Avibacterium paragallinarum and Gallibacterium anatis are recognized bacterial pathogens both infecting the respiratory tract of chickens. The present study investigated outcomes of their coinfection by elucidating clinical signs, pathologic lesions, and bacteriologic findings. Additionally, the efficacy of a commercially available vaccine to prevent diseases caused by A. paragallinarum and G. anatis was evaluated. Birds inoculated with G. anatis alone did not present any clinical signs and gross pathologic lesions in the respiratory tract. However, clinical signs of infectious coryza were reproduced in nonvaccinated birds that were challenged with A. paragallinarum alone or together with G. anatis . Such clinical signs were more severe in the coinfected group, including the death of four birds. Some of the birds that were vaccinated and challenged showed mild clinical signs at 7 days postinfection (dpi). Inflammation of sinus infraorbitalis was the most prominent gross pathologic lesion found in the respiratory tract of nonvaccinated birds inoculated either with A. paragallinarum and G. anatis or A. paragallinarum alone. In the reproductive tract, hemorrhagic follicles were observed in nonvaccinated birds that were infected either with G. anatis alone or together with A. paragallinarum . In vaccinated birds, no gross pathologic lesions were found except in one bird that was coinfected with both the pathogens characterized by mucoid tracheitis. Bacteriologic investigations revealed that multiplication of G. anatis at 7 dpi was supported by the coinfection with A. paragallinarum . Altogether, it can be concluded that simultaneous infection of A. paragallinarum and G. anatis can increase the severities of disease conditions in chickens. In such a scenario, vaccination appears to be an effective tool for prevention of the disease, as protection was conferred based on clinical, pathologic, bacteriologic, and serologic data.
Pathogenesis of Gallibacterium anatis was investigated in specific pathogen free cockerels. Birds aged 35 weeks were infected intranasally with G. anatis whereas negative controls were left uninfected. Following infection, necropsy, bacteriological and histopathological investigations were performed in birds killed at 3, 7, 10, 28 and 38 days post infection (d.p.i.). Additionally, semen samples were collected twice a week until 5 weeks post infection for quality assessment. No clinical signs and gross pathological lesions were seen throughout the experiment. Bacteriological investigation revealed that G. anatis colonized the upper respiratory tract at 3 d.p.i. and could be isolated from testis and epididymis at 7 d.p.i. onwards. Bacterial persistence was found in the respiratory tract, gut and testis until the termination of the study at 38 d.p.i. Furthermore, G. anatis was isolated from semen arguing for the possibility of vertical transmission. Histopathological examination showed infiltration of mononuclear cells in epididymal tissue, indicating an inflammation. Density, total motility, progressive motility and membrane integrity of sperms were significantly decreased in infected birds as compared with control chickens. Along with these findings, an increase in spermatozoa with morphological defects was observed at different time points. In conclusion, the present study provides novel data on the impact of a G. anatis infection in cockerels in a natural infection model, thus helping to elucidate bacterial distribution, pathological lesions as well as influences on semen quality.
Recently we demonstrated that co-infection with Avibacterium paragallinarum and Gallibacterium anatis leads to increased severity of clinical signs of infectious coryza in birds. The present study examined the interaction of these two pathogens in chickens by evaluation of histologic lesions in sinus infraorbitalis and nasal turbinates, applying a defined scoring scheme ranging from 0 to 3. Furthermore, for the first time, an in situ hybridization (ISH) technique was applied to detect A. paragallinarum in tissues. The samples were received from vaccinated and nonvaccinated birds that were infected with A. paragallinarum and/or G. anatis. Vaccinated birds were mostly devoid of any histopathologic lesions except a few birds with lesion score 1 at 7 and 14 days postinfection (dpi). Likewise, nonvaccinated birds infected with G. anatis only did not present microscopic changes in the sinus infraorbitalis, except in a single bird at 7 dpi. Interestingly, median lesion scores caused by G. anatis infection were significantly higher in the nasal turbinates of infected birds than in negative control at 7 and 14 dpi. The most prominent histologic changes were recorded from sinus infraorbitalis and nasal turbinates of nonvaccinated birds that were infected either with A. paragallinarum only or together with G. anatis. ISH demonstrated positive signals for A. paragallinarum in exudates present in the lumen or attached to the epithelial layer of investigated tissues. Such signals were mainly detected in tissues from birds with the highest histopathologic lesion scores.
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