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1.
Arch Virol ; 166(5): 1477-1480, 2021 May.
Artículo en Inglés | MEDLINE | ID: mdl-33616725

RESUMEN

We determined the genomic sequence of a Ukrainian strain of fowl adenovirus B (FAdV-B). The isolate (D2453/1) shared 97.2% to 98.4% nucleotide sequence identity with other viruses belonging to the species Fowl aviadenovirus B. Marked genetic divergence was seen in the hexon, fiber, and ORF19 genes, and phylogenetic analysis suggested that recombination events had occurred in these regions. Our analysis revealed mosaicism in the recombination patterns, a finding that has also been described in the genomes of strains of FAdV-D and FAdV-E. The shared recombination breakpoints, affecting the same genomic regions in viruses belonging to different species, suggest that similar selection mechanisms are acting on the key neutralization antigens and epitopes in viruses of different FAdV species.


Asunto(s)
Infecciones por Adenoviridae/veterinaria , Aviadenovirus/genética , Pollos/virología , Genoma Viral/genética , Enfermedades de las Aves de Corral/virología , Infecciones por Adenoviridae/virología , Animales , Aviadenovirus/clasificación , Mapeo Cromosómico , ADN Viral/genética , Variación Genética , Recombinación Homóloga , Filogenia , Proteínas Virales/genética
2.
Avian Pathol ; 49(6): 547-556, 2020 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-32615785

RESUMEN

Among the different vaccines used to control highly pathogenic avian influenza, an HVT vector-based live recombinant avian influenza vaccine, expressing the haemagglutinin gene of an H5N1 HPAI virus, has been used by the poultry industry since 2012. The objective of the study presented in this paper was to test the efficacy of the commercially available HVT-based recombinant H5 vaccine against antigenically drifted H5N1, H5N8 and H5N2 HPAI virus circulating in Egypt recently. Groups of SPF chicks vaccinated at day-old with the HVT-based recombinant H5 vaccine were challenged, along with non-vaccinated controls, with 106 EID50 each of H5N1, H5N2 or H5N8 HPAI virus at 28 days of age. The birds were monitored for clinical protection and virus shedding during a 10-day postchallenge period. Clinical protection levels were 90%, 90% and 80% following challenge with the H5N1, H5N2 and H5N8 field isolates, respectively. Challenge virus shedding was significantly reduced in vaccinated groups, with up to 40%, 30% and 20% of non-shedders, and 3.8, 3.3 and 2.8 log10 reduction in the amount of excreted virus following challenge with H5N1, H5N2 and H5N8 viruses, respectively. Analyses of the amino acid sequences of the HA proteins of challenge viruses and serological relatedness with the vaccine insert revealed significant antigenic divergences between the vaccine and the challenge viruses. These results provide further evidence of the potential of HVT-based recombinant H5 vaccine to provide cross-protection against antigenically drifted HPAI H5Nx viruses with strong control on virus shedding.


Asunto(s)
Antígenos Virales/inmunología , Pollos/inmunología , Virus de la Influenza A/inmunología , Vacunas contra la Influenza/inmunología , Gripe Aviar/prevención & control , Pavos/inmunología , Animales , Pollos/virología , Protección Cruzada , Gripe Aviar/virología , Pavos/virología , Vacunas Sintéticas , Esparcimiento de Virus
3.
Emerg Infect Dis ; 25(6): 1110-1117, 2019 06.
Artículo en Inglés | MEDLINE | ID: mdl-31107212

RESUMEN

During 2014-2017, we isolated a novel orthobunyavirus from broiler chickens with severe kidney lesions in the state of Kedah, Malaysia; we named the virus Kedah fatal kidney syndrome virus (KFKSV). Affected chickens became listless and diarrheic before dying suddenly. Necropsies detected pale and swollen kidneys with signs of gout, enlarged and fragile livers, and pale hearts. Experimental infection of broiler chickens with KFKSV reproduced the disease and pathologic conditions observed in the field, fulfilling the Koch's postulates. Gene sequencing indicated high nucleotide identities between KFKSV isolates (99%) and moderate nucleotide identities with the orthobunyavirus Umbre virus in the large (78%), medium (77%), and small (86%) genomic segments. KFKSV may be pathogenic for other host species, including humans.


Asunto(s)
Infecciones por Bunyaviridae/veterinaria , Pollos/virología , Orthobunyavirus , Enfermedades de las Aves de Corral/epidemiología , Enfermedades de las Aves de Corral/virología , Animales , Biopsia , Genes Virales , Geografía Médica , Historia del Siglo XXI , Malasia/epidemiología , Orthobunyavirus/clasificación , Orthobunyavirus/genética , Orthobunyavirus/aislamiento & purificación , Filogenia , Enfermedades de las Aves de Corral/diagnóstico , Enfermedades de las Aves de Corral/historia , Vigilancia en Salud Pública , ARN Viral
4.
Virol J ; 15(1): 185, 2018 11 27.
Artículo en Inglés | MEDLINE | ID: mdl-30482219

RESUMEN

Porcine circovirus type 2 (PCV2), a highly prevalent, economically important swine pathogen is classified into different genotypes (PCV2a-f) based on phylogenetic analysis. Since the introduction of extensive vaccination programs, at least two major shifts have been observed in the prevalence of PCV2 genotypes. The first genotype shift from 2a towards 2b occurred around 2003, while in recent years, we are witnessing the second change in genotype prevalence from the predominant 2b towards 2d.In this study, a PCV2d-2 isolate was characterized as a potential challenge virus for the evaluation of PCV2 vaccine efficacy. Ten-week-old pigs carrying low to moderate levels of maternally derived antibodies to PCV2 were infected with the isolate by the nasal route. Over the next 4 weeks post-infection, the pigs were monitored for the presence of viremia, fecal virus excretion, and humoral immune responses. At the end of the post-infection observation period, samples were taken from the mediastinal and mesenteric lymph nodes of the animals and tested for viral load. The gradual depletion of maternally derived antibodies in the sera of piglets was demonstrated by ELISA and virus neutralization tests. Following experimental infection by PCV2d-2, specific IgM antibodies were first detected at 14 days post challenge (dpch), while IgG class antibodies were first detected at 21 dpch. Both viremia and virus shedding could be detected at 7 dpch, in 36 and 50% of the pigs, respectively. The proportion of shedders reached 100% by 14 dpch and remained at this level, while viremia was demonstrated in 86, 100, and 100% of the pigs at 14, 21, and 28 dpch, respectively. Both the mediastinal and mesenteric lymph nodes contained high levels of virus (7.6 and 8.5 log10 copies/mg tissue, respectively).


Asunto(s)
Anticuerpos Antivirales/sangre , Infecciones por Circoviridae/veterinaria , Circovirus/genética , Enfermedades de los Porcinos/virología , Viremia/veterinaria , Animales , Infecciones por Circoviridae/virología , Circovirus/clasificación , Circovirus/aislamiento & purificación , Femenino , Inmunoglobulina G/sangre , Inmunoglobulina M/sangre , Ganglios Linfáticos/virología , Masculino , Filogenia , Porcinos , Vacunación , Carga Viral , Vacunas Virales/inmunología , Viremia/prevención & control , Viremia/virología , Esparcimiento de Virus/fisiología
6.
J Gene Med ; 17(6-7): 116-31, 2015.
Artículo en Inglés | MEDLINE | ID: mdl-25929556

RESUMEN

BACKGROUND: Despite spectacular successes in hepatitis B and C therapies, severe hepatic impairment is still a major treatment problem. The clinically tested infectious bursal disease virus (IBDV) superinfection therapy promises an innovative, interferon-free solution to this great unmet need, provided that a consistent manufacturing process preventing mutations or reversions to virulent strains is obtained. METHODS: To address safety concerns, a tissue culture adapted IBDV vaccine strain V903/78 was cloned into cDNA plasmids ensuring reproducible production of a reverse engineered virus R903/78. The therapeutic drug candidate was characterized by immunocytochemistry assay, virus particle determination and immunoblot analysis. The biodistribution and potential immunogenicity of the IBDV agent was determined in mice, which is not a natural host of this virus, by quantitative detection of IBDV RNA by a quantitative reverse transcriptase-polymerase chain reaction and virus neutralization test, respectively. RESULTS: Several human cell lines supported IBDV propagation in the absence of visible cytopathic effect. The virus was stable from pH 8 to pH 6 and demonstrated significant resistance to low pH and also proved to be highly resistant to high temperatures. No pathological effects were observed in mice. Single and multiple oral administration of IBDV elicited antibodies with neutralizing activities in vitro. CONCLUSIONS: Repeat oral administration of R903/78 was successful despite the presence of neutralizing antibodies. Single oral and intravenous administration indicated that IBDV does not replicate in mammalian liver alleviating some safety related concerns. These data supports the development of an orally delivered anti-hepatitis B virus/ anti-hepatitis C virus viral agent for human use.


Asunto(s)
Virus de la Enfermedad Infecciosa de la Bolsa , Sobreinfección/terapia , Administración Oral , Animales , Anticuerpos Neutralizantes/administración & dosificación , Anticuerpos Neutralizantes/inmunología , Anticuerpos Antivirales/administración & dosificación , Anticuerpos Antivirales/inmunología , Línea Celular , Hepatitis B/inmunología , Hepatitis B/terapia , Hepatitis C/inmunología , Hepatitis C/terapia , Humanos , Virus de la Enfermedad Infecciosa de la Bolsa/genética , Virus de la Enfermedad Infecciosa de la Bolsa/inmunología , Ratones , Genética Inversa , Sobreinfección/inmunología , Vacunas Virales/administración & dosificación , Vacunas Virales/genética
7.
Acta Vet Hung ; 63(3): 382-8, 2015 Sep.
Artículo en Inglés | MEDLINE | ID: mdl-26551428

RESUMEN

Understanding the epidemiology and improving vaccinal protection against the highly variable chicken infectious bronchitis virus (IBV) requires the knowledge of circulating IBV serotypes/genotypes in defined geographic areas. Accordingly, the authors initiated a survey among the major poultry producers in Hungary in order to reveal the prevailing IBV serotypes in the country. Tracheal swabs and organ samples (caecal tonsils, kidneys, and trachea) were collected from broiler, layer, and meat-type breeder flocks, and were subjected to IBV detection by virus isolation and polymerase chain reaction (PCR). The IBV-positive samples were further characterised by nucleotide sequencing and phylogenetic analysis of a portion of the S1 IBV gene. Seventeen out of the 26 submitted samples proved to be positive for IBV. Sequence analyses revealed ten 4/91 and six QX serotypes, and a single D274 type IB virus. One sample contained a mixture of QX and Massachusetts serotype viruses. Presumably most of the 4/91 and D274 type viruses were vaccine strains. The proportion of QX type viruses and their observed variation are in good agreement with the situation in a few other European countries. The detected viruses clustered largely according to their geographic origin, with a few exceptions. If updated regularly, the preliminary 'virus map' will be useful for the adjustment of vaccination protocols.

8.
Arch Virol ; 159(8): 2165-9, 2014 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-24573219

RESUMEN

The complete genomic sequence of a Hungarian goose orthoreovirus strain (D20/99) is reported in this study. The genome of D20/99 is 22,969 bp in length (range, 3958 bp for L1 to 1124 bp for S4) and encodes 11 putative proteins. Pairwise sequence comparisons and phylogenetic analyses indicated that D20/99 shares genetic signatures with some contemporary Chinese duck and goose reovirus strains, except for the µA, µNS and σA protein coding genes, which represented independent genetic lineages. This study implies a greater genetic diversity among waterfowl-origin orthoreoviruses than hitherto recognized.


Asunto(s)
Enfermedades de las Aves/virología , Genoma Viral , Orthoreovirus Aviar/genética , Infecciones por Reoviridae/veterinaria , Secuencia de Aminoácidos , Animales , Animales Salvajes/virología , Secuencia de Bases , Gansos , Datos de Secuencia Molecular , Orthoreovirus Aviar/clasificación , Orthoreovirus Aviar/aislamiento & purificación , Filogenia , Infecciones por Reoviridae/virología
9.
Avian Pathol ; 43(6): 552-60, 2014.
Artículo en Inglés | MEDLINE | ID: mdl-25299764

RESUMEN

A neurological disease of young Pekin ducks characterized by ataxia, lameness, and paralysis was observed at several duck farms in Malaysia in 2012. Gross pathological lesions were absent or inconsistent in most of the cases, but severe and consistent microscopic lesions were found in the brain and spinal cord, characterized by non-purulent panencephalomyelitis. Several virus isolates were obtained in embryonated duck eggs and in cell cultures (Vero and DF-1) inoculated with the brain homogenates of affected ducks. After exclusion of other viruses, the isolates were identified as a flavivirus by flavivirus-specific reverse transcription-polymerase chain reaction (RT-PCR) assays. Inoculation of 2-week-old Pekin ducks with a flavivirus isolate by the subcutaneous or intramuscular route resulted in typical clinical signs and histological lesions in the brain and spinal cord. The inoculated virus was detected by RT-PCR from organ samples of ducks with clinical signs and histological lesions. With a few days delay, the disease was also observed among co-mingled contact control birds. Phylogenetic analysis of NS5 and E gene sequences proved that the isolates were representatives of a novel phylogenetic group within clade XI (Ntaya virus group) of the Flavivirus genus. This Malaysian Duck Tembusu Virus (DTMUV), named Perak virus, has moderate genomic RNA sequence similarity to a related DTMUV identified in China. In our experiment the Malaysian strain of DTMUV could be transmitted in the absence of mosquito vectors. These findings may have implications for the control and prevention of this emerging group of flaviviruses.


Asunto(s)
Brotes de Enfermedades/veterinaria , Patos/virología , Infecciones por Flavivirus/veterinaria , Flavivirus/aislamiento & purificación , Genoma Viral/genética , Enfermedades de las Aves de Corral/epidemiología , Animales , Secuencia de Bases , Chlorocebus aethiops , Flavivirus/genética , Infecciones por Flavivirus/epidemiología , Infecciones por Flavivirus/patología , Infecciones por Flavivirus/virología , Geografía , Secuenciación de Nucleótidos de Alto Rendimiento/veterinaria , Malasia/epidemiología , Datos de Secuencia Molecular , Enfermedades del Sistema Nervioso/veterinaria , Parálisis/veterinaria , Filogenia , Enfermedades de las Aves de Corral/patología , Enfermedades de las Aves de Corral/virología , Análisis de Secuencia de ADN/veterinaria , Células Vero
10.
Biologicals ; 42(6): 299-304, 2014 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-25284347

RESUMEN

The laboratory rotavirus strain, BRS/115, has been used for more than two decades to monitor rotaviruses in specific pathogen free flocks of laying hens. However, the virus strain has not been characterized in detail. Therefore we aimed at the description of molecular features of BRS115 by using random primed reverse transcription-PCR of the genomic RNA followed by massive parallel sequencing using the semiconductor sequencing technology. Over 64,000 trimmed reads mapped to reference sequences obtained from GenBank. The strain classified into the species Rotavirus A and genotyped G7-P[35]-I4-R4-C4-M4-A16-N4-T4-E11-H4 according to guidelines of the Rotavirus Classification Working Group. Phylogenetic analysis identified shared features with chicken, turkey and pigeon origin rotaviruses. This study demonstrates the robustness of next generation sequencing in the characterization of reference virus materials used in specialized laboratories.


Asunto(s)
Pollos/virología , Genoma Viral , Genotipo , Animales , ADN Complementario/metabolismo , Biblioteca de Genes , Secuenciación de Nucleótidos de Alto Rendimiento , Filogenia , ARN/genética , Reacción en Cadena de la Polimerasa de Transcriptasa Inversa , Rotavirus/genética , Semiconductores , Análisis de Secuencia de ADN
11.
Animals (Basel) ; 13(18)2023 Sep 05.
Artículo en Inglés | MEDLINE | ID: mdl-37760219

RESUMEN

Fowl adenovirus 1 (FAdV-1) is the main cause of gizzard erosion in chickens. Whole genome sequencing and sequence analyses of 32 FAdV-1 strains from a global collection provided evidence that multiple recombination events have occurred along the entire genome. In gene-wise phylogenies, only the adenoviral pol gene formed a tree topology that corresponded to whole genome-based phylogeny. Virus genetic features that were clearly connected to gizzard erosion were not identified in our analyses. However, some genome variants tended to be more frequently identified from birds with gizzard erosion and strains isolated from healthy birds or birds with non-specific pathologies tended to form common clusters in multiple gene phylogenies. Our data show that the genetic diversity is greater, and the evolutionary mechanisms are more complex within FAdV-1 than previously thought. The implications of these findings for viral pathogenesis and epidemiology await further investigation.

12.
J Gen Virol ; 93(Pt 11): 2457-2465, 2012 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-22894926

RESUMEN

We present, to our knowledge, the first complete genome sequence of a waterfowl aviadenovirus, goose adenovirus (GoAdV) strain P29, and an analysis of its genetic content in comparison with five published aviadenovirus genome sequences. Of the 35 genes predicted to encode functional proteins, the central region of the genome contains 19 (IVa2 to fiber-2) that were inherited from the ancestor of all known adenoviruses. Of the remaining genes, nine have orthologues only in aviadenoviruses and seven lack orthologues in any adenovirus. We also obtained limited sequence data for a pathogenic GoAdV strain D1036/08. Phylogenetic analyses placed the two GoAdV strains monophyletically in the genus Aviadenovirus. We propose designating strains P29 and D1036/08 as GoAdV-4 and GoAdV-5, respectively.


Asunto(s)
Infecciones por Adenoviridae/veterinaria , Anseriformes/virología , Aviadenovirus/clasificación , Aviadenovirus/genética , Enfermedades de las Aves/virología , Genoma Viral , Infecciones por Adenoviridae/epidemiología , Infecciones por Adenoviridae/virología , Animales , Enfermedades de las Aves/epidemiología , Regulación Viral de la Expresión Génica , Hungría/epidemiología , Datos de Secuencia Molecular , Filogenia , Proteínas Virales/genética , Proteínas Virales/metabolismo
13.
Avian Dis ; 56(4 Suppl): 923-7, 2012 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-23402113

RESUMEN

The swift evolution rate of avian influenza (AI) H5N1 virus demands constant efforts to update inactivated vaccines to match antigenically with the emerging new field virus strains. Recently, a recombinant turkey herpesvirus (rHVT)-AI vaccine, rHVT-H5, expressing the HA gene of a highly pathogenic avian influenza (HPAI) H5N1 clade 2.2 A/Swan/Hungary/499/ 2006 strain inserted into FC-126 strain of HVT vector, has been developed to combat current threats in poultry industry. Here, we present the results of two trials where rHVT-H5 was tested alone or in combination with inactivated H5N1 vaccines (the latter vaccines contained antigens produced by using a clade 2.1.3 HPAI H5N1 virus [A/Ck/WestJava-Nagrak/2007] in the first trial or mixture of antigen produced by strain A/Ck/WestJava-Nagrak/2007 and A/Ck/Banten-Tangerang/2010 [bivalent vaccine] for second trial) in broiler chickens (Gallus gallus domesticus) carrying maternally derived antibodies to H5N1 and then challenged with Indonesian HPAI H5N1 field isolates. The effectiveness of vaccination was evaluated on the basis of clinical protection (morbidity and mortality) and measurement of virus shedding after challenge. Immune response to vaccination was followed by serology. In the first experiment, chickens were vaccinated at the day of hatch with rHVT-H5 alone (Group 1) or combined with inactivated vaccine at day old (Group 2) or at 10 days of age (Group 3). The chickens along with nonvaccinated hatch-mates were challenged at 28 days of age with the HPAI H5N1 field isolate dade 2.1.3 A/Chicken/WestJava-Subang/29/2007. Eighty, 100%, and 80% clinical protection was recorded in Group 1, 2, and 3, respectively. A similar experiment was performed a second time, but the chicks in Group 3 received the inactivated vaccine earlier, at 7 days of age. Challenge was performed at 28 days of age using a different H5N1 isolate, clade 2.1.3 A/Ck/Purwakarta-Cilingga/142/10. Clinical protection achieved in the second trial was 95%, 75%, and 90% in Group 1, 2, and 3, respectively. Shedding of challenge virus was significantly lower in the vaccinated groups compared with controls in both experiments. Vaccinated birds developed hemagglutination inhibition antibody response to H5N1 by the time of challenge. These experiments confirmed that the rHVT-H5 vaccine applied alone or in combination with inactivated H5N1 vaccines could provide high level (> 80%) clinical protection against divergent HPAI H5N1 field isolates after single immunization by 4 wk of age and a significant reduction in the excretion of challenge virus.


Asunto(s)
Pollos , Variación Genética , Subtipo H5N1 del Virus de la Influenza A/genética , Gripe Aviar/prevención & control , Vacunas Virales/inmunología , Animales , Glicoproteínas Hemaglutininas del Virus de la Influenza/inmunología , Gripe Aviar/virología , Filogenia , Proteínas Recombinantes/inmunología , Reacción en Cadena de la Polimerasa de Transcriptasa Inversa , Pruebas Serológicas , Factores de Tiempo
14.
Vaccines (Basel) ; 10(8)2022 Aug 04.
Artículo en Inglés | MEDLINE | ID: mdl-36016142

RESUMEN

To investigate the immunogenic cross reactivity between goose parvovirus (GPV) and Muscovy duck parvovirus (MDPV), cross-neutralization was carried out with serum samples collected from birds after infection with one of the two waterfowl parvoviruses. The significantly higher virus neutralization titer obtained against the homologous virus than against the heterologous one suggests important differences between the GPV and MDPV antigenic make up that affects the induced protective virus-neutralizing antibody specificity. This was further confirmed by cross-protection studies carried out in waterfowl parvovirus antibody-free Muscovy ducks immunized at one day of age with whole-virus inactivated oil-emulsion vaccines containing either GPV or MDPV as a monovalent vaccine, or both viruses as a bivalent vaccine. Protection against the clinical disease (growth retardation and feathering disorders) provided by the monovalent vaccine was complete against homologous virus challenge at 2 weeks post-vaccination, while the protection against the heterologous virus challenge was significantly lower (p < 0.001). Only the bivalent vaccine containing both goose and Muscovy duck parvoviruses in an inactivated form protected the birds (90−100%) against both waterfowl parvoviruses that can cause disease in Muscovy ducks. Both the cross-neutralization and cross-protection results indicated that adequate protection in Muscovy ducks against the two waterfowl parvoviruses could be achieved only with a vaccine containing both goose and Muscovy duck parvoviruses. Our results showed that the inactivated vaccine applied at one day of age could induce fast immunity (by 2 weeks post-vaccination), providing complete clinical protection in maternal antibody-free birds. It was also demonstrated that day-old vaccination of ducks with maternal antibodies with bivalent vaccine induced active immunity, resulting in 90 to 100% protection by 3 weeks of age, after the decline of maternal antibodies. A booster vaccination administered at 3 weeks of age following the day-old vaccination resulted in a strong and durable immunity against the clinical disease during the susceptible age of the birds.

15.
Animals (Basel) ; 12(23)2022 Nov 23.
Artículo en Inglés | MEDLINE | ID: mdl-36496765

RESUMEN

Actinobacillus pleuropneumoniae is a major economically significant bacterial respiratory pig pathogen, and whole cell vaccines are used to prevent disease. However, there is little data available on multi-serovar whole cell vaccine protection. Therefore, we determined the protective efficacies of a whole-cell A. pleuropneumoniae serovar 1 and 2 vaccine comprising ApxI-III toxins (C-vaccine, Coglapix®, Ceva, France) against serovars 1, 2, 4, 5, 6, 7, 9/11, and 13. The infection doses used induced disease representative of endemic field conditions, and standard protocols were used for all studies. Protection against homologous serovars 1 and 2 significantly reduced lung lesion scores (LLS) compared to positive controls: p = 0.00007 and p = 0.00124, respectively. The protection against heterologous serovars 4, 5, 6, 7, 9/11, and 13 also significantly reduced LLS: range p = 2.9 × 10-10 to p = 0.00953. As adjudged by the estimated random effect, reproducibility between studies was high. A highly significant serovar-independent reduction of pathological lung lesions by the C-vaccine was found for all the serovars tested (1, 2, 4, 5, 6, 7, 9/11, and 13). We conclude that the C-vaccine gives high serovar-independent protection against disease and is suitable for this use in the field.

16.
Front Vet Sci ; 9: 1094761, 2022.
Artículo en Inglés | MEDLINE | ID: mdl-36713877

RESUMEN

Introduction: Avian reoviruses (ARV), an important pathogen of poultry, have received increasing interest lately due to their widespread occurrence, recognized genetic diversity, and association to defined disease conditions or being present as co-infecting agents. The efficient control measures require the characterization of the available virus strains. Methods: The present study describes an ARV collection comprising over 200 isolates from diagnostic samples collected over a decade from 34 countries worldwide. One hundred and thirty-six ARV isolates were characterized based on σC sequences. Results and discussion: The samples represented not only arthritis/tenosynovitis and runting-stunting syndrome, but also respiratory symptoms, egg production problems, and undefined disease conditions accompanied with increased mortality, and were obtained from broiler, layer or breeder flocks. In 31 percent of the cases other viral or bacterial agents were demonstrated besides ARV. The most frequent co-infectious agent was infectious bronchitis virus followed by infectious bursal disease virus and adenoviruses. All isolates could be classified in one of the major genetic clusters, although we observed marked discrepancies in the genotyping systems currently in use, a finding that made genotype assignment challenging. Reovirus related clinical symptoms could not be unequivocally connected to any particular virus strains belonging to a specific genetic group, suggesting the lack of strict association between disease forms of ARV infection and the investigated genetic features of ARV strains. Also, large genetic differences were seen between field and vaccine strains. The presented findings reinforce the need to establish a uniform, widely accepted molecular classification scheme for ARV and further, highlight the need for ARV strain identification to support more efficient control measures.

17.
Life (Basel) ; 12(4)2022 Mar 25.
Artículo en Inglés | MEDLINE | ID: mdl-35454966

RESUMEN

Avian infectious bronchitis (IB) is among the major viral respiratory and reproductive diseases of chickens caused by Avian coronavirus. In the African continent, IB was first described in countries located in the Mediterranean basin. In other parts of the continent, the epidemiological situation of IB remains unclear. In this study, the complete genome sequences of five IBV strains, originating from the sub-Saharan area were determined. Phylogenetic analysis based on the full-length S1 sequences identified three lineages (GI-14, GI-16, and GI-19) common in Africa and revealed that a strain, D2334/11/2/13/CI, isolated in Ivory Coast may represent a novel lineage within genotype GI. The maximum inter- and intragenotype sequence identities between this strain and other IBVs were 67.58% and 78.84% (nucleotide) and 64.44% and 78.6% (amino acid), respectively. The whole-genome nucleotide identity of the novel variant shared the highest values with a reference Belgian nephropathogenic strain (B1648, 92.4%) and with another study strain from Ivory Coast (D2334/12/2/13/CI, 94.6%). This study illustrates the importance of epidemiological monitoring of IBV in sub-Saharan Africa, as the area may serve as a focal point for newly emerging viral lineages.

18.
Virus Genes ; 42(1): 82-9, 2011 Feb.
Artículo en Inglés | MEDLINE | ID: mdl-21116842

RESUMEN

Avian orthoreoviruses (ARVs) are responsible for considerable economic losses in broiler chickens; yet, the genetic characterization of most ARV strains is limited to a few genes, and the full coding region has been determined for only S1133 and 138, two ARV strains associated with tenosynovitis. Recently, in parts of the United States, ARVs with novel neutralization antigen type were isolated from chickens afflicted with runting-stunting syndrome. One such strain, AVS-B, was selected for full genome sequencing and phylogenetic analysis. The complete genome was 23,494 bp in size and included 12 open reading frames. The lengths of the coding regions, as well as those of the 5' and 3' ends, were fairly well conserved between AVS-B and other reference strains. In pairwise comparisons to the S1133 and 138 strains, the AVS-B strain shared a wide range of sequence identities along each genome segment, i.e., a range of 54-55% for the σC coding region of S1 genome segment and 91-93% for the S2 genome segment. Phylogenetic analyses of individual genes of AVS-B did not identify any single common ancestor among more completely characterized ARV strains for which sequence data are available. One exception to this lack of identity was strain 138, which shared 90-93% nt identity with AVS-B along seven of ten genome segments; only M2, M3, and S1 segments of these strains shared lower sequence identities. Collectively, our analyses indicated that multiple reassortment events and strong divergence caused by the accumulation of point mutations could have led to the observed assortment and genetic heterogeneity of the AVS-B genome.


Asunto(s)
Pollos/virología , Genoma Viral , Orthoreovirus Aviar/genética , Filogenia , Animales , Proteínas de la Cápside/genética , Pollos/crecimiento & desarrollo , Heterogeneidad Genética , Sistemas de Lectura Abierta , Orthoreovirus Aviar/patogenicidad , Enfermedades de las Aves de Corral/virología , ARN Viral/genética , Proteínas de Unión al ARN/genética , ARN Polimerasa Dependiente del ARN/genética , Infecciones por Reoviridae/veterinaria , Infecciones por Reoviridae/virología , Proteínas Virales/genética , Proteínas Reguladoras y Accesorias Virales/genética
19.
Vaccines (Basel) ; 9(1)2021 Jan 11.
Artículo en Inglés | MEDLINE | ID: mdl-33440698

RESUMEN

The control of Newcastle disease (ND) highly relies on vaccination. Immunity provided by a ND vaccine can be characterized by measuring the level of clinical protection and reduction in challenge virus shedding. The extent of shedding depends a lot on the characteristics of vaccine used and the quality of vaccination, but influenced also by the genotype of the challenge virus. We demonstrated that vaccination of SPF chicks with recombinant herpesvirus of turkey expressing the F-gene of genotype I ND virus (rHVT-ND) provided complete clinical protection against heterologous genotype VII.1.1 ND virus strain and reduced challenge virus shedding significantly. 100% of clinical protection was achieved already by 3 weeks of age, irrespective of the challenge route (intra-muscular or intra-nasal) and vaccination blocked cloacal shedding almost completely. Interestingly, oro-nasal shedding was different in the two challenge routes: less efficiently controlled following intra-nasal than intra-muscular challenge. Differences in the shedding pattern between the two challenge routes indicate that rHVT-ND vaccine induces strong systemic immunity, that is capable to control challenge virus dissemination in the body (no cloacal shedding), even when it is a heterologous strain, but less efficiently, although highly significantly (p < 0.001) suppresses the local replication of the challenge virus in the upper respiratory mucosa and consequent oro-nasal shedding.

20.
Virus Res ; 297: 198349, 2021 05.
Artículo en Inglés | MEDLINE | ID: mdl-33631220

RESUMEN

Avian reoviruses are well-known pathogens seriously affecting the productivity of poultry industry. Game birds represent a small segment of the agricultural sector and much remained to be learnt about factors affecting productivity. Here we show that reovirus infections might occur in pheasants and demonstrate that reoviruses of pheasants are of diverse origin. The complete or coding-complete genomic sequences of two Hungarian reovirus strains, D1996/2/1 and Reo/HUN/Pheasant/216/2015, have been determined in this study. The strain D1996/2/1 was isolated in 2012 from birds with gizzard erosion, whereas the other strain was isolated in 2015 from diarrheic pheasant poults. Phylogenetic analyses showed that none of the Hungarian isolates shared common origin with a pheasant reovirus detected recently in the United States. Additionally, we found that Reo/HUN/Pheasant/216/2015 is a multi-reassortant reovirus within the species Avian orthoreovirus that shared genetic relationship with turkey reoviruses (σC), partridge reoviruses (λA, σB), and chicken reoviruses (λB, λC, µA, σA, and σNS), in the respective gene phylogenies, whereas two genes (µB and µNS) did not reveal any possible common ancestors. The other isolate, D1996/2/1, was found to be distantly related to previously described reoviruses raising the possibility that it might represent a novel orthoreovirus species or a new genogroup within the newly accepted species, Neoavian orthoreovirus. The genetic diversity among pheasant reoviruses could raise challenges for virus classification as well as for development of molecular diagnostic tools and vaccine based prevention and control measures.


Asunto(s)
Galliformes , Orthoreovirus Aviar , Orthoreovirus , Infecciones por Reoviridae , Animales , Galliformes/genética , Genoma Viral , Orthoreovirus/genética , Filogenia , Pavos
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