Detection and Molecular Characterization of GI-1 and GI-23 Avian Infectious Bronchitis Virus in Broilers Indicate the Emergence of New Genotypes in Bolivia.

Infectious Bronchitis Virus (IBV) is a major threat to the poultry industry worldwide, causing significant economic losses. While the virus's genetic structure is well understood, the specific strains circulating in Bolivia have remained uncharacterized until now. This study aimed to identify and characterize new IBV strains in Bolivia. Tissue samples from broilers exhibiting clinical signs of Infectious Bronchitis were screened to detect IBV using real-time RT-PCR (RT-qPCR). Positive samples with low cycle threshold (Ct) values were selected for sequencing the full S1 gene. Of the 12 samples analyzed, 10 were determined to be positive for IBV. However, only four samples yielded sufficient genetic material for sequencing and subsequent phylogenetic analysis. The results revealed the presence of GI-1 and GI-23 lineages, both belonging to genotype I (GI). The GI-1 lineage showed >99% sequence identity to the H120 and Massachusetts vaccine strains, suggesting a close relationship. In contrast, the GI-23 lineage clustered with other IBV strains, showing a distinct subclade that is genetically distant from Brazilian strains. No evidence of recombination was found. Furthermore, amino acid substitution analysis identified specific mutations in the S1 subunit, particularly in the hypervariable regions 1, 2, and 3. These mutations could potentially alter the virus's antigenicity, leading to reduced vaccine efficacy. The findings of this study highlight the importance of continued and broad genomic surveillance of circulating IBV strains and the need to improve vaccination strategies in Bolivia.

Antigenic and molecular characterization of isolates of the Brazilian genotype BR-I (GI-11) of infectious bronchitis virus supports its recognition as BR-I serotype.

The antigenic and molecular characteristics of BR-I infectious bronchitis viruses (IBVs) isolated from Brazil are reported. IBVs isolated from commercial flocks with different clinical manifestations between 2003 and 2019 were submitted to antigenic and molecular characterization. The complete S1 glycoprotein gene of 11 field isolates was amplified and sequenced. The virus neutralization (VN) test showed 94.75% neutralization with a BR-I isolate and 30% or less against other worldwide reference strains. The nucleotide and amino acid sequence analyses revealed 84.3-100% and 83.5-100% identity among them, respectively. The identity values ranged from 57.1 to 82.6% for nucleotides and from 46.6-84.4% for amino acids compared with those of other genotypes. By phylogenetic tree analysis, the Brazilian isolates were branched into the BR-I genotype (lineage GI-11), which was differentiated from foreign reference strains. Selective pressure analyses of BR-I IBVs revealed evolution under purifying selection (negative pressure) for the complete S1 gene but four specific sites (87, 121, 279, and 542) under diversifying selection (positive pressure). Profiles of cleavage sites and potential N-glycosylation sites differed from those of other genotypes. The low molecular relationship among the Brazilian viruses and foreign serotypes was concordant with the VN test results. The low antigenic relatedness (ranging from 5.3-30% between Brazilian genotype BR-I and reference IBV serotypes of North America, Europe, and Asia) indicates that the BR-I genotype is a different serotype, referred to for the first time and hereafter as serotype BR-I. RESEARCH HIGHLIGHTSStrains of the BR-I genotype presented robust antigenic and molecular similarity.BR-I strains evolved under purifying selection mode (negative pressure).The BR-I genotype originated in Brazil and dispersed to other countries.BR-I genotype viruses can be referred to as the BR-I serotype.

Genetic Analysis of Infectious Bronchitis Virus S1 Gene Reveals Novel Amino Acid Changes in the GI-16 Lineage in Peru.

Infectious bronchitis is a highly contagious viral disease that represents an economic threat for poultry despite the wide use of vaccination. To characterize the virus circulating in Peru, we analyzed 200 samples, including nasopharyngeal swabs and multiple tissues collected from animals suspected of being infected with infectious bronchitis virus (IBV) between January and August in 2015. All animals had at least one positive sample for IBV by RT-PCR. Out of these positive samples, eighteen (18) were selected for viral isolation and a partial S1 sequencing. Phylogenetic analysis showed that sixteen isolates clustered with members of GI-16 lineage, also known as Q1, with nucleotide homology ranging from 93% to 98%. The two remaining isolates grouped with members of the GI-1 lineage. Our study reveals circulation of GI-16 lineage during this period in poultry systems in Peru, along with GI-1 lineage (vaccine-derived). Moreover, those IBV GI-16 isolates showed unique nucleotide and amino acid changes compared to their closest relatives. Altogether, these findings reveal the circulation of GI-16 lineage while describing changes at key regions of the S protein that might be of relevance for vaccine evasion. These results highlight the importance of genetic surveillance for improving vaccination strategies against infectious bronchitis.

Origin of New Lineages by Recombination and Mutation in Avian Infectious Bronchitis Virus from South America.

The gammacoronavirus avian infectious bronchitis virus (IBV) is a highly contagious respiratory pathogen of primary economic importance to the global poultry industry. Two IBV lineages (GI-11 and GI-16) have been widely circulating for decades in South America. GI-11 is endemic to South America, and the GI-16 is globally distributed. We obtained full-length IBV genomes from Argentine and Uruguayan farms using Illumina sequencing. Genomes of the GI-11 and GI-16 lineages from Argentina and Uruguay differ in part of the spike coding region. The remaining genome regions are similar to the Chinese and Italian strains of the GI-16 lineage that emerged in Asia or Europe in the 1970s. Our findings support that the indigenous GI-11 strains recombine extensively with the invasive GI-16 strains. During the recombination process, GI-11 acquired most of the sequences of the GI-16, retaining the original S1 sequence. GI-11 strains with recombinant genomes are circulating forms that underwent further local evolution. The current IBV scenario in South America includes the GI-16 lineage, recombinant GI-11 strains sharing high similarity with GI-16 outside S1, and Brazilian GI-11 strains with a divergent genomic background. There is also sporadic recombinant in the GI-11 and GI-16 lineages among vaccine and field strains. Our findings exemplified the ability of IBV to generate emergent lineage by using the S gene in different genomic backgrounds. This unique example of recombinational microevolution underscores the genomic plasticity of IBV in South America.

Evaluation of the Efficiency of Commercial Vaccines Against Infectious Bronchitis Virus (IBV) Belonging to the GI-16 Lineage Isolated in an Argentinean Outbreak.

In this study we evaluated the effectiveness of adding serotype 793B vaccine to an immunization program in order to control the infectious bronchitis virus (IBV) GI-16 lineage. Therefore, two different experiments were performed. First, a virus cross-neutralization test was carried out, which indicated that neither the Massachusetts (Mass) nor 793B serotypes are antigenically related to the field isolate A13 (GI-16). We also performed a challenge trial to evaluate if the Mass/793B combination is more efficient than Mass/Connecticut (Conn) to protect chickens against the Argentinian variant A13. Thus, 40 chickens were organized in four groups. Chickens in Group A were vaccinated at 1 day of age with Mass serotype and then at 14 days old with Mass plus Conn serotypes. Chickens in Group B received Mass and 793B serotypes at 1 and 14 days old, respectively. Groups C and D remained unvaccinated. At 28 days of age, Groups A, B, and C were challenged with the A13 isolate, while Group D remained as the negative control. The statistical analysis of the ciliostasis evaluation, performed at 7 days postchallenge (dpch), indicated that the difference between Mass/793B and Mass/Conn was not significant (p > 0.05). However, the comparison against the negative control showed that only Group A was significantly different, suggesting a slightly better performance on blocking ciliostasis for the Mass/793B combination. On the other hand, no significant differences were observed in the viral load, quantified by reverse-transcription quantitative real-time PCR (RT-qPCR) in tracheal swabs and kidneys (at 3 and 7 dpch, respectively) between vaccinated groups. Furthermore, some amounts of the viral genome were found in both vaccinated groups that could indicate that neither the Mass/793B nor the Mass/Conn combinations totally inhibited the viral replication. Such viral replication in vaccinated chickens should seriously be taken into consideration because it could promote the selection of new variants in the future.

Nota de investigación­Evaluación de la eficacia de vacunas comerciales contra el virus de la bronquitis infecciosa (IBV) perteneciente al linaje GI-16 aislado durante un brote argentino. En este estudio se evaluó la efectividad de agregar la vacuna del serotipo 793B a un programa de inmunización para controlar al virus de la bronquitis infecciosa (con las siglas en inglés IBV) linaje GI-16. Por tanto, se realizaron dos experimentos diferentes. Primeramente, se llevó a cabo una prueba de neutralización cruzada de virus, que indicó que ni los serotipos Massachusetts (Mass) ni 793B están antigénicamente relacionados con el aislado de campo A13 (GI-16). También se realizó una prueba de desafío para evaluar si la combinación Massachussets/793B era más eficiente que Massachussets/Connecticut (Conn) para proteger a los pollos contra la variante argentina A13. De esta forma, 40 pollos se organizaron en cuatro grupos. Los pollos del Grupo A se vacunaron al día de edad con el serotipo Massachussets y luego a los 14 días con los serotipos Massachussets más Connecticut. Los pollos del Grupo B recibieron los serotipos Massachussets y 793B a los 1 y 14 días de edad, respectivamente. Los grupos C y D permanecieron sin vacunar. A los 28 días de edad, los Grupos A, B y C fueron desafiados con el aislado A13, mientras que el Grupo D permaneció como control negativo. El análisis estadístico de la evaluación de la ciliostasis, realizada a los 7 días después del desafío (dpch), indicó que la diferencia entre el tratamiento Massachussets/793B y Massachussets/Connecticut no fue significativa (P> 0.05). Sin embargo, la comparación con el control negativo mostró que solo el Grupo A fue significativamente diferente, lo que sugiere un desempeño ligeramente mejor en el bloqueo de la ciliostasis para la combinación Massachussets/793B. Por otro lado, no se observaron diferencias significativas (P> 0.05) en la carga viral, cuantificada mediante transcripción reversa y PCR cuantitativa en tiempo real de hisopos traqueales y riñones (a 3 y 7 días después del desafío, respectivamente) entre los grupos vacunados. Además, se encontraron algunas cantidades del genoma viral en ambos grupos vacunados que podrían indicar que ni las combinaciones Massachussets/793B ni Massachussets/Connecticut inhibieron totalmente la replicación viral. Esta replicación viral en pollos vacunados debe tenerse muy en cuenta porque podría promover la selección de nuevas variantes en el futuro.

Genetic and Antigenic Diversity of Infectious Bronchitis Virus in South America.

Infectious bronchitis virus (IBV) is one of the economically most important diseases affecting the South American poultry industry. The extensive genomic heterogeneity of IBV is a consequence of high mutation rates and recombination events followed by selection. Nucleotide heterogeneity is much higher in the S1 coding region of the relevant spike protein; thus, the S1 sequence is widely used for the IBV genetic classification in genotypes and lineages. Two main lineages (GI-11 and GI-16) extensively circulate in South American chicken flocks. The GI-11 lineage, found exclusively in South America, emerged in the 1950s and is currently the predominant lineage in Brazil and Uruguay. The GI-16 lineage emerged around 1979 and is now circulating in most South American regions. All South American countries include Massachusetts-type strains (GI-1 lineage) in the IBV vaccination programs. The GI-11 and GI-16 lineages display very low antigenic relatedness to Massachusetts vaccine strains. Because these vaccine strains may not confer complete protection against South American lineages, other vaccination strategies have been reported to control GI-11 and GI-16 outbreaks. Analysis of the few full-length genomes of South American strains highlights a complex recombination history of IBV in the continent. A broader geographic and temporal sampling is needed to understand the pattern of genetic variability and the evolutionary history of IBV variants in South America.

Estudio recapitulativo- Diversidad genética y antigénica del virus de la bronquitis infecciosa en América del Sur. El virus de la bronquitis infecciosa es una de las enfermedades económicamente más importantes que afecta a la industria avícola sudamericana. La extensa heterogeneidad genómica de este virus es una consecuencia de las altas tasas de mutación y de los eventos de recombinación seguidos por selección. La heterogeneidad de nucleótidos es mucho mayor en la región codificante S1 de la proteína de la espícula; por tanto, la secuencia S1 se usa ampliamente para la clasificación genética de este virus en genotipos y linajes. Dos linajes principales (GI-11 y GI-16) circulan ampliamente en las parvadas de pollos de América del Sur. El linaje GI-11, que hasta ahora se encuentra exclusivamente en América del Sur, surgió en la década de los aþos 1950s y actualmente es el linaje predominante en Brasil y Uruguay. El linaje GI-16 surgió alrededor de 1979 y ahora está circulando en la mayoría de las regiones de América del Sur. Todos los países de América del Sur incluyen cepas tipo Massachusetts (linaje GI-1) en los programas de vacunación contra la bronquitis infecciosa. Los linajes GI-11 y GI-16 muestran una relación antigénica muy baja con las cepas de la vacuna de Massachusetts. Debido a que estas cepas de la vacuna pueden no conferir una protección completa contra los linajes sudamericanos, se han reportado otras estrategias de vacunación para controlar los brotes de GI-11 y GI-16. El análisis de los pocos genomas completos de cepas sudamericanas destaca una compleja historia de recombinación del virus de la bronquitis en el continente. Se necesita un muestreo geográfico y temporal más amplio para comprender el patrón de variabilidad genética y la historia evolutiva de las variantes del virus de la bronquitis infecciosa en América del Sur.

Live Attenuated Infectious Bronchitis Virus Vaccines in Poultry: Modifying Local Viral Populations Dynamics.

Infectious bronchitis virus (IBV) remains one of the most important diseases impacting poultry today. Its high adaptive capacity, attributable to the high mutation rate associated with its ssRNA(+), is one of its more important features. While biosecurity procedures and barriers have been shown to be preponderant factors in minimizing the impact of infectious bronchitis (IB), the environment and procedures associated with intensive poultry systems greatly influence the viral population dynamics. High-density poultry flocks facilitate recombination between different viruses, and even with live attenuated vaccines, which can change the dominant circulating field strains. Furthermore, the remaining issue of reversion to virulence gives rise to significant problems when vaccinal strains are introduced in places where their pathogenic variants have not been reported. Under specific conditions, live attenuated vaccines could also change the frequency of circulating viruses and enable replacement between different field strains. In summary, under a comprehensive approach, while vaccination is one of the most essential tools for controlling IB, the veterinarians, farmers, and official services role in its usage is central to minimizing alteration in a malleable viral population. Otherwise, vaccination is ultimately counterproductive.

Characterization of novel, pathogenic field strains of infectious bronchitis virus (IBV) in poultry in Trinidad and Tobago.

Avian coronaviruses, including infectious bronchitis virus (IBV) and turkey coronavirus (TCoV), are economically important viruses affecting poultry worldwide. IBV is responsible for causing severe losses to the commercial poultry sector globally. The objectives of this study were to identify the viruses that were causing outbreaks of severe respiratory disease in chickens in Trinidad and Tobago (T&T) and to characterize the strains. Swab samples were collected from birds showing severe respiratory signs in five farms on the island of Trinidad. Samples were tested for the presence of IBV, as well as avian influenza virus (AIV), Newcastle disease virus (NDV) and avian metapneumovirus (aMPV) by real-time reverse transcription polymerase chain reaction (qRT-PCR). All samples from the five farms tested negative for AIV, NDV and aMPV; however, samples from clinically affected birds in all five of the farms tested positive for IBV. Genetic data revealed the presence of TCoV in chickens on two of the farms. Interestingly, these two farms had never reared turkeys. Phylogenetic analysis showed that IBV S1 sequences formed two distinct clusters. Two sequences grouped with vaccine strains within the GI-1 lineage, whereas three sequences grouped together, but separately from other defined lineages, forming a likely new lineage of IBV. Pairwise comparison revealed that the three unique variant strains within the distinct lineage of IBV were significantly different in their S1 nucleotide coding regions from viruses in the closest lineage (16% difference) and locally used vaccine strains (>20% difference). Results also suggested that one of the samples was a recombinant virus, generated from a recombination event between a Trinidad virus of the GI-1 lineage and a Trinidad virus of the newly defined lineage. Many amino acid differences were also observed between the S1 coding regions of the circulating field and vaccine strains, indicating that the IBV vaccines may not be protective. Vaccine-challenge studies are however needed to prove this.

Circulation of Major Respiratory Pathogens in Backyard Poultry and their Association with Clinical Disease and Biosecurity

Raising backyard birds is a common practice in Brazil, mainly in the countryside or suburban areas. However, the level of respiratory pathogens in these animals is unknown. We sampled two hundred chickens from 19 backyard flocks near commercial poultry farms and performed ELISA to Infectious Bronchitis Virus, avian Metapneumovirus, Mycoplasma synoviae and Mycoplasma gallisepticum. We evaluated the association between the predictive ability of ELISA and Hemagglutination-inhibition (HI)by comparing results from eight flocks positive to Mycoplasma gallisepticum on ELISA. Besides, we assessed essential biosecurity measures in the properties (multiple species birds, rodent control, hygienic conditions, and water quality for the bird`s consumption). We could access the vaccination program only on four properties; in three of them, the birds were supposedly vaccinated for IBV. Overall the properties had a poor score for the biosecurity measures, and the seroprevalence in backyard poultry flocks for IBV, a MPV, MS, and MG were respectively 87.5% (14/16), 89.5% (17/19), 100 (19/19) and MG 84.21% (16/19). We found low specificity and predictive value between ELISA and HI in MG analysis and a positive correlation between the presence of clinical symptoms and mean MG titers. Backyard chicken are pathogens reservoirs and pose a risk for the commercial poultry farms in the region, and further efforts of the governmental entities and private sector of poultry production should consider these information to avoid future economic losses.(AU)

Circulation of Major Respiratory Pathogens in Backyard Poultry and their Association with Clinical Disease and Biosecurity

Raising backyard birds is a common practice in Brazil, mainly in the countryside or suburban areas. However, the level of respiratory pathogens in these animals is unknown. We sampled two hundred chickens from 19 backyard flocks near commercial poultry farms and performed ELISA to Infectious Bronchitis Virus, avian Metapneumovirus, Mycoplasma synoviae and Mycoplasma gallisepticum. We evaluated the association between the predictive ability of ELISA and Hemagglutination-inhibition (HI)by comparing results from eight flocks positive to Mycoplasma gallisepticum on ELISA. Besides, we assessed essential biosecurity measures in the properties (multiple species birds, rodent control, hygienic conditions, and water quality for the bird`s consumption). We could access the vaccination program only on four properties; in three of them, the birds were supposedly vaccinated for IBV. Overall the properties had a poor score for the biosecurity measures, and the seroprevalence in backyard poultry flocks for IBV, a MPV, MS, and MG were respectively 87.5% (14/16), 89.5% (17/19), 100 (19/19) and MG 84.21% (16/19). We found low specificity and predictive value between ELISA and HI in MG analysis and a positive correlation between the presence of clinical symptoms and mean MG titers. Backyard chicken are pathogens reservoirs and pose a risk for the commercial poultry farms in the region, and further efforts of the governmental entities and private sector of poultry production should consider these information to avoid future economic losses.

A seminested RT-PCR for molecular genotyping of the Brazilian BR-I Infectious Bronchitis Virus Strain (GI-11).

Infectious bronchitis (IB) is one of the avian diseases with the greatest impact on poultry farming worldwide. In Brazil, strain BR-I (GI-11) is the most prevalent in poultry flocks. The present study aimed to develop a seminested RT-PCR assay specific for the diagnosis of BR-I IBV in Brazilian samples, targeting subunit 1 of the S gene. The detection limit of this assay was 10 copies of the IBV genome. In this study, 62.24% of 572 organ pools from the 5 regions of Brazil tested positive in a 3'UTR screening, and 84.83% were typed as BR-I IBV. BR-I was detected in the respiratory, digestive and urogenital tracts in pooled samples from all Brazilian geographical regions and in all the breeding systems analyzed. Specificity and sensitivity tests as well as phylogenetic analysis successfully confirmed the expected clustering of the sequences detected by this assay with the BR-I (GI-11) group. The nested PCR described in this study represents a suitable and valuable tool in the diagnosis, epidemiology, monitoring and vaccination decisions of IBV.

Construction and characterization of a recombinant vaccine encoding the nucleocapsid protein gene of avian infectious bronchitis virus / Construção e caracterização de uma vacina recombinante codificando o gene da proteina do nucleocapsideo do virus da bronquite infecciosa das galinhas

A vacinação é a forma mais utilizada para prevenir a bronquite infecciosa causada pelo vírus da bronquite infecciosa das galinhas (IBV). Contudo, as vacinas convencionais são incapazes de diferenciar aves infectadas de vacinadas. No presente trabalho foi construído, caracterizado, e avaliado como candidato vacinal, um adenovírus recombinante expressando o gene N do IBV. O gene N foi clonado em um adenovírus humano tipo 5 defectivo e transfectado para as células HEK-293A para gerar rAd5_N. Após o vetor ser obtido como esperado e a confirmação da expressão da proteína N em HEK-293ª, foi realizada inoculação pela via oculo-nasal na dose de 10 7 TCID 50 /0,1mL para imunização de galinhas livres de patógenos específicos (SPF). A resposta imunológica do Ad5_N e a proteção contra o desafio ao IBV foram avaliadas e comparadas com uma vacina viva comercial. Não foram detectados anticorpos anti-IBV em aves vacinadas com o Ad5_N. A vacina comercial induziu anticorpos detectáveis a partir do 7º dia pós-vacinal. Em aves vacinadas com o Ad5_N não houve aumento na expressão de IFNγ. Neste estudo, o rAd5_N obtido não conferiu proteção contra desafio com IBV-M41. Os resultados indicam a necessidade de avaliar adenovírus recombinantes expressando outros genes do IBV.(AU)

Construction and characterization of a recombinant vaccine encoding the nucleocapsid protein gene of avian infectious bronchitis virus / Construção e caracterização de uma vacina recombinante codificando o gene da proteina do nucleocapsideo do virus da bronquite infecciosa das galinhas

A vacinação é a forma mais utilizada para prevenir a bronquite infecciosa causada pelo vírus da bronquite infecciosa das galinhas (IBV). Contudo, as vacinas convencionais são incapazes de diferenciar aves infectadas de vacinadas. No presente trabalho foi construído, caracterizado, e avaliado como candidato vacinal, um adenovírus recombinante expressando o gene N do IBV. O gene N foi clonado em um adenovírus humano tipo 5 defectivo e transfectado para as células HEK-293A para gerar rAd5_N. Após o vetor ser obtido como esperado e a confirmação da expressão da proteína N em HEK-293ª, foi realizada inoculação pela via oculo-nasal na dose de 10 7 TCID 50 /0,1mL para imunização de galinhas livres de patógenos específicos (SPF). A resposta imunológica do Ad5_N e a proteção contra o desafio ao IBV foram avaliadas e comparadas com uma vacina viva comercial. Não foram detectados anticorpos anti-IBV em aves vacinadas com o Ad5_N. A vacina comercial induziu anticorpos detectáveis a partir do 7º dia pós-vacinal. Em aves vacinadas com o Ad5_N não houve aumento na expressão de IFNγ. Neste estudo, o rAd5_N obtido não conferiu proteção contra desafio com IBV-M41. Os resultados indicam a necessidade de avaliar adenovírus recombinantes expressando outros genes do IBV.(AU)

Genetic and antigenic heterogeneity of infectious bronchitis virus in South America: implications for control programmes.

Infectious bronchitis virus (IBV) is a persistent sanitary problem for the South American poultry industry despite extensive vaccination. The IBV single-stranded RNA genome has high rates of mutation and recombination that generate a notorious virus variability. Since most IBV vaccines are type-specific, there is a need for constant surveillance of the circulating lineages and knowledge about their genetic and antigenic properties. Here we present an integrative analysis that provides the pattern of genetic variation of the South American IBV strains and information about their antigenic characteristics. The genetic analysis was performed using the S1 complete coding sequences of all available South American strains, including newly obtained Argentine and Uruguayan field samples. Our phylogenetic and phylodynamic analyses evidence that three main lineages (GI-1, GI-11 and GI-16) are extensively circulating in South American flocks. Strains of the GI-1 lineage (Massachusetts-type) were detected in Argentina, Brazil, Chile and Colombia. The GI-11 lineage is an exclusively South American lineage that emerged in the 1950s, and is the predominant lineage in Brazil and Uruguay at present. The GI-16 lineage emerged around 1979, and is currently circulating in most South American territories (Argentina, Chile, Uruguay, Colombia and Peru). The virus cross-neutralization test performed here reveals very low antigenic relatedness between GI-11 and GI-16 lineages (i.e. they are different serotypes). The results of this study extend our knowledge about the present and past IBV variability in South America and provide relevant elements to improve the control programmes by considering the genetic and antigenic attributes of IBV.

Gonadal pathogenicity of an infectious bronchitis virus strain from the Massachusetts genotype.

An outbreak of infectious bronchitis caused by the IBVPR03 strain of the Massachusetts genotype affected H-120 vaccinated laying hens in South Brazil. We investigated the cross protection of the vaccine by assessing the traqueal ciliostasis, virus recovery, and histopathological changes typically observed in the respiratory tract. Although the IBVPR03 strain is S1-genotyped as Massachusetts with a high genomic similarity to the H-120 vaccine strains, surprisingly, we found no tropism or pathogenicity to the trachea in birds infected with this strain. On the other hand, we observed ovarian and testicle lesions. Here, we show that, despite belonging in the Massachusetts genotype, the IBVPR03 pathotype differs from the expected respiratory pattern, causing instead marked histopathological changes in the gonads, so far not associated with this group.

Enteric Virus Diversity Examined by Molecular Methods in Brazilian Poultry Flocks.

Enteric viruses play an important role in the Brazilian poultry industry due to the economic impact of resulting low yields of broilers, layers, and breeders. The most common enteric viruses affecting commercial flocks in Brazil include Fowl Adenovirus of group I (FAdV-I), Chicken Parvovirus (ChPV), Chicken Astrovirus (CAstV), Avian Nephritis Virus (ANV), Infectious Bronchitis Virus (IBV), Avian Reovirus (AReo), and Avian Rotavirus (ARtV). The aim of this study was to identify single and multiple infections using data obtained from 270 samples from eleven Brazilian states, corresponding to the period between 2010 and 2017. This was accompanied by an analysis of the relationship between the age of birds, clinical signs, and geographical distribution, using Polymerase Chain Reaction (PCR) and Reverse Transcription-PCR (RT-PCR) techniques. Twenty-five profiles of virus combinations were detected. Single infections were encountered in 86.3% of samples, and multiple infections were present in the remaining 13.7%. Both single and multiple infections affected all kinds of commercial chickens with digestive problems, stunting syndrome, decreases in egg and meat production, increased mortality, and respiratory signs. FAdV-I, ChPV, CAstV, ANV, and ARtV were mostly detected in young broilers, in contrast with IBV, which was detected in hens from one to greater than 51 weeks of age. These results exhibit the complexity of enteric diseases and the still poorly understood role of each pathogen as a unique etiological agent.

Rapid detection and differentiation of avian infectious bronchitis virus: an application of Mass genotype by melting temperature analysis in RT-qPCR using SYBR Green I.

A method based on Melting Temperature analysis of Hypervariable regions (HVR) of S1 gene within a RT-qPCR was developed to detect different genotypes of avian infectious bronchitis virus (IBV) and identify the Mass genotype. The method was able to rapidly identify the Mass genotype among IBV field isolates, vaccine attenuated strains and reference M41 strain in allantoic liquid and also directly in tissues. The RT-qPCR developed detected the virus in both tracheal and pulmonary samples from M41-infected or H120-infected birds, in a larger post-infection period compared to detection by standard method of virus isolation. RT-qPCR method tested provided a sensitivity and rapid approach for screening on IBV detection and Mass genotyping from IBV isolates.

Avian coronavirus isolated from a pigeon sample induced clinical disease, tracheal ciliostasis, and a high humoral response in day-old chicks.

The detection of avian coronaviruses (AvCoV) in wild birds and the emergence of new AvCoV have increased in the past few years. In the present study, the pathogenicity of three AvCoV isolates was investigated in day-old chicks. One AvCoV isolated from a pigeon, which clustered with the Massachusetts vaccine serotype, and two AvCoV isolated from chickens, which grouped with a Brazilian genotype lineage, were used. Clinical signs, gross lesions, histopathological changes, ciliary activity, viral RNA detection, and serology were evaluated during 42 days post infection. All AvCoV isolates induced clinical signs, gross lesions in the trachea, moderate histopathological changes in the respiratory tract, and mild changes in other tissues. AvCoV isolated from the pigeon sample caused complete tracheal ciliostasis over a longer time span. Specific viral RNA was detected in all tissues, but the highest RNA loads were detected in the digestive tract (cloacal swabs and ileum). The highest antibody levels were also detected in the group infected with an isolate from the pigeon. These results confirm the pathogenicity of Brazilian variants, which can cause disease and induce gross lesions and histopathological changes in chickens. Our results suggest that non-Galliformes birds can also play a role in the ecology of AvCoV.

A Review of Eight High-Priority, Economically Important Viral Pathogens of Poultry within the Caribbean Region.

Viral pathogens cause devastating economic losses in poultry industries worldwide. The Caribbean region, which boasts some of the highest rates of poultry consumption in the world, is no exception. This review summarizes evidence for the circulation and spread of eight high-priority, economically important poultry viruses across the Caribbean region. Avian influenza virus (AIV), infectious bronchitis virus (IBV), Newcastle disease virus (NDV), infectious laryngotracheitis virus (ILTV), avian metapneumovirus (aMPV), infectious bursal disease virus (IBDV), fowl adenovirus group 1 (FADV Gp1), and egg drop syndrome virus (EDSV) were selected for review. This review of serological, molecular, and phylogenetic studies across Caribbean countries reveals evidence for sporadic outbreaks of respiratory disease caused by notifiable viral pathogens (AIV, IBV, NDV, and ILTV), as well as outbreaks of diseases caused by immunosuppressive viral pathogens (IBDV and FADV Gp1). This review highlights the need to strengthen current levels of surveillance and reporting for poultry diseases in domestic and wild bird populations across the Caribbean, as well as the need to strengthen the diagnostic capacity and capability of Caribbean national veterinary diagnostic laboratories.

Detection of Antibodies to Seven Priority Pathogens in Backyard Poultry in Trinidad, West Indies.

Backyard poultry farms in Trinidad and Tobago (T&T) play a vital role in providing food and income for rural communities. There is currently no information on the presence and circulation of pathogens in backyard poultry farms in T&T, and little is known in relation to the potential risks of spread of these pathogens to the commercial poultry sector. In order to address this, serum samples were collected from 41 chickens on five backyard farms taken from selected locations in Trinidad. Samples were tested for antibodies to seven priority pathogens of poultry by enzyme-linked immunosorbent assay (ELISA). Antibodies were detected in 65% (CI 95%: 50-78%) of the sampled birds for Infectious bronchitis virus (IBV), 67.5% (CI 95%: 52-80%) for Infectious bursal disease virus (IBDV), 10% (CI 95%: 4-23%) for Newcastle disease virus (NDV), 0% (CI 95%: 0-0%) for Avian influenza virus (AIV), 0% (CI 95%: 0-0%) for West Nile virus (WNV), 31.7% (CI 95%: 20-47%) for Mycoplasm gallisepticum/synoviae and 0% (CI 95%: 0-0%) for Salmonella enterica serotype Enteritidis. These results reveal the presence and circulation of important pathogens of poultry in selected backyard farms in Trinidad. The results provide important information which should be taken into consideration when assessing the risks of pathogen transmission between commercial and backyard poultry farms, as well as between poultry and wild birds.