Molecular differentiation between Salmonella enterica subsp enterica serovar Pullorum and Salmonella enterica subsp enterica serovar 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.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

Experimental infection of commercial layers using a Salmonella enterica sorovar Gallinarum strain: Blood serum components and histopathological changes

The purpose of the study was to evaluate the blood serum components and histopathological findings of commercial layers experimentally infected with Salmonella Gallinarum (SG), the microorganism responsible for the fowl typhoid. 180 commercial layers were distributed into three groups (G): G1 and G2 received 0.2mL of inoculum containing 3.3x10 8 and 3.3x10 5 CFU of resistant SG to the nalidix acid (Nal r)/mL, respectively, directly into their crops; G3 did not receive the inoculum (control group). The birds were inoculated when they were 5 days old and the euthanasia was performed 24 hours before and after infection and 3, 5, 7 and 10 days after the administration of the inoculum. In each day of collection, blood samples were obtained for biochemical tests of the blood serum besides macroscopic and histopathological examination of the birds. Data were submitted to analysis of variance by the SAS statistical program and the means were compared by Tukeýs test (P<0,05). In the serum biochemical profile it was observed that the infection interfered in the values of total protein, albumin, calcium, phosphorus, cholesterol, triglycerides, GGT and ALT in the infected groups. The macroscopic examination showed hepatomegaly, alteration of the hepatic color and hemorrhagic spots in the kidneys of animals from G1. The histopathology showed degeneration of hepatocytes in G1 and G2 although other lesions like multifocal hepatic necrosis and inflammatory infiltrate on the liver and kidneys were restricted to G1. The alterations were more evident on G1 which received a higher concentration of bacteria/mL when compared to G2. The results showed that the correlation between biochemical alterations and macroscopic and histopathological lesions can assist the comprehension of the pathophysiology of fowl typhoid, supplying important information for the diagnosis and prognosis of this disease