonella.(AU)
Subject(s)
Animals , Poultry Diseases/microbiology , Salmonella/genetics , Salmonella/pathogenicity , ChickensABSTRACT
We evaluated the effects of guanosine 5′-monophosphate (GMP)-chelated calcium and iron (CaFe-GMP) on health and egg quality in layers experimentally infected with Salmonella Gallinarum. In this study, a CaFe-GMP feed additive was added to a commercial layer feed and fed to layers over a four-week period. All were inoculated with Salmonella Gallinarum. Body weight, mortality, clinical symptoms, and poultry production including feed intake, egg production, egg loss, and feed conversion rate were observed, and Salmonella Gallinarum was re-isolated from the liver, spleen, and cecum of the layers. All tested internal organs for the CaFe-GMP additive group exhibited significantly lower re-isolation numbers of Salmonella Gallinarum and less severe pathological changes than those in the control group, indicating that the CaFe-GMP feed supplement induced bacterial clearance and increased resistance to Salmonella Gallinarum. Additionally, due to the inhibitory action of CaFe-GMP on the growth of Salmonella Gallinarum, the CaFe-GMP additive group exhibited better egg production, including a higher laying rate and fewer broken eggs. The results suggest that a 0.16% CaFe-GMP additive may help prevent salmonellosis in the poultry industry.
Subject(s)
Body Weight , Calcium , Cecum , Eggs , Guanosine , Iron , Liver , Mortality , Ovum , Poultry , Poultry Products , Salmonella Infections , Salmonella , SpleenABSTRACT
The Ecklonia cava Kjellman by-product (ECBP) as a feed additive was evaluated in improvement of productivity and immune enhancement against Salmonella Gallinarum (SG). Lohmann Brown chickens proved SG-free were randomly divided into 3 groups of 8 chickens each. Chickens were fed with the experimental diet treatment: T0, Non treatment-commercial feed; T1, commercial feed with 0.5% ECBP; T2, commercial feed with 0.1% Lactobacillus plantarum. In this study, we evaluated the effect of T1 and T2 groups on the body weight and protective efficacy against SG in chickens. The results demonstrated that treatment of T1 group as a feed additive affected significantly body weight gaining in chickens. In addition, T1 group showed a significant different colonization of SG when compared to T2 and T0 groups. We also studied that serum IgG and interferon-γ levels were significantly different compared with other treatment groups. Therefore, we suggest that ECBP can be used as a good candidate of feed additives in chicken industry.
ABSTRACT
Salmonella enterica serovar Gallinarum (SG) is an intracellular pathogen of chickens. To survive, to invade and to multiply in the intestinal tract and intracellularly it depends on its ability to produce energy in anaerobic conditions. The fumarate reductase (frdABCD), dimethyl sulfoxide (DMSO)-trimethylamine N-oxide (TMAO) reductase (dmsABC), and nitrate reductase (narGHIJ) operons in Salmonella Typhimurium (STM) encode enzymes involved in anaerobic respiration to the electron acceptors fumarate, DMSO, TMAO, and nitrate, respectively. They are regulated in response to nitrate and oxygen availability and changes in cell growth rate. In this study mortality rates of chickens challenged with mutants of Salmonella Gallinarum, which were defective in utilising anaerobic electron acceptors, were assessed in comparison to group of bird challenged with wild strain. The greatest degree of attenuation was observed with mutations affecting nitrate reductase (napA, narG) with additional attenuations induced by a mutation affecting fumarate reductase (frdA) and a double mutant (dmsA torC) affecting DMSO and TMAO reductase.
Subject(s)
Animals , Bacteria, Anaerobic/genetics , Enzyme Activation , Genes, Bacterial , Mutation , Poultry , Salmonella Infections , Salmonella enterica/genetics , Salmonella enterica/isolation & purification , Clinical Enzyme Tests , Methods , Methods , VirulenceABSTRACT
Salmonella enterica serovar Gallinarum (SG) is a fowl typhoid agent in chickens and is a severe disease with worldwide economic impact as its mortality may reach up to 80 percent. It is one of a small group of serovars that typically produces typhoid-like infections in a narrow range of host species and which therefore represents a good model for human typhoid. The survival mechanisms are not considered to be virulent mechanisms but are essential for the life of the bacterium. Mutants of Salmonella Gallinarum containing defective genes, related to cobalamin biosynthesis and which Salmonella spp. has to be produced to survive when it is in an anaerobic environment, were produced in this study. Salmonella Gallinarum is an intracellular parasite. Therefore, this study could provide information about whether vitamin B12 biosynthesis might be essential to its survival in the host. The results showed that the singular deletion in cbiA or cobS genes did not interfere in the life of Salmonella Gallinarum in the host, perhaps because single deletion is not enough to impede vitamin B12 biosynthesis. It was noticed that diluted SG mutants with single deletion produced higher mortality than the wild strain of SG. When double mutation was carried out, the Salmonella Gallinarum mutant was unable to provoke mortality in susceptible chickens. This work showed that B12 biosynthesis is a very important step in the metabolism of Salmonella Gallinarum during the infection of the chickens. Further research on bacterium physiology should be carried out to elucidate the events described in this research and to assess the mutant as a vaccine strain.
Salmonella enterica serovar Gallinarum (SG) é o agente do tifo aviário, doença severa que provoca mortalidade em até 80 por cento do plantel de aves. SG encontra-se entre os poucos sorotipos de Salmonella que são agentes etiológicos de enfermidade específica, à semelhança de Salmonella Typhi em seres humanos podendo, portanto, servir de modelo experimental para outras salmoneloses hospedeiro especíifcas. Além dos mecanismos de virulência, a bactéria utiliza mecanismos de sobrevivência para permanecer no hospedeiro. A ativação desses mecanismos pode ou não estar associada à ativação dos mecanismos de virulência. Entre os mecanismos fisiológicos, está a produção de vitamina B12 que Salmonella spp. realiza em ambientes anaeróbicos, como quando encontra-se intracelularmente no organismo hospedeiro. Neste estudo, analisou-se a infecção de aves por cepas de SG, que tiveram genes alterados que participam da biossíntese de vitamina B12. Foram produzidos mutantes de SG contendo os genes cbiA e cobS alterados e um terceiro, contendo ambos os genes alterados. A sobrevivência e a ação patogênica de SG não foi modificada pela alteração simples de um dos genes, mas tornou a cepa de SG completamente atenuada quando os dois foram modificados. A mortalidade provocada pela cepa selvagem de SG foi de 64,52 por cento, enquanto que não observou-se mortalidade alguma no grupo de aves infectadas com SGNal r"cobs"cbiA. Estudos futuros deverão ser realizados para elucidar este processo fisiológico bacteriano e para avaliar a utilização desta cepa de SG como cepa vacinal.
ABSTRACT
S. Pullorum (SP) and S. Gallinarum (SG) are very similar. They are the agents of pullorum disease and fowl typhoid, respectively, and the two diseases are responsible for economic losses in poultry production. Although SP and SG are difficult to be differentiated in routine laboratory procedures, the ability to metabolize ornithine is a biochemical test that may be used to achieve this aim. While SP is able to decarboxylate this amino acid, SG is not. However, the isolation of strains showing atypical biochemical behavior has made this differentiation difficult. One of the genes associated with the metabolization of the amino acid ornithine is called speC, and is found in both serovars. The analysis of 21 SP and 15 SG strains by means of PCR did not enable the differentiation of the two serovars, because fragments produced were identical. However, after enzymatic treatment with restriction enzyme Eco RI, the band pattern of each serovar showed to be different, even in samples of atypical biochemical behavior. This fact enabled the standardization of the technique for a quick and safe differentiation of serovars Pullorum and Gallinarum.
A S. Pullorum (SP) é muito semelhante à S. Gallinarum (SG), agentes da Pulorose e Tifo aviário, respectivamente, sendo que as duas enfermidades são responsáveis por perdas econômicas no setor avícola. SP e SG são de difícil diferenciação em procedimento laboratorial rotineiro, mas uma prova bioquímica muito utilizada na distinção das duas refere-se à capacidade de assimilar o aminoácido ornitina: SP descarboxila este aminoácido enquanto SG não. No entanto, o isolamento de cepas com comportamento bioquímico atípico, tem dificultado tal diferenciação. Um dos genes relacionados à assimilação do aminoácido ornitina, denomina-se gene speC, o qual está presente nos dois sorovares. Analisando 21 amostras de SP e 15 de SG com a utilização da PCR não foi possível realizar a diferenciação dos dois sorovares pois os fragmentos gerados eram idênticos. Posteriormente, com o uso da técnica de tratamento enzimático com a enzima de restrição Eco RI, foi possível observar que o padrão de bandas gerado em cada sorovar era diferente, mesmo quando amostras que apresentavam comportamento bioquímico atípico eram analisadas. Tal fato permitiu a padronização da técnica para ser utilizada na diferenciação entre os sorovares Pullorum e Gallinarum de maneira rápida e segura.
Subject(s)
Animals , Poultry , Salmonella Infections , Salmonella enterica/genetics , Salmonella enterica/isolation & purification , Methods , Poultry Products , Diagnostic Techniques and ProceduresABSTRACT
To evaluate the degree of competitive exclusion against Salmonella gallinarum(S. gallinarum) of Salmonella enteritidis(S. enteritidis) infected chickens, fifty-six, 4-week old Hyline layer suspected of S. enteritidis infection were challenged with S. gallinarum. All chickens were tested for S. enteritidis isolation using cloacal swabs and serum plate agglutination test using S. enteritidis Ag. before challenge and classified into four groups(SE isolated, SE nonisolated, SE seropositive and SE seronegative). None of the SE isolated and the SE seropositive groups died after challenge and the average weight gains were 245.5g and 254.6g, respectively. But in the SE nonisolated and the SE seronegative groups, mortality was 18.2% and 20.6% and the average weight gains were 150.1g and 111.2g. The incidence of reisolation of S. gallinarum of the SE isolated and the SE seropositive groups were 41.7% and 47.6% from liver, 33.3% and 47.6% from spleen and 8.3% and 14.3% from cecum, respectively, and the SE nonisolated and the SE seronegative group were 63.6% and 64.7% from liver, 84.1% and 88.2% from spleen and 47.7% and 52.9% from cecum. The serological response of the SE isolated and the SE seropositive groups hardly changed from 75.0 and 81.8% before challenge to 75.0 and 85.7% after. But, the other two groups were found to be significantly higher after challenge and increased from 0 and 18.2% to 100%. Consequently, S. enteritidis preinfected chickens were found to be significant different in terms of mortality, weight gain, reisolation of S. gallinarum and serological response compared to noninfected chickens. Moreover, our study shows that S. enteritidis infected chickens appear strong competitive exclusion against the colonization of S. gallinarum.