ABSTRACT
This study describes an outbreak of avian poxvirus disease in previously pox-vaccinated turkeys in Brazil. The turkeys had suggestive gross lesions of cutaneous avian poxvirus in the skin of the head and cervical area without changes in the flock mortality rates. In the slaughterhouse, 30 carcasses were removed from the slaughter line to collect tissue from cutaneous lesions for histological analyses and characterization of the virus. The virus was identified by conventional polymerase chain reaction (PCR) and subsequent gene sequencing. Acanthosis, hyperkeratosis, and hydropic degeneration were seen on skin histopathology. Eosinophilic intracytoplasmic inclusion bodies (Bollinger) on keratinocytes were observed in 46.6% of the samples. Avian poxvirus DNA was detected on PCR in 83.3% of the total samples. PCR associated with histopathology had 93.3% of positivity for avian poxvirus. In the phylogenetic study, samples show 100% matching suggesting that the outbreak occurred by a single viral strain and was different from those strains affecting other wild birds such as canaries and sparrows. A single mutation (Adenine for Guanine) was detected in our study's strain and in the strains of turkey, chickens, and vaccine strains published in GenBank. Also, when the sequence strain of the present study and sequences from GenBank of canarypox and sparrowpox strains were aligned, a Thymine was found replacing the Adenine or Guanine. The in ovo vaccination method as single-use in turkeys of this study apparently did not provide adequate protection against avianpox disease, but additional vaccination administered by wing-web when turkeys were 45-60 days old in the new flocks controlled the disease. In the subsequent year, new cases of this disease were not found. It was not possible to confirm the source of the virus strain, but infection with a field strain derived from chickens is one possibility, considering the poultry farm population in the area and biosecurity aspects. For wide characterization of avipoxvirus and differentiation among strains, the complete sequence of the viral genome is required.(AU)
Este estudo descreve um surto de bouba aviária em perus previamente vacinados contra poxvirus aviário no Brasil. Os perus apresentaram lesões macroscópicas, sugestivas de bouba aviaria cutânea, na pele da cabeça e região cervical sem alteração nas taxas de mortalidade do lote. No abatedouro, 30 carcaças foram retiradas da linha de abate para coleta de dois fragmentos de pele com lesões para análise histológica e caracterização do vírus. A identificação do vírus foi realizada por PCR convencional e posterior sequenciamento. No exame histopatológico das lesões de pele, houve acantose, hiperqueratose e degeneração hidrópica. Corpúsculos de inclusão intracitoplasmáticos eosinofílicos (Bollinger) foram encontrados em 46,6% das amostras. A técnica de PCR detectou o DNA do vírus da bouba aviária em 83,3% do total de amostras. PCR associado com a histopatologia resultou em 93,3% de positividade para o vírus da bouba aviária. No estudo filogenético, as sequências resultaram em 100% de identidade, sugerindo que o surto ocorreu por uma única estirpe de vírus diferenciada das outras estirpes que acometem canários e pardais. Uma única mutação (Adenina para Guanina) foi detectada nas estirpes deste estudo e nas sequências de perus, galinhas e estirpes vacinais publicadas no GenBank. Além disso, quando a sequência da estirpe do presente estudo e as sequências das estirpes de canarypox e sparrowpox foram comparadas, a Timina foi encontrada em substituição a Adenina ou Guanina. A vacinação in ovo em dose única utilizada nos perus deste estudo aparentemente não forneceu proteção adequada contra a doença causada pelo poxvirus aviário. Entretanto, a revacinação na membrana da asa em perus com 45-60 dias de idade dos novos lotes controlou a doença. No ano subsequente, novos casos desta doença não foram registrados. Não foi possível confirmar a origem da estirpe viral, mas estirpes de campo oriundas de galinhas seria uma possibilidade, considerando a população na área e os aspectos de biosseguridade. Para caracterização ampla do avipoxvirus e diferenciação entre as estirpes, a sequência completa do genoma viral é requerida.(AU)
Subject(s)
Animals , Turkeys/abnormalities , Yaws/veterinary , Vaccines/analysis , Avipoxvirus/pathogenicityABSTRACT
Este trabalho descreve um caso de infecção mista por pox vírus e Aspergillus fumigatus em Bubo virginianus (coruja jacurutu). A ave, um macho adulto, foi encaminhada ao Núcleo de Reabilitação da Fauna Silvestre do Instituto de Biologia da Universidade Federal de Pelotas (NURFS/CETAS/UFPEL). Apresentava bom estado corporal, estava ativa, porém com incapacidade de voo. Após três dias apresentou lesões crostosas e de aspecto verrucoso na superfície dorsal das patas. Havia, também, nódulos de mesmo aspecto na pálpebra esquerda e na cera. A ave morreu após 15 dias de sua chegada ao NURFS e foi necropsiada no Laboratório Regional de Diagnóstico da Faculdade de Veterinária da Universidade Federal de Pelotas (LRD/UFPel). Histologicamente, as lesões verrucosas caracterizavam-se por hiperplasia do epitélio e nas células das camadas basal, espinhosa, granular e córnea havia corpúsculos de inclusão intracitoplasmáticos do tipo Bollinger. Na microscopia eletrônica foram visualizadas partículas virais características de pox vírus, incluindo Bubo virginianus como um hospedeiro do vírus. Havia, ainda, infiltrado inflamatório de células mononucleares e focos de colônias bacterianas na derme. Nos pulmões havia congestão e presença de granulomas com hifas fúngicas, que pela técnica de Grocott, apresentaram ramificação dicotômica compatível com Aspergillus spp., identificado na cultura como A. fumigatus. O diagnóstico de infecção por avipoxvirus pode contribuir para estudos relacionados com a ocorrência desta doença nas populações de vida livre e como informação auxiliar para o manejo e conservação desta espécie. Sugere-se, ainda, a inclusão do uso de raios-X nos protocolos de centros de reabilitação como o diagnostico de aspergilose em aves rapinantes com bom estado corporal, porém incapazes de voar.(AU)
This paper describes a case of mixed infection by pox virus and Aspergillus fumigatus in Bubo virginianus (Owl Jacurutu). An adult male Bubo virginianus was referred to the Núcleo de Reabilitação da Fauna Silvestre, Instituto de Biologia, Universidade Federal de Pelotas (NURFS/CETAS/UFPEL). The owl was active and had a good body condition but with flight disability. After three days of their admission at NURFS the owl developed crusty and verrucous lesions at the dorsal surface of their feet. Also it had nodes on the left eyelid and cera with the same aspect. The owl died 15 days after its arrival. Necropsy and histopatological examination were carried out. The warty lesions had hyperplasia of the epithelium and intracytoplasmic Bollinger-like inclusion bodies in the basal, spinal, granulosa layer and cornea. Viral particles characteristic of pox viruses were shown by electron microscopy. This case includes Bubo virginianus as a host of the avipoxvirus. There were also a mononuclear inflammatory cell infiltrate and bacterial colonies in the dermis. In the lugs, there was congestion and presence of granulomas with intralesional fungal hyphae. With the Grocott stain those structures showed dichotomous branching which was later identified in mycological culture as characteristic for A. fumigates. The diagnosis of avipoxvirus infection can contribute to studies related to the occurrence of this disease in free-living populations and as auxiliary information for the management and conservation of this raptor species. It is also suggested to include the use of X-rays in rehabilitation center protocols as screening test to diagnose aspergillosis in birds of prey with good body condition but inability to fly.(AU)
Subject(s)
Animals , Male , Aspergillus fumigatus/pathogenicity , Poxviridae Infections/physiopathology , Poxviridae Infections/veterinary , Strigiformes/microbiology , Aspergillosis/veterinary , Avipoxvirus , Yaws/veterinaryABSTRACT
Aim: To investigate molecular and evolutionary characteristics of genes of fowlpox virus (FWPV) isolates from chickens in Tanzania. Study Design: Experimental. Place and Duration of Study: Faculty of Veterinary Medicine, Sokoine University of Agriculture, Morogoro, Tanzania; between November 2011 and October 2013. Methodology: Samples of cutaneous nodular lesions were collected from featherless parts of chickens (n = 154) suspected to have fowl pox in 14 regions of Tanzania followed by virus isolation, DNA extraction, polymerase chain reaction (PCR) amplification of the P4b gene, gel electrophoresis of PCR products, purification of PCR products, sequencing of purified PCR products and finally analysis of sequence data using standard procedures. Results: The disease was confirmed in 12 regions, out of 154 investigated samples 66 (42.86%) were found to contain FWPV, indicating that the 66 chickens from which the samples were collected had fowl pox as a result FWPV infection. Sequence analysis revealed that the Tanzanian FWPV isolates were 99.65 – 100% identical to each other and 99 – 100% identical to several published sequences of FWPV isolates from various countries in different continents of the world, including Europe and Asia. Phylogenetic analysis revealed that all Tanzanian isolates belong to clade A, subclade A1. Conclusion: Based on the findings of this study it is concluded that currently fowl pox is prevalent in several regions of Tanzania, caused by FWPVs which are genetically and phylogenetically closely related. However, these findings do not rule out the possibility of existence of genetic divergence among FWPVs currently prevalent in Tanzania. In order to rule out or detect genetic divergence (if any) among FWPVs currently prevalent in the country, other studies aimed at investigating molecular and evolutionary characteristics of genes in other genomic regions are highly recommended.
ABSTRACT
Os cracídeos são Galliformes silvestres das Américas. Com o objetivo de investigar a presença de anticorpos contra vírus de galinhas em cracídeos, foram coletadas 51 amostras de soro de 10 diferentes espécies dessas aves. Esses animais eram mantidos em criatórios conservacionistas e zoológicos nos Municípios de Santa Maria, Soledade, Passo Fundo, Sapucaia, Gravataí, Viamão e Três Coroas, Estado do Rio Grande do Sul, Brasil. Anticorpos neutralizantes foram detectados em 5,9 por cento (3/51) do total de amostras testadas contra o vírus da bronquite infecciosa das galinhas, 15,7 por cento (8/51) contra o reovírus aviário e 35,3 por cento (18/51) contra o vírus da doença infecciosa da bolsa. Todas as amostras foram negativas para o vírus da bouba aviária no teste de IDGA. A detecção de anticorpos para vírus de aves comerciais sugere que os cracídeos podem ser susceptíveis à infecção por esses vírus.
The cracids are wild Galliformes native from the Americas. Fifty one serum samples were collected from individuals of 10 different species of cracids in order to obtain information regarding to the antibody status of different viruses. These birds were kept in shelters and zoos localized in Santa Maria, Soledade, Passo Fundo, Sapucaia, Gravataí, Viamão and Três Coroas counties, in the Rio Grande do Sul State, Brazil. Neutralizing antibodies were detected in the individuals serum from different species specific referring to infectious bronchitis virus in 5.9 percent (3/51) of the samples, to avian reovirus in 15.7 percent (8/51) and, to infectious bursal disease virus in 35.3 percent (18/51). All samples were negative for fowlpox virus, as measured by IDGA test. The detection of commercial poultry viruses antibodies suggests that cracids could be susceptible to infection by those viruses.
ABSTRACT
Objective:To express Gag gp120 fusion protein in the recombinant fowlpox virus.Methods:The Gag gp120 gene of HIV 1 was inserted downstream of the combined promoter in pUTAL,an expressing plasmid was constructed.By transfecting the plasmid into CEF cells pre infected with FPV 282E 4 strain,a recombinant fowlpox virus vUTALG was obtained by selecting in the presence of BUdR and subsequent blue plaque screening.Results:Western blot showed that the recombinant virus expressed the Gag gp120 fusion protein in the infected CEF cells.The virus like particles formed by Gag protein were observed under electron microscope.Mice were immunized with the recombinant virus.The results showed the recombinant virus could induce HIV 1 specific antibody response.Conclusion:The recombinant fowlpox virus could express the Gag gp120 fusion protein.
ABSTRACT
Objective To provide experimental evidences for developing a safe and effective re- combinant fowlpox virus which can prevent the infection of HIV-2.Methods A fowlpox virus(FPV) transferring vector was constructed by inserting HIV-2 gag gene to the downstream of a synthetic complex promoter ATI-p7.5?20 of vector pUTA2.Transfection was then carried out,and recombi- nant FPV(rFPV)was screened by 5'-bromo-deoxyuridine(BrdU),genome PCR and western blot detection.Balb/c mice were immunized with rFPV by muscular injection.Anti-HIV-2 antibody, CD4~+ and CD8~+ T-cell count and specific target-killing activity of spleen CTL in immunized mice were analyzed by ELISA,FACS and LDH release assay,respectively.Results A transferring vector pA- gag was constructed and confirmed by amplifying a fragment of 766 bp from the rFPV genome.Mean- while,HIV-2 multi-antibody-specific protein blot(55 000)was detected from the recombinant virus and the HIV-2 specific antibody was detected from the immunized Balb/c mice.HIV-2 specific target- killing activity of spleen CTL was observed in immunized mice.Conclusion A recombinant fowlpox virus expressing HIV-2 structural protein Gag has been obtained,and it can stimulate HIV-2-specific eelluar and humoral immune reactions in mice.