Whole Genome Sequencing of Avian Pathogenic Escherichia coli Causing Bacterial Chondronecrosis and Osteomyelitis in Australian Poultry.

Bacterial chondronecrosis with osteomyelitis (BCO) impacts animal welfare and productivity in the poultry industry worldwide, yet it has an understudied pathogenesis. While Avian Pathogenic Escherichia coli (APEC) are known to be one of the main causes, there is a lack of whole genome sequence data, with only a few BCO-associated APEC (APECBCO) genomes available in public databases. In this study, we conducted an analysis of 205 APECBCO genome sequences to generate new baseline phylogenomic knowledge regarding the diversity of E. coli sequence types and the presence of virulence associated genes (VAGs). Our findings revealed the following: (i) APECBCO are phylogenetically and genotypically similar to APEC that cause colibacillosis (APECcolibac), with globally disseminated APEC sequence types ST117, ST57, ST69, and ST95 being predominate; (ii) APECBCO are frequent carriers of ColV-like plasmids that carry a similar set of VAGs as those found in APECcolibac. Additionally, we performed genomic comparisons, including a genome-wide association study, with a complementary collection of geotemporally-matched genomes of APEC from multiple cases of colibacillosis (APECcolibac). Our genome-wide association study found no evidence of novel virulence loci unique to APECBCO. Overall, our data indicate that APECBCO and APECcolibac are not distinct subpopulations of APEC. Our publication of these genomes substantially increases the available collection of APECBCO genomes and provides insights for the management and treatment strategies of lameness in poultry.

Evaluation of Mycoplasma gallisepticum (MG) ts-304 vaccine as a live attenuated vaccine in turkeys.

Mycoplasma gallisepticum (MG) is an important pathogen of poultry worldwide that causes chronic respiratory disease (CRD) in chickens and infectious sinusitis in turkeys. Vaxsafe MG (strain ts-11) is a live attenuated temperature sensitive vaccine that has been proven to be effective in controlling CRD in chickens, but it is not efficacious in turkeys. The gapA gene, which encodes a mature cytadhesin protein with a molecular weight of approximately 105 kDa, is not expressed in strain ts-11 because a 20 base pair reiterated sequence introduces a frame shift and causes premature truncation of the translated peptide. A GapA positive clone, MG ts-304, isolated from strain ts-11 has been shown to have enhanced efficacy in chickens. Here we describe studies we conducted to assess the safety and efficacy of the MG ts-304 vaccine candidate in turkeys. We found that MG ts-304 was able to colonise the trachea of 3-week-old turkeys and was safe, even at a tenfold overdose, inducing no adverse clinical signs of respiratory disease or significant gross lesions in the respiratory tract (air sacs or trachea), and was poorly transmissible to in-contact birds. We also showed that it was efficacious when administered to 3-week-old turkeys, inducing protective immunity against challenge with the M.gallisepticum wild-type strain Ap3AS. MG ts-304 is therefore a promising live attenuated vaccine candidate for use in turkeys.

Pathological and microbiological investigations into cases of bacterial chondronecrosis and osteomyelitis in broiler poultry.

Bacterial chondronecrosis and osteomyelitis (BCO) is increasingly recognized as a major cause of lameness in commercial broilers chickens worldwide, but the pathogenesis of the condition is incompletely understood. This was a longitudinal study of 20 commercial broiler farms in Victoria, Australia, to investigate the aetiology and pathology of BCO. Thorough postmortem examination was performed on culled and dead birds (n = 325) from 20 different flocks at either 1 week, 4 weeks or 5 weeks of age and samples were analysed by conventional bacteriology, molecular identification of infectious organisms detected, serology and histopathology. BCO occurs throughout the life of broiler flocks at a very high rate, with lesions detected in 28% (95% CI 23-34%) of the mortalities and culls. The condition occurs with similar prevalence in both the femur and tibiotarsus. BCO is an infectious process that appears to result from bacteraemia and haematological spread of bacterial pathogens, especially Escherichia coli, to the bones, with 65.3% bacterial isolates from histologically confirmed BCO identified as E. coli, 11.5% as Staphylococcus and the remainder composed of mixed infections or a range of other minor isolates. We observed that almost all E. coli isolated from cases of BCO are avian pathogenic E. coli, suggesting that preventative measures should be directed at this organism.

Immune responses to vaccination and infection with Mycoplasma gallisepticum in turkeys.

Infection with Mycoplasma gallisepticum induces severe lymphoproliferative lesions in multiple sites along the respiratory tract in chickens and turkeys. These immunopathological responses have been well-characterized in chickens, but have not been studied closely in turkeys. The aim of the study described here was to examine the immune responses of turkeys after live vaccination and infection with M. gallisepticum. In a strain comparison study, the mean log10 antibody titre of birds exposed to an aerosol culture of M. gallisepticum strain Ap3AS was found to be significantly higher at day 14 than that of birds exposed to strain 100809/31. In a dose-response study, there was a significant difference in the mean log10 antibody titre between birds exposed to mycoplasma broth and birds exposed to the highest dose of strain Ap3AS at day 7 after exposure. Immunohistochemical analysis of the tracheal mucosa and the air sacs revealed similar patterns of distribution of CD4+ and CD8+ lymphocytes to those seen in the tracheal mucosa of chickens, implicating these cell types in the pathogenesis of respiratory mycoplasmosis in turkeys. Turkeys that had been vaccinated with M. gallisepticum GapA+ ts-11 had significantly higher antibody titres than unvaccinated birds at both 7 and 14 days after challenge with strain Ap3AS. Vaccination with GapA+ ts-11 protected against the lymphoproliferative response to infection with virulent M. gallisepticum in both the tracheal mucosa and the air sacs, suggesting that this strain may be a useful vaccine candidate for use in turkeys.

Development of a Mycoplasma gallisepticum infection model in turkeys.

Mycoplasma gallisepticum causes chronic respiratory disease in chickens and is also highly pathogenic in turkeys. Several live attenuated M. gallisepticum vaccines are available for prevention of disease in chickens but they are considered to be either not safe or not efficacious in turkeys. The studies presented here aimed to develop a suitable infection model in turkeys, a prerequisite for development of a vaccine against M. gallisepticum for turkeys. Two wild-type Australian M. gallisepticum strains, Ap3AS and 100809/31, were used and their capacity to induce lesions was evaluated in 5-week-old to 6-week-old turkeys exposed to aerosols of these strains. Gross air sac lesion scores in the group exposed to Ap3AS were significantly greater than those in the group exposed to 100809/31 (P < 0.05). Histological tracheal lesion scores and tracheal mucosal thicknesses were significantly greater in birds exposed to either strain than in the unexposed birds (P < 0.05), but no significant differences were observed between the two infected groups. In a subsequent experiment, 6-week-old to 7-week-old turkeys were exposed to different doses of M. gallisepticum Ap3AS. Serology and M. gallisepticum re-isolation performed 14 days after infection showed that all birds exposed to Ap3AS were positive by rapid serum agglutination and by culture. Gross air sac lesion scores in the groups exposed to the highest dose, 8.17 × 10(8) colour-changing units Ap3AS/ml, as well as a 10-fold lower dose were significantly more severe than in the uninfected control group. Lesion scores and tracheal mucosal thicknesses were significantly greater in birds exposed to Ap3AS than in the unexposed birds (P < 0.05). However, no significant differences were seen in tracheal mucosal thicknesses or lesion scores between the groups exposed to the different doses of Ap3AS. This study has established a reliable challenge model for M. gallisepticum infection in turkeys, which will be useful for evaluation of potential M. gallisepticum vaccine candidates for this species.