Development and Evaluation of Mycoplasma gallisepticum Challenge Model in Layer Pullets.

Manufacturers of Mycoplasma gallisepticum (MG) modified live vaccines usually recommend a single application at 8 wk of age. This makes 12-16-wk-old layer pullets suitable for challenge studies intended to evaluate these vaccines. Numerous challenge models in different poultry species and ages have been reported. However, there is not an established layer pullet challenge model for this age. The aim of this study is to develop a suitable challenge model in 12-wk-old layer pullets. MG Rlow strain was used as the challenge strain, and its ability to induce clinical signs and lesions in 12-wk-old Hy-Line W-36 layer pullets was evaluated. Three different doses (low, 7.95 × 104 color-changing units [CCU]/bird; medium, 7.95 × 106 CCU/bird; and high, 7.95 × 108 CCU/bird) via three different routes (eye drop, fine spray, and contact infection) were compared and evaluated using different parameters. At 14 days post-challenge, there were no mortalities in any of the groups throughout the study. Layer pullets directly challenged with the high dose via the fine spray route showed the clearest and most consistent results (clinical signs, positive quantitative real-time PCR [qPCR], seroconversion, air sac scoring, and histopathological changes of the tracheal mucosa). Medium and low challenge doses applied via fine spray or eye drop did not show consistent results. Rlow strain was able to spread to the contact infection birds, as confirmed by the positive qPCR results; however, none of the contact-infected birds showed any clinical signs or gross or microscopic lesions. Our results suggest that a high dose (7.95 × 108 CCU/bird) administered through a fine spray route is the model of choice in any future MG vaccine evaluation trials in 12-wk-old layer pullets.

Nota de investigación- Desarrollo y evaluación del modelo de desafío para Mycoplasma gallisepticum en pollitas de postura. Los fabricantes de vacunas vivas modificadas contra Mycoplasma gallisepticum (MG) suelen recomendar una sola aplicación a las ocho semanas de edad. Esto hace que las pollitas de postura de 12 a 16 semanas de edad sean adecuadas para estudios de desafío destinados a evaluar estas vacunas. Se han reportado numerosos modelos de desafío en diferentes especies y edades de aves de corral. Sin embargo, no existe un modelo de desafío establecido para pollitas de postura de esta edad. El objetivo de este estudio fue desarrollar un modelo de desafío adecuado en pollitas ponedoras de 12 semanas de edad. Se utilizó la cepa Rlow de Mycoplasma gallisepticum como cepa de desafío y se evaluó su capacidad para inducir signos clínicos y lesiones en pollitas ponedoras Hy-Line W-36 de 12 semanas de edad. Tres dosis diferentes (baja, 7.95 × 104 unidades de cambio de color [CCU]/ave; media, 7.95 × 106 CCU/ave; y alta, 7.95 × 108 CCU/ave) a través de tres rutas diferentes (gota en el ojo, aerosol con gota fina e infección por contacto) se compararon y evaluaron utilizando diferentes parámetros. A los 14 días posteriores al desafío, no hubo mortalidades en ninguno de los grupos durante todo el estudio. Las pollitas de postura expuestas directamente a la dosis alta a través de la ruta de aerosol con gota fina mostraron los resultados más claros y consistentes (signos clínicos, PCR cuantitativa en tiempo real [qPCR] positiva, seroconversión, puntuación de lesiones en los sacos aéreos y cambios histopatológicos de la mucosa traqueal). Las dosis de desafío medias y bajas aplicadas mediante aerosol con gota fina o gota en el ojo no mostraron resultados consistentes. La cepa Rlow pudo propagarse a las aves infectadas por contacto, como lo confirmaron los resultados positivos de qPCR; sin embargo, ninguna de las aves infectadas por contacto mostró signos clínicos o lesiones macroscópicas o microscópicas. Estos resultados sugieren que una dosis alta (7.95 × 108 CCU/ave) administrada a través de una ruta de aerosol con gota fina es el modelo de elección en cualquier ensayo futuro de evaluación de vacunas para M. gallisepticum en pollitas de postura de 12 semanas de edad.

Complete genome sequences generated using hybrid Nanopore-Illumina assembly of two non-typical Avibacterium paragallinarum strains isolated from clinically normal chicken flocks.

We report the complete genome sequences of two non-typical Avibacterium paragallinarum (AP) strains isolated from chickens in the absence of clinical signs. The availability of these genomes can aid scientists in improving current diagnostics and increase our understanding of AP epidemiology and pathogenicity in chickens.

Space-Time Patterns of Poultry Pathogens in the USA: A Case Study of Ornithobacterium rhinotracheale and Pasteurella multocida in Turkey Populations.

Respiratory infections caused by Ornithobacterium rhinotrachealis (ORT) and Pasteurella multocida (PM) bacteria are significant threats to the poultry industry by causing economic losses and welfare issues. Due to characterization difficulties and underutilization of epidemiological tools, description of the spatio-temporal spread of these diseases in the field is limited. The objectives of this retrospective observational cross-sectional study were to (a) investigate the existence of space-time clusters (hotspots); and (b) investigate the association between genetic similarity and spatial proximity for both pathogens using molecular typing and a recently developed Core-Genome Multilocus Sequencing Typing (cgMLST) scheme. ORT (n = 103) and PM (n = 69) isolates from confirmed disease outbreaks from one commercial company between 2013 and 2021 were obtained from a veterinary diagnostic laboratory, characterized using a cgMLST scheme and visualized using a minimum spanning tree. Spatio-temporal cluster analysis using SaTScanTM and a Spearman's rank correlation were performed to investigate clustering and any association between allelic diversity and geospatial distance. The cgMLST sequencing revealed three allelic clusters for ORT and thirteen clusters for PM. The spatio-temporal analysis revealed two significant clusters for PM, one with a 259.3 km cluster containing six cases between May and July 2018 and a 9 km cluster containing five cases between February 2019 and February 2021. No spatio-temporal clusters were found for ORT. A weak negative correlation between allelic diversity and geospatial distance was observed for ORT (r = -0.04, p < 0.01) and a weak positive correlation was observed for PM (r = 0.11, p < 0.01). This study revealed regional spatio-temporal clusters for PM in commercial turkey sites between 2018 and 2021 and provided additional insight into bacterial strain subgroups and the geographical spread of ORT and PM over time.

Complete Genome Sequences of Two Pasteurella multocida Isolates from Seabirds.

Pasteurella multocida is one of the major causes of mass mortalities in wild birds. Here, we report the complete genome sequences of two P. multocida isolates from wild populations of two endangered seabird species, the Indian yellow-nosed albatrosses (Thalassarche carteri) and the northern rockhopper penguins (Eudyptes moseleyi).

Complete Genome Sequence and Annotation of Malacoplasma iowae Type Strain 695, Generated Using PacBio Sequencing.

Malacoplasma iowae, previously known as "Mycoplasma iowae," is associated with embryo mortality, reduced hatchability, and leg abnormalities in turkeys, leading to considerable economic losses. Here, we report the complete and annotated genome sequence of Malacoplasma iowae type strain 695.

Complete Genome Sequences of Three Ornithobacterium rhinotracheale Strains from Avian Sources, Using Hybrid Nanopore-Illumina Assembly.

Ornithobacterium rhinotracheale has been associated with respiratory disease in poultry, particularly turkeys, leading to significant economic losses. However, O. rhinotracheale is poorly studied, and a very limited number of complete genomes are available. Here, we report the complete genome sequences of three O. rhinotracheale strains, generated using a Nanopore-Illumina hybrid assembly approach.

Correction: Hashish et al. Development and Validation of a New TaqMan Real-Time PCR for the Detection of Ornithobacterium rhinotracheale. Microorganisms 2022, 10, 341.

The authors would like to make the following corrections to this paper [...].

Development and Validation of a New TaqMan Real-Time PCR for the Detection of Ornithobacterium rhinotracheale.

Ornithobacterium rhinotracheale (ORT) has been associated with poultry respiratory disease worldwide. The organism is fastidious and isolation is challenging. One TaqMan real-time PCR (qPCR) assay has been developed for the detection of ORT. However, during validating the ORT qPCR, the assay performance was suboptimal. During the in silico evaluation, deviations from the basic parameters for primers and probes designs (e.g., presence of stable undesirable primer-dimers) were observed. The suboptimal design led to low efficiency and low sensitivity of the assay. Initially, modification on the probe was carried out to improve the performance of the assay. However, the assay's performance (efficiency and sensitivity) was still suboptimal. In this manuscript, we describe the development of a new qPCR assay and the comparison of its performance with the currently available assay. A highly efficient, sensitive, and specific qPCR assay was developed with approximately 1000-folds reduction in the limit of detection (from 3 × 106 plasmid DNA copies/mL to 1 × 103 plasmid DNA copies/mL). Additionally, the efficiency of the new assay (E = 98.70%) was significantly better than the current assay (E = 73.18%). The newly developed assay is an improved diagnostic tool for the sensitive and efficient diagnosis of ORT from clinical samples.

Development and Validation of Two Diagnostic Real-Time PCR (TaqMan) Assays for the Detection of Bordetella avium from Clinical Samples and Comparison to the Currently Available Real-Time TaqMan PCR Assay.

Bordetella avium (BA) is one of many pathogens that cause respiratory diseases in turkeys. However, other bacterial species can easily overgrow it during isolation attempts. This makes confirming the diagnosis of BA as the causative agent of turkey coryza more difficult. Currently, there are two PCR assays for the molecular detection of BA. One is conventional gel-based PCR and the other is TaqMan real-time PCR (qPCR) assay. However, multiple pitfalls were detected in both assays regarding their specificity, sensitivity, and efficiency, which limits their utility as diagnostic tools. In this study, we developed and validated two TaqMan qPCR assays and compared their performance to the currently available TaqMan qPCR. The two assays were able to correctly identify all BA isolates and showed negative results against a wide range of different microorganisms. The two assays were found to have high efficiency with a detection limit of approximately 1 × 103 plasmid DNA Copies/mL with high repeatability and reproducibility. In comparison to the currently available TaqMan qPCR assay, the newly developed assays showed significantly higher PCR efficiencies due to superior primers and probes design. The new assays can serve as a reliable tool for the sensitive, specific, and efficient diagnosis of BA.

Novel reassortant of H9N2 avian influenza viruses isolated from chickens and quails in Egypt.

BACKGROUND AND AIM: Poultry infections with H9N2 avian influenza viruses (AIVs) are endemic in Egypt. This study determined the genetic changes in the sequences of H9N2 AIVs isolated from chicken and quails in Egypt, including determining genetic reassortment and detecting the main genetic changes in hemagglutinin (HA) and neuraminidase (NA) genes. MATERIALS AND METHODS: Swab samples were collected from chicken and quails, examined through reverse transcription-polymerase chain reaction, and AIVs from positive samples were isolated in embryonated chicken eggs. Complete genome sequencing and phylogenetic analyses were conducted for two H9N2 AIV isolates, and sequences of HA and NA gene segments were analyzed in another two isolates. RESULTS: A novel reassortant virus was identified from a commercial chicken flock (A/chicken/Egypt/374V/2016) and quails from a live bird market (A/quail/Egypt/1253V/2016). The reassortant viruses acquired four genome segments from the classic Egyptian H9N2 viruses (HA, NA, NP, and M) and four segments from Eurasian AIVs (PB2, PB1, PA, and NS). Many genetic changes have been demonstrated in HA and NA genes. The isolated novel reassortant H9N2 virus from quails showed amino acid mutations in the antigenic sites on the globular head of the mature HA monomer matched with the parent Egyptian H9N2 virus. CONCLUSION: This work described the genetic characterization of a novel reassortment of the H9N2 virus in Egypt. The emergence of new reassorted AIV viruses and genome variability raises the concern of an influenza pandemic with zoonotic potentials.

Near-Complete Genome Sequence of GI-17 Lineage Infectious Bronchitis Virus, Circulating in Iowa.

Avian infectious bronchitis virus (AvIBV) is the causative agent of a highly contagious respiratory disease in chickens which results in significant economic losses in the poultry industry. Here, we report a near-complete genome sequence of the strain, designated IA1162/2020, identified in tracheal swabs from chickens in Iowa in 2020.