ABSTRACT
Celulite aviária é uma enfermidade de grande importância para a avicultura mundial, sendo relacionada principalmente à Escherichia coli (E. coli). Neste estudo foi comparada a susceptibilidade de duas linhagens de aves no desenvolvimento da celulite diante do desafio com diferentes concentrações de E. coli. Além disso, foi avaliada a relação dos genes iss e iutA com a patogenicidade de amostras de E. coli de diferentes origens (fecal/casos clínicos) em pintinhos e com a reprodução experimental da doença em aves de 35 dias de idade. Através da inoculação de frangos de corte (Cobb/Ross) com diferentes níveis de desafio (105 a 108 UFC/mL) de E. coli, não foram observadas diferenças significativas entre as linhagens quanto à sensibilidade à dermatite necrótica para a mesma dosagem (p≤0,05). A detecção dos genes iss e iutA demonstrou que estes estiveram presentes somente nas amostras provenientes de casos clínicos. Da mesma forma, estes isolados foram considerados de alta patogenicidade para pintinhos (>80% letalidade), levando a formação de áreas de lesão mais extensas (≥3cm2) em aves de 35 dias, quando comparado às amostras de origem fecal (p≤0,05). Ainda, as diferenças com relação ao tamanho de lesão foram constatadas também entre os isolados de mesma origem (p≤0,05). Desta forma, a linhagem não pode ser considerada um fator primordial para o desenvolvimento de dermatite necrótica em frangos. Ainda, sugere-se que os genes iss e iutA, quando presentes em conjunto ou isoladamente, poderiam ser considerados marcadores de virulência em cepas de E. coli causadoras de celulite aviária.(AU)
Avian cellulitis is a disease of great importance for the global poultry industry, being mainly related to Escherichia coli. In this study the susceptibility of two lineages of broilers in the development of cellulite was compared to the challenge with different concentrations of E. coli. In addition, it evaluated the relationship of the iss and iutA genes with pathogenicity of E. coli samples from different origins (fecal/clinical cases) in chicks and with the experimental reproduction of disease in 35-day-old broilers. By inoculating broilers (Cobb/Ross) with different levels of challenge (105-108 CFU/mL) of E. coli, no significant differences had been observed between strains for sensitivity to necrotic dermatitis for the same dosage (p≤0.05). Detection of the iss and iutA genes showed that they were only present in samples from clinical cases. Likewise, these strains were considered high pathogenicity for chickens (>80% lethality), leading to the formation of more extensive lesion areas (≥3cm2) at 35 days of birds compared to the samples from fecal origin (p≤0.05). Still, the differences with respect to lesion size were also found among isolates of the same origin (p≤0,05). Thus, the lineage can not be considered a primary factor in the development of necrotic dermatitis in broilers. Furthermore, it is suggested that iss and iutA genes, when present together or separately, could be considered as virulence markers for E. coli strains that cause avian cellulite.(AU)
Subject(s)
Animals , Chickens/genetics , Virulence Factors/genetics , Disease Susceptibility/veterinary , Escherichia coli/genetics , Cellulite/genetics , Cellulite/veterinary , Dermatitis/veterinaryABSTRACT
Context: Escherichia coli is a major cause of bloodstream infections and death due to sepsis. Bacteremic isolates harbor a signifi cantly greater repertoire of virulence factors (VFs) in contrast with commensal E. coli isolates. Aims: The aim was to determine the relationships between E. coli VFs, phylogenetic groups, and their clinical importance. Settings and Design: This descriptive study was carried out in a multi-specialty tertiary care hospital. Materials and Methods: Escherichia coli isolates from consecutive episodes of bacteremia in 100 patients were screened for their VFs, phylogenetic group, and their effect on patient’s clinical outcome. Virulence genes of all isolates were determined by multiplex polymerase chain reaction (PCR). Phylogenetic analysis was performed by triplex PCR methods. Estimation of risk of death was calculated using APACHE score II calculator. Results: Of the 100 patients, the most common predisposing factors were diabetes (42%), followed by carcinoma (23%). On analysis of the VF genes of the isolates, a majority of strains (88%) were possessing the fi mH gene followed by iutA (76%), papC (44%), cnf1 (16%), hlyA (16%) and neuC (5%) respectively. Phylogenetic analysis revealed that 25 (25%) isolates belonged to phylogroup A, 8(8%) strains to group B1, 30 (30%) were from group B2 and 37 (37%) were from group D. The incidence of iutA gene was signifi cant in higher APACHE II score group. Conclusions: Our fi ndings indicate that virulent as well as commensal strains are capable of causing sepsis. Host related predisposing factors, adherence factors, and iron uptake are essential for the survival of the sepsis inducing strains.
ABSTRACT
The aim of this work was to isolate, clone and characterize the iron uptake gene iutA from avian pathogenic E. coli (APEC). The iutA gene was isolated from the strain APEC 9, serotype O2:H9, which was cloned in the expression vector pET101/D-TOPO. The gene of 2.2 Kb was sequenced (AY602767, which showed high similarity to the iutA gene from three plasmids, two from APEC, pAPEC-02-ColV (AY545598.4) and pTJ100 (AY553855.1), and one from a human invasive E. coli strain, the pColV K30. The recombinant protein IutA was over expressed in E. coli BL21(DE-3) and was solubilized with urea and purified by Ni-NTA column. This method produced a relatively high yield of r-IutA of approximately 74kDa, which was used to produce the antibody anti-IutA. This anti-IutA reacted with the protein r-IutA and native IutA of APEC 9, as demonstrated by Western blot, showing that the r-IutA conserved epitopes and its antigenicity was preserved. The anti-IutA IgY was able to inhibit the IutA biological activity, inhibiting the sensitivity to cloacin DF13 of APEC9. However, it did not inhibit the growth of APEC9 in M9 and did not protect the chickens inoculated with the APEC, suggesting that the APEC possessed another iron acquisition mechanism distinct of aerobactin.
A proteína de membrane externa IutA (iron uptake transport) é o receptor para aerobactina férrica, um fator de virulência encontrado mais frequentemente entre as amostras de E. coli pathogênicas para aves (APEC) do que entre os isolados fecais de aves saudáveis. O gene iutA da amostra APEC 9, sorotipo O2:H9, foi amplificado e clonado no vetor pET101/D-TOPO. O gene iutA 2.2 Kb foi sequenciado (AY602767) e mostrou alta similaridade para gene iutA de três plasmidios, dois da APEC, pAPEC-02-ColV (AY545598.4) e pTJ100 (AY553855.1), e um da amostra E. coli invasiva humana, pColV K30. A proteína IutA recombinante (r-IutA) foi produzida em Escherichia coli BL21(DE-3), solubilizada com uréia e purificada em coluna de níquel Ni-NTA. A r-IutA tem aproximadamente 74kDa e foi utilizada para produzir anticorpos anti-IutA. Este anticorpo reagiu com a r- IutA e com IutA da APEC13, como demonstrado por Western blot, mostrando que a r-IutA tem epitopos conservados e sua antigenicidade foi preservada. O anticorpo anti-IutA foi capaz de inibir a atividade biológica da IutA, inibindo o teste positivo de sensibilidade à cloacina DF13 apresentada pela APEC 9, contudo não inibiu o crescimento da APEC9 crescida em M9 e não protegeu os pintinhos inoculados com APEC 9, sugerindo que a APEC possui outro mecanismo de captação de íons ferro distinto da aerobactina.