RESUMO

Introduction. Avian reovirus (ARV) is associated with arthritis/tenosynovitis and malabsorption syndrome in chickens. The σC and σB proteins, both exposed to the virus capsid, are highly immunogenic and could form the basis for diagnostic devices designed to assess the immunological status of the flock.Gap Statement. Commercial ARV ELISAs cannot distinguish between vaccinated and infected animals and might not detect circulating ARV strains.Aim. We aimed to develop a customized test to detect the circulating field ARV strains as well as distinguish between vaccinated and unvaccinated animals.Methodology. We developed ELISA assays based on recombinant (r) σB, σC and the nonstructural protein σNS and tested them using antisera of vaccinated and unvaccinated chickens as well as negative controls. Fragments of σB and σC proteins were also used to study regions that could be further exploited in diagnostic tests.Results. Vaccinated and unvaccinated birds were positive by commercial ELISA, with no difference in optical density values. In contrast, samples of unvaccinated animals showed lower absorbance in the rσB and rσC ELISA tests and higher absorbance in the rσNS ELISA test than the vaccinated animals. Negative control samples were negative in all tests. Fragmentation of σB and σC proteins showed that some regions can differentiate between vaccinated and unvaccinated animals. For example, σB amino acids 128-179 (σB-F4) and σC amino acids 121-165 (σC-F4) exhibited 85 and 95% positivity among samples of vaccinated animals but only 5% and zero positivity among samples of unvaccinated animals, respectively.Conclusion. These data suggest that unvaccinated birds might have been exposed to field strains of ARV. The reduction in absorbance in the recombinant tests possibly reflects an increased specificity of our test since unvaccinated samples showed less cross-reactivity with the vaccine proteins immobilized on ELISAs. The discrepant results obtained with the protein fragment tests between vaccinated and unvaccinated animals are discussed in light of the diversity between ARV strains.

Assuntos

Galinhas , Ensaio de Imunoadsorção Enzimática , Orthoreovirus Aviário , Doenças das Aves Domésticas , Proteínas Recombinantes , Infecções por Reoviridae , Animais , Orthoreovirus Aviário/imunologia , Orthoreovirus Aviário/genética , Orthoreovirus Aviário/isolamento & purificação , Ensaio de Imunoadsorção Enzimática/métodos , Ensaio de Imunoadsorção Enzimática/veterinária , Infecções por Reoviridae/veterinária , Infecções por Reoviridae/diagnóstico , Doenças das Aves Domésticas/virologia , Doenças das Aves Domésticas/diagnóstico , Proteínas Recombinantes/imunologia , Anticorpos Antivirais/sangue , Proteínas do Capsídeo/imunologia , Proteínas do Capsídeo/genética , Proteínas Virais/imunologia , Proteínas Virais/genética

RESUMO

Avian reovirus (ARV) is highly disseminated in commercial Brazilian poultry farms, causing arthritis/tenosynovitis, runting-stunting syndrome, and malabsorption syndrome in different meat- and egg-type birds (breeders, broilers, grillers, and layers). In Brazil, ARV infection was first described in broilers in the 1970s but was not considered an important poultry health problem for decades. A more concerning outcome of field infections has been observed in recent years, including condemnations at slaughterhouses because of the unsightly appearance of chicken body parts, mainly the legs. Analyses of the performance of poultry flocks have further evidenced economic losses to farms. Genetic and antigenic characterization of ARV field strains from Brazil demonstrated a high diversity of lineages circulating in the entire country, including four of the five main phylogenetic groups previously described (I, II, III, and V). It is still unclear if all of them are associated with different diseases affecting flocks' performance in Brazilian poultry. ARV infections have been controlled in Brazilian poultry farms by immunization of breeders and young chicks with classical commercial live vaccine strains (S1133, 1733, 2408, and 2177) used elsewhere in the Western Hemisphere. However, genetic and antigenic variations of the field isolates have prevented adequate protection against associated diseases, so killed autogenous vaccines are being produced from isolates obtained on specific farms. In conclusion, ARV field variants are continuously challenging poultry farming in Brazil. Epidemiological surveillance combined with molecular biological analyses from the field samples, as well as the development of vaccine strains directed toward the ARV circulating variants, are necessary to control this economically important poultry pathogen.

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Reovirus aviares en granjas avícolas de Brasil. El reovirus aviar (ARV) está muy diseminado en las granjas avícolas comerciales brasileñas y causa artritis/tenosinovitis viral, síndrome de retraso de enanismo infeccioso y síndrome de malabsorción en diferentes tipos de aves de carne y huevos (reproductoras, pollos de engorde, parrillas y ponedoras). En Brasil, la infección por reovirus aviares se describió por primera vez en pollos de engorde en la década de 1970, pero no se consideró un problema importante de salud avícola durante décadas. En los últimos años se ha observado un resultado más preocupante de las infecciones de campo, incluidos los decomisos en las plantas de procesamiento debido a la apariencia antiestética de las partes del cuerpo de los pollos, principalmente las patas. Los análisis del desempeño de las parvadas avícolas han evidenciado pérdidas económicas adicionales para las granjas. La caracterización genética y antigénica de las cepas de campo de reovirus aviares de Brasil demostró una gran diversidad de linajes que circulan en todo el país, incluidos cuatro de los cinco grupos filogenéticos principales descritos anteriormente (I, II, III y V). Todavía no está claro si todos ellos están asociados con diferentes enfermedades que afectan el rendimiento de las parvadas en las aves de corral brasileñas. Las infecciones por reovirus aviares se han controlado en granjas avícolas brasileñas mediante la inmunización de reproductores y pollitos jóvenes con cepas vacunales vivas comerciales clásicas (S1133, 1733, 2408 y 2177) utilizadas en otras partes del hemisferio occidental. Sin embargo, las variaciones genéticas y antigénicas de los aislamientos de campo han impedido una protección adecuada contra enfermedades asociadas, por lo que se están produciendo vacunas autógenas inactivadas a partir de aislamientos obtenidos en granjas específicas. En conclusión, las variantes de campo de ARV son un desafío continuo para la avicultura en Brasil. La vigilancia epidemiológica combinada con análisis de biología molecular de las muestras de campo, así como el desarrollo de cepas de vacunas dirigidas a las variantes circulantes de los reovirus aviares, son necesarias para controlar este patógeno avícola económicamente importante.

Assuntos

Orthoreovirus Aviário , Doenças das Aves Domésticas , Vacinas , Animais , Aves Domésticas , Galinhas , Orthoreovirus Aviário/genética , Brasil/epidemiologia , Fazendas , Filogenia

RESUMO

1. The objective of this study was to characterise circulating Brazilian avian reovirus (ARV) strains by genetic analysis of the σC protein encoded by segment 1 of the viral genome and compare these with those of viral strains used for immunising commercial poultry.2. The analysis detected the presence of ARV genomes by quantitative reverse transcriptase PCR (RT-qPCR) in the enteric samples and the joint tissues (JT) of birds with signs of viral arthritis/tenosynovitis. Nucleotide sequencing used 16 strains (three commercial vaccines, 10 from enteric tissues and three from JT). The results indicated high variability in the amino acid sequences of 13 wild strains, showing between 40% and 75% similarity compared with the vaccine strains (S1133 and 2177).3. The sequences were grouped into three well-defined clusters in a phylogenetic tree, two of these clusters together with previous Brazilian σC ARV sequences, and one cluster (VII) that was novel for Brazilian strains. Antigenic analysis showed that there were amino acids within putative epitopes located on the surface of the receptor-binding region of the σC protein with a high degree of variability.4. The study confirmed the presence of ARV genetic variants circulating in commercial birds in Brazil, and according to the antigenic prediction, the possibility of antigenic variants appears to be high.

Assuntos

Artrite , Orthoreovirus Aviário , Doenças das Aves Domésticas , Tenossinovite , Animais , Artrite/veterinária , Brasil/epidemiologia , Galinhas , Orthoreovirus Aviário/genética , Filogenia , Aves Domésticas , Doenças das Aves Domésticas/epidemiologia , Tenossinovite/veterinária

RESUMO

Avian reovirus (ARV) is one of the main causes of infectious arthritis/tenosynovitis and malabsorption syndrome (MAS) in poultry. ARVs have been disseminated in Brazilian poultry flocks in the last years. This study aimed to genotype ARVs and to evaluate the molecular evolution of the more frequent ARV lineages detected in Brazilian poultry-producing farms. A total of 100 poultry flocks with clinical signs of tenosynovitis/MAS, from all Brazilian poultry-producing regions were positive for ARV by PCR. Seventeen bird tissues were submitted to cell culture and ARV RNA detection/genotyping by two PCRs. The phylogenetic classification was based on σC gene alignment using a dataset with other Brazilian and worldwide ARVs sequences. ARVs were specifically detected by both PCRs from the 17 cell cultures, and σC gene partial fragments were sequenced. All these sequences were aligned with a total of 451 ARV σC gene data available in GenBank. Phylogenetic analysis demonstrated five well-defined clusters that were classified into lineages I, II, III, IV, and V. Three lineages could be further divided into sub-lineages: I (I vaccine, Ia, Ib), II (IIa, IIb, IIc) and IV (IVa and IVb). Brazilian ARVs were from four lineages/sub-lineages: Ib (48.2%), IIb (22.2%), III (3.7%) and V (25.9%). The Bayesian analysis demonstrated that the most frequent sub-lineage Ib emerged in the world around 1968 and it was introduced into Brazil in 2010, with increasing spread soon after. In conclusion, four different ARV lineages are circulating in Brazilian poultry flocks, all associated with clinical diseases. RESEARCH HIGHLIGHTS One-hundred ARV-positive flocks were detected in all main poultry-producing regions from Brazil. A large dataset of 468 S1 sequences was constructed and divided ARVs into five lineages. Four lineages/sub-lineages (Ib, IIb, III and V) were detected in commercial poultry flocks from Brazil. Brazilian lineages shared a low identity with the commercial vaccine lineage (I vaccine). Sub-lineage Ib emerged around 1968 and was introduced into Brazil in 2010.

Assuntos

Orthoreovirus Aviário/genética , Doenças das Aves Domésticas/virologia , Tenossinovite/veterinária , Animais , Teorema de Bayes , Brasil/epidemiologia , Evolução Molecular , Genótipo , Orthoreovirus Aviário/classificação , Filogenia , Reação em Cadeia da Polimerase/veterinária , Aves Domésticas/virologia , Doenças das Aves Domésticas/epidemiologia , Tenossinovite/epidemiologia , Tenossinovite/virologia

RESUMO

Reovirus is known to have an anticancer effect in both the preclinical and clinical assays. Current evidence suggests that the reovirus-mediated impact on tumor growth depends on the activation of specific antitumor immune responses. A feasible explanation for the oncolytic effects and immune system activation is through the expression of the fusogenic reovirus protein. In this work, we evaluated the in vivo antitumor effects of the expression of fusogenic protein p10 of avian reovirus (ARV-p10). We used chitosan nanoparticles (CH-NPs) as a vehicle for the ARV-p10 DNA in murine B16 melanoma models both in vitro and in vivo. We confirmed that ARV-p10 delivery through a chitosan-based formulation (ARV-p10 CH-NPs) was capable of inducing cell fusion in cultured melanoma cells, showing a mild cytotoxic effect. Interestingly, intratumor injection of ARV-p10 CH-NPs delayed tumor growth, without changing lymphoid populations in the tumor tissue and spleen. The injection of chitosan nanoparticles (CH-NPs) also delayed tumor growth, suggesting the nanoparticle itself would attack tumor cells. In conclusion, we proved that in vitro ARV-p10 protein expression using CH-NPs in murine melanoma cells induces a cytotoxic effect associated with its cell fusion. Further studies are necessary for establishing a protocol for efficient in vivo DNA delivery of fusion proteins to produce an antitumoral effect.

Assuntos

Vacinas Anticâncer , Melanoma Experimental , Orthoreovirus Aviário , Proteínas Recombinantes de Fusão , Proteínas Virais , Animais , Antineoplásicos/química , Antineoplásicos/farmacologia , Vacinas Anticâncer/química , Vacinas Anticâncer/genética , Vacinas Anticâncer/farmacologia , Sobrevivência Celular/efeitos dos fármacos , Quitosana/química , Sistemas de Liberação de Medicamentos/métodos , Camundongos , Camundongos Endogâmicos C57BL , Nanopartículas/química , Orthoreovirus Aviário/genética , Proteínas Recombinantes de Fusão/química , Proteínas Recombinantes de Fusão/genética , Proteínas Recombinantes de Fusão/farmacologia , Transfecção , Proteínas Virais/química , Proteínas Virais/genética

RESUMO

Avian reoviruses (ARVs) can infect a variety of species worldwide. Birds can present stunting syndrome, respiratory and/or enteric diseases, immunosuppression, malabsorption, viral arthritis/tenosynovitis, and even secondary infections by other microorganisms. Flaws in conventional vaccines and the increase in the diagnostic rate of disease in the last 5 yr suggest the emergence of pathogenic ARVs in the poultry flocks worldwide. This study aimed to characterize birds lesions and to detect/genotype ARVs from a severe outbreak of tenosynovitis in broiler poultry flocks from Brazil. Tissue samples of lesions on pelvic limbs of broiler chicken were collected in poultry flocks with a high condemnation rate of carcasses due to lesions and submitted to histological and molecular analysis. Major gross pathological lesions included marked swelling, edema, and hemorrhages. Serous exudate was present between the tendons and hock joint. Histological examination demonstrated necrosis and inflammation of muscle fibers, mixed inflammatory infiltrate was observed in subcutaneous tissue and tendon sheaths. ARVs RNA was detected in 5 samples tested by polymerase chain reaction. These samples were also genotyped and demonstrated the occurrence of strains of the ARVs lineages II and V in the flocks. These results suggest that theses field ARVs, genetically distant from previously characterized strains, are associated to tenosynovitis and present in commercial Brazilian poultry flocks.

Assuntos

Galinhas , Orthoreovirus Aviário/fisiologia , Doenças das Aves Domésticas/patologia , Tenossinovite/veterinária , Animais , Brasil , Orthoreovirus Aviário/genética , Filogenia , Doenças das Aves Domésticas/virologia , Análise de Sequência de RNA/veterinária , Tenossinovite/patologia , Tenossinovite/virologia