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3. Evaluation of three hemagglutinin-based vaccines for the experimental control of a panzootic clade 2.3.4.4b A(H5N8) high pathogenicity avian influenza virus in mule ducks

Author

Niqueux, Éric, Flodrops, Marion, Allée, Chantal, Lebras, Marie-Odile, Pierre, Isabelle, Louboutin, Katell, Guillemoto, Carole, Le Prioux, Aurélie, Le Bouquin-Leneveu, Sophie, Keïta, Alassane, Amelot, Michel, Martenot, Claire, Massin, Pascale, Cherbonnel-Pansart, Martine, Briand, François-Xavier, Schmitz, Audrey, Cazaban, Christophe, Dauphin, Gwenaëlle, Delquigny, Thomas, Lemière, Stéphane, Watier, Jean-Marie, Mogler, Mark, Tarpey, Ian, Grasland, Béatrice, and Eterradossi, Nicolas

Published
2022
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5. Highly Pathogenic Avian Influenza A(H5N8) Virus Spread by Short- and Long-Range Transmission, France, 2016-17

Author

Briand, Francois-Xavier, Niqueux, Eric, Schmitz, Audrey, Martenot, Claire, Cherbonnel, Martine, Massin, Pascale, Kerbrat, Florian, Chatel, Marina, Guillemoto, Carole, Guillou-Cloarec, Cecile, Ogor, Katell, Prioux, Aurelie Le, Allee, Chantal, Beven, Veronique, Hirchaud, Edouard, Blanchard, Yannick, Scoizec, Axelle, Le Bouquin, Sophie, Eterradossi, Nicolas, and Grasland, Beatrice

Subjects
Avian influenza -- Genetic aspects, Infection control -- Methods, Disease transmission -- Models, Genotype -- Identification and classification -- Health aspects, Health
Abstract

Influenza A viruses are enveloped viruses of the Alphainfluenzavirus genus in the Orthomyxoviridae family. Their negative-stranded RNA genome consists of 8 segments encoding a total of 10-14 proteins. Avian influenza [...]

Published
2021
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7. Role of Backyard Flocks in Transmission Dynamics of Highly Pathogenic Avian Influenza A(H5N8) Clade 2.3.4.4, France, 2016-2017

Author

Souvestre, Marie, Guinat, Claire, Niqueux, Eric, Robertet, Luc, Croville, Guillaume, Paul, Mathilde, Schmitz, Audrey, Bronner, Anne, Eterradossi, Nicolas, and Guerin, Jean-Luc

Subjects
Poultry industry -- Health aspects, Avian influenza viruses -- Health aspects, Farms -- Health aspects, Avian influenza -- Health aspects, Influenza viruses, Influenza, Biosecurity, Health
Abstract

In the past 2 years, major outbreaks of highly pathogenic avian influenza (HPAI) occurred in Europe, resulting in severe socioeconomic effects on the poultry industry (1,2). During November 28, 2016-March [...]

Published
2019
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9. The impact of maturity on the ability of Eimeria acervulina and Eimeria meleagrimitis oocysts to sporulate

Author

Répérant Jean-Michel, Thomas-Hénaff Martine, Benoit Chantal, Le Bihannic Pierre, and Eterradossi Nicolas

Subjects
eimeria, coccidia, sporulation, oocysts, chicken, turkey, Infectious and parasitic diseases, RC109-216
Abstract

The sporulation of oocysts of Eimeria that infect poultry is known to be under the influence of environmental conditions, including temperature, oxygen supply, and moisture. However, even when these conditions are optimal, the level of sporulation can remain low. The effect of oocyst maturity on their ability to sporulate was investigated for two species of Eimeria: E. acervulina of chickens, and E. meleagrimitis of turkeys. After oral infection of birds, oocysts were collected at their production site in the intestine at different times around the prepatent period. The percentage of sporulation was determined by observation of 100 oocysts for each sample. With E. acervulina, it was observed that sporulation depended on the time of collection of the oocysts in the intestine, and that it increased with aging oocysts (from 5% to 40% globally in 8 h). With E. meleagrimitis, sporulation remained low with oocysts collected in the duodenum (below 20%), but oocysts collected in the midgut and in the lower intestine sporulated more efficiently (around 80%) than oocysts collected in the duodenum at the same time. One explanation for these results is the assumption that oocysts may be produced before fertilization, and that microgametes have not yet fertilized the newly produced oocysts. As time goes on, more oocysts would be fertilized, locally in the duodenum for E. acervulina, and descending along the gut for E. meleagrimitis. This hypothesis needs to be investigated further, but it could lead to new approaches to control these parasites by targeting the microgametes.

Published
2021
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13. Highly Pathogenic Avian Influenza A(H5N1) Clade 2.3.4.4b Virus in Domestic Cat, France, 2022.

Author

Briand, François-Xavier, Souchaud, Florent, Pierre, Isabelle, Beven, Véronique, Hirchaud, Edouard, Hérault, Fabrice, Planel, René, Rigaudeau, Angélina, Bernard-Stoecklin, Sibylle, Van der Werf, Sylvie, Lina, Bruno, Gerbier, Guillaume, Eterradossi, Nicolas, Schmitz, Audrey, Niqueux, Eric, and Grasland, Béatrice

Subjects
AVIAN influenza, CATS, MAMMALS
Abstract

We detected highly pathogenic avian influenza A(H5N1) clade 2.3.4.4b virus in a domestic cat that lived near a duck farm infected by a closely related virus in France during December 2022. Enhanced surveillance of symptomatic domestic carnivores in contact with infected birds is recommended to prevent further spread to mammals and humans. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Multiple independent introductions of highly pathogenic avian influenza H5 viruses during the 2020–2021 epizootic in France.

Author

Briand, François‐Xavier, Niqueux, Eric, Schmitz, Audrey, Martenot, Claire, Cherbonnel, Martine, Massin, Pascale, Busson, Rachel, Guillemoto, Carole, Pierre, Isabelle, Louboutin, Katell, Souchaud, Florent, Allée, Chantal, Quenault, Helene, Lucas, Pierrick, de Wiele, Anne Van, Blanchard, Yannick, Eterradossi, Nicolas, Scoizec, Axelle, Bouquin‐Leneveu, Sophie Le, and Rautureau, Severine

Subjects
AVIAN influenza A virus, AVIAN influenza, H5N1 Influenza, GENOMICS, PLANT viruses, PATHOGENIC viruses, INFLUENZA A virus
Abstract

During winter 2020–2021, France and other European countries were severely affected by highly pathogenic avian influenza H5 viruses of the Gs/GD/96 lineage, clade 2.3.4.4b. In total, 519 cases occurred, mainly in domestic waterfowl farms in Southwestern France. Analysis of viral genomic sequences indicated that 3 subtypes of HPAI H5 viruses were detected (H5N1, H5N3, H5N8), but most French viruses belonged to the H5N8 subtype genotype A, as Europe. Phylogenetic analyses of HPAI H5N8 viruses revealed that the French sequences were distributed in 9 genogroups, suggesting 9 independent introductions of H5N8 from wild birds, in addition to the 2 introductions of H5N1 and H5N3. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Infectious Bronchitis Coronavirus: Genome Evolution in Vaccinated and Non-Vaccinated SPF Chickens.

Author

Flageul, Alexandre, Allée, Chantal, Courtillon, Céline, Béven, Véronique, Quenault, Hélène, Blanchard, Yannick, Amelot, Michel, Courtois, David, De Wit, Sjaak, Eterradossi, Nicolas, Grasland, Béatrice, and Brown, Paul A.

Subjects
CORONAVIRUSES, VACCINATION, AVIAN infectious bronchitis virus, BRONCHITIS, COVID-19, CHICKEN industry, REVERSE genetics
Abstract

Infectious Bronchitis virus (IBV) continues to cause significant economic losses for the chicken industry despite the use of many live IBV vaccines around the world. Several authors have suggested that vaccine-induced partial protection may contribute to the emergence of new IBV strains. In order to study this hypothesis, three passages of a challenge IBV were made in SPF chickens sham inoculated or vaccinated at day of age using a live vaccine heterologous to the challenge virus. All birds that were challenged with vaccine heterologous virus were positive for viral RNA. NGS analysis of viral RNA in the unvaccinated group showed a rapid selection of seven genetic variants, finally modifying the consensus genome of the viral population. Among them, five were non-synonymous, modifying one position in NSP 8, one in NSP 13, and three in the Spike protein. In the vaccinated group, one genetic variant was selected over the three passages. This synonymous modification was absent from the unvaccinated group. Under these conditions, the genome population of an IBV challenge virus evolved rapidly in both heterologous vaccinated and non-vaccinated birds, while the genetic changes that were selected and the locations of these were very different between the two groups. [ABSTRACT FROM AUTHOR]

Published
2022
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18. Description of the first isolates of guinea fowl corona and picornaviruses obtained from a case of guinea fowl fulminating enteritis.

Author

Courtillon, Céline, Briand, François-Xavier, Allée, Chantal, Contrant, Maud, Beven, Véronique, Lucas, Pierrick, Blanchard, Yannick, Mouchel, Simon, Eterradossi, Nicolas, Delforterie, Yves, Grasland, Béatrice, and Brown, Paul

Subjects
GUINEAFOWL, PICORNAVIRUSES, ENTERITIS, EGGS, GASTROINTESTINAL contents
Abstract

Guinea fowl fulminating enteritis has been reported in France since the 1970s. In 2014, a coronavirus was identified and appeared as a possible viral pathogen involved in the disease. In the present study, intestinal content from a guinea fowl involved in a new case of the disease in 2017 was analysed by deep sequencing, revealing the presence of a guinea fowl coronavirus (GfCoV) and a picornavirus (GfPic). Serial passage assays into the intra-amniotic cavity of 13-day-old specific pathogen-free chicken eggs and 20-day-old conventional guinea fowl eggs were attempted. In chicken eggs, isolation assays failed, but in guinea fowl eggs, both viruses were successfully obtained. Furthermore, two GfCoV and two GfPic isolates were obtained from the same bird but from different sections of its intestines. This shows that using eggs of the same species, in which the virus has been detected, can be the key for successful isolation. The consensus sequence of the full-length genomes of both GfCoV isolates was highly similar, and correlated to those previously described in terms of genome organization, ORF length and phylogenetic clustering. According to full-length genome analysis and the structure of the Internal Ribosome Entry Site, both GfPic isolates belong to the Anativirus genus and specifically the species Anativirus B. The availability of the first isolates of GfCoV and GfPic will now provide a means of assessing their pathogenicity in guinea fowl in controlled experimental conditions and to assess whether they are primary viral pathogens of the disease "guinea fowl fulminating enteritis". RESEARCH HIGHLIGHTS First isolation of guinea fowl coronaviruses and picornaviruses. Eggs homologous to the infected species are key for isolation. Isolates available to precisely evaluate the virus roles in fulminating enteritis. First full-length genome sequences of guinea fowl picornaviruses. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Genome Evolution of Two Genetically Homogeneous Infectious Bursal Disease Virus Strains During Passages in vitro and ex vivo in the Presence of a Mutagenic Nucleoside Analog.

Author

Cubas-Gaona, Liliana L., Flageul, Alexandre, Courtillon, Céline, Briand, Francois-Xavier, Contrant, Maud, Bougeard, Stephanie, Lucas, Pierrick, Quenault, Hélène, Leroux, Aurélie, Keita, Alassane, Amelot, Michel, Grasland, Béatrice, Blanchard, Yannick, Eterradossi, Nicolas, Brown, Paul Alun, and Soubies, Sébastien Mathieu

Subjects
INFECTIOUS bursal disease virus, REVERSE genetics, VIRAL genomes, CAPSIDS, CHICKEN diseases, GENETIC variation, BIOLOGICAL systems, MUTAGENS, B cells
Abstract

The avibirnavirus infectious bursal disease virus (IBDV) is responsible for a highly contagious and sometimes lethal disease of chickens (Gallus gallus). IBDV genetic variation is well-described for both field and live-attenuated vaccine strains, however, the dynamics and selection pressures behind this genetic evolution remain poorly documented. Here, genetically homogeneous virus stocks were generated using reverse genetics for a very virulent strain, rvv, and a vaccine-related strain, rCu-1. These viruses were serially passaged at controlled multiplicities of infection in several biological systems, including primary chickens B cells, the main cell type targeted by IBDV in vivo. Passages were also performed in the absence or presence of a strong selective pressure using the antiviral nucleoside analog 7-deaza-2′-C-methyladenosine (7DMA). Next Generation Sequencing (NGS) of viral genomes after the last passage in each biological system revealed that (i) a higher viral diversity was generated in segment A than in segment B, regardless 7DMA treatment and viral strain, (ii) diversity in segment B was increased by 7DMA treatment in both viruses, (iii) passaging of IBDV in primary chicken B cells, regardless of 7DMA treatment, did not select cell-culture adapted variants of rvv, preserving its capsid protein (VP2) properties, (iv) mutations in coding and non-coding regions of rCu-1 segment A could potentially associate to higher viral fitness, and (v) a specific selection, upon 7DMA addition, of a Thr329Ala substitution occurred in the viral polymerase VP1. The latter change, together with Ala270Thr change in VP2, proved to be associated with viral attenuation in vivo. These results identify genome sequences that are important for IBDV evolution in response to selection pressures. Such information will help tailor better strategies for controlling IBDV infection in chickens. [ABSTRACT FROM AUTHOR]

Published
2021
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22. A unified genotypic classification of infectious bursal disease virus based on both genome segments.

Author

Islam, Mohammad Rafiqul, Nooruzzaman, Mohammed, Rahman, Tazinur, Mumu, Tanjin Tamanna, Rahman, Mohammad Mijanur, Chowdhury, Emdadul Haque, Eterradossi, Nicolas, and Müller, Hermann

Subjects
CHICKEN diseases, INFECTIOUS bursal disease virus, GENOTYPES
Abstract

Infectious bursal disease virus (IBDV) of chickens is a birnavirus with a bi-segmented double-stranded RNA genome, the segments designated as A and B. We performed phylogenetic analysis using a 366-bp fragment of segment A (nt 785–1150) and a 508-bp fragment of segment B (nt 328–835) of IBDV. A total of 463 segment A and 434 segment B sequences from GenBank, including the sequences of eight recent Bangladeshi isolates, were used in the analysis. The analysis revealed eight genogroups of segment A under serotype 1, designated as A1 (classical), A2 (US antigenic variant), A3 (very virulent), A4 (dIBDV), A5 (atypical Mexican), A6 (atypical Italian), A7 (early Australian) and A8 (Australian variant), and a single genogroup under serotype 2, designated as A0. On the other hand, segment B could be categorized into five genogroups irrespective of serotype, these being B1 (classical-like), B2 (very virulent-like), B3 (early Australian-like), B4 (Polish & Tanzanian) and B5 (Nigerian). Segment B of serotype 2 strains clustered within genogroup B1. With the bi-segmented genome of IBDV, these differences would allow for a total of 45 possible assortments. Based on the combinations of segment A and segment B genogroups observed in 463 IBDV strains, a total of 15 genotypes could be recognized. Recent Bangladeshi IBDV strains, isolated in 2016, appeared to be segment reassortants having segment A of genogroup A3 (very virulent) and segment B of genogroup B3 (early Australian-like). An extended system of nomenclature of IBDV strains is proposed. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Host specificity of avian metapneumoviruses.

Author

Brown, Paul A., Allée, Chantal, Courtillon, Céline, Szerman, Nathan, Lemaitre, Evelyne, Toquin, Didier, Mangart, Jean-Michel, Amelot, Michel, and Eterradossi, Nicolas

Subjects
VIRUS isolation, GALLIFORMES, DUCK plague, VIRAL transmission, TURKEYS
Abstract

To date, four subgroups of avian metapneumoviruses have been defined (AMPV-A, B, C and D) based on genetic and antigenic differences. The extent of infection in the three principal species (turkeys, chickens and ducks) by these subgroups is, however, not well defined. Here, a series of controlled and ethically approved experimental infections were performed in specific pathogen-free turkeys, chickens and ducks with each of the four AMPV subgroups. For subgroup C, one strain isolated from turkeys in the USA (turkey AMPV-C) and one isolated from ducks in France (duck AMPV-C) were compared. Globally, these extensive experimental trials demonstrated that AMPV-A, B, turkey C and D were well adapted to Galliformes, especially turkeys; however, chickens showed limited clinical signs and differences in seroconversion and transmission. Notably, chickens did not transmit AMPV-A to contacts and were shown for the first time to be susceptible to AMPV-D. The duck AMPV-C was well adapted to ducks; however, chickens and turkeys seroconverted and were positive by virus isolation. In addition, seroconversion of contact turkeys to duck AMPV-C demonstrated horizontal transmission of this virus in a non-palmiped species under our experimental conditions. Interestingly, in chickens and turkeys, duck AMPV-C isolation was possible despite a lack of detection of viral RNA. Likewise, the turkey AMPV-C virus was well adapted to turkeys yet was also isolated from chickens despite a lack of detection of viral RNA. These results would suggest a selection for viral genetic sequences that differ from the original strain upon adaptation to a 'non-conventional host'. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Antigenicity, pathogenicity and immunosuppressive effect caused by a South American isolate of infectious bursal disease virus belonging to the "distinct" genetic lineage.

Author

Tomás, Gonzalo, Marandino, Ana, Courtillon, Céline, Amelot, Michel, Keita, Alassane, Pikula, Anna, Hernández, Martín, Hernández, Diego, Vagnozzi, Ariel, Panzera, Yanina, Domańska-Blicharz, Katarzyna, Eterradossi, Nicolas, Pérez, Ruben, and Soubies, Sébastien Mathieu

Subjects
INFECTIOUS bursal disease virus, CHICKEN diseases, CAUSATION (Philosophy), NEWCASTLE disease, COMMUNICABLE diseases
Abstract

Infectious bursal disease virus (IBDV) is the causative agent of a highly contagious immunosuppressive disease affecting young chickens. The recently described "distinct IBDV" (dIBDV) genetic lineage encompasses a group of worldwide distributed strains that share conserved genetic characteristics in both genome segments making them unique within IBDV strains. Phenotypic characterization of these strains is scarce and limited to Asiatic and European strains collected more than 15 years ago. The present study aimed to assess the complete and comprehensive phenotypic characterization of a recently collected South American dIBDV strain (1/chicken/URY/1302/16). Genetic analyses of both partial genome segments confirmed that this strain belongs to the dIBDV genetic lineage and that it is not a reassortant. Antigenic analysis with monoclonal antibodies indicated that this strain has a particular antigenic profile, similar to that obtained in a dIBDV strain from Europe (80/GA), which differs from those previously found in the traditional classic, variant and very virulent strains. Chickens infected with the South American dIBDV strain showed subclinical infections but had a marked bursal atrophy. Further analysis using Newcastle disease virus-immunized chickens, previously infected with the South American and European dIBDV strains, demonstrated their severe immunosuppressive effect. These results indicate that dIBDV strains currently circulating in South America can severely impair the immune system of chickens, consequently affecting the local poultry industry. Our study provides new insights into the characteristics and variability of this global genetic lineage and is valuable to determine whether specific control measures are required for the dIBDV lineage. Research Highlights A South American strain of the dIBDV lineage was phenotypically characterized. The strain produced subclinical infections with a marked bursal atrophy. Infected chickens were severely immunosuppressed. The dIBDV strains are antigenically divergent from other IBDV lineages. [ABSTRACT FROM AUTHOR]

Published
2019
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25. Chicken endothelial cells are highly responsive to viral innate immune stimuli and are susceptible to infections with various avian pathogens.

Author

Lion, Adrien, Esnault, Evelyne, Kut, Emmanuel, Guillory, Vanaïque, Trapp-Fragnet, Laetitia, Soubies, Sébastien M., Chanteloup, Nathalie, Niepceron, Alisson, Guabiraba, Rodrigo, Marc, Daniel, Eterradossi, Nicolas, Trapp, Sascha, and Quéré, Pascale

Subjects
ENDOTHELIAL cells, NATURAL immunity, GALLIFORMES, COMMUNICABLE diseases in animals, IMMUNE response, INFECTIOUS bursal disease virus, ESCHERICHIA coli diseases
Abstract

It is well established that the endothelium plays a prominent role in the pathogenesis of various infectious diseases in mammals. However, little is known about the role of endothelial cells (EC) as targets for avian pathogens and their contribution to the pathogenesis of infectious diseases in galliform birds. First, we explored the innate immune response of primary chicken aortic endothelial cells (pchAEC), obtained from 18-day-old embryos, to stimulation with pathogen-associated molecular patterns or recombinant chicken interferons (type I, II and III IFNs). In spite of the abundant expression of a number of innate immune receptors, marked cytokine responses to stimulation with pathogen-associated molecular patterns were only seen in pchAEC treated with the TLR3 agonist polyI:C (pI:C) and the MDA5 agonist liposome-complexed polyI:C (L-pI:C), as was assessed by quantitative PCR and luciferase-based IFN-I/NFκB reporter assays. Treatments of pchAEC with IFN-α, IFN-γ and IFN-λ resulted in STAT1-phosphorylation/activation, as was revealed by immunoblotting. Next, we demonstrated that pchAEC are susceptible to infection with a variety of poultry pathogens, including Marek's disease virus (MDV), infectious bursal disease virus (IBDV), avian pathogenic Escherichia coli (APEC) and Eimeria tenella. Our data highlight that chicken EC are potential targets for viral, bacterial and protozoan pathogens in gallinaceous poultry and may partake in the inflammatory and antimicrobial response. The pchAEC infection model used herein will allow further studies interrogating avian pathogen interactions with vascular EC. RESEARCH HIGHLIGHTS: Use of a well-defined primary chicken aortic endothelial cell (pchAEC) culture model for studying avian host-pathogen interactions. pchAEC are responsive to innate immune stimulation with viral pathogen-associated molecular patterns and chicken type I, II and III interferons. pchAEC are susceptible to infections with economically important poultry pathogens, including MDV, IBDV, APEC and Eimeria tenella. [ABSTRACT FROM AUTHOR]

Published
2019
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26. Transmission Kinetics and histopathology induced by European Turkey Coronavirus during experimental infection of specific pathogen free turkeys.

Author

Brown, Paul A., Courtillon, Céline, Weerts, Erik A. W. S., Andraud, Mathieu, Allée, Chantal, Vendembeuche, Anthony, Amelot, Michel, Rose, Nicolas, Verheije, Monique H., and Eterradossi, Nicolas

Subjects
CORONAVIRUSES, HISTOPATHOLOGY, EPITHELIAL cells, VIRAL antigens
Abstract

Numerous viruses, mostly in mixed infections, have been associated worldwide with poult enteritis complex (PEC). In 2008 a coronavirus (Fr‐TCoV 080385d) was isolated in France from turkey poults exhibiting clinical signs compatible with this syndrome. In the present study, the median infectious dose (ID50), transmission kinetics and pathogenicity of Fr‐TCoV were investigated in 10‐day‐old SPF turkeys. Results revealed a titre of 104.88ID50/ml with 1 ID50/ml being beyond the limit of genome detection using a well‐characterized qRT‐PCR for avian coronaviruses. Horizontal transmission of the virus via the airborne route was not observed however, via the oro‐faecal route this proved to be extremely rapid (one infectious individual infecting another every 2.5 hr) and infectious virus was excreted for at least 6 weeks in several birds. Histological examination of different zones of the intestinal tract of the Fr‐TCoV‐infected turkeys showed that the virus had a preference for the lower part of the intestinal tract with an abundance of viral antigen being present in epithelial cells of the ileum, caecum and bursa of Fabricius. Viral antigen was also detected in dendritic cells, monocytes and macrophages in these areas, which may indicate a potential for Fr‐TCoV to replicate in antigen‐presenting cells. Together these results highlight the importance of good sanitary practices in turkey farms to avoid introducing minute amounts of virus that could suffice to initiate an outbreak, and the need to consider that infected individuals may still be infectious long after a clinical episode, to avoid virus dissemination through the movements of apparently recovered birds. [ABSTRACT FROM AUTHOR]

Published
2019
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27. Propagation and titration of infectious bursal disease virus, including non-cell-culture-adapted strains, using ex vivo -stimulated chicken bursal cells.

Author

Soubies, Sébastien Mathieu, Courtillon, Céline, Abed, Mouna, Amelot, Michel, Keita, Alassane, Broadbent, Andrew, Härtle, Sonja, Kaspers, Bernd, and Eterradossi, Nicolas

Subjects
AGRICULTURAL egg production, VETERINARY medicine, BROILER chickens, ANIMAL diseases, GENOTYPES
Abstract

Infectious bursal disease virus (IBDV) is aBirnaviridaefamily member of economic importance for poultry. This virus infects and destroys developing B lymphocytes in the cloacal bursa, resulting in a potentially fatal or immunosuppressive disease in chickens. Naturally occurring viruses and many vaccine strains are not able to grow inin vitrosystems without prior adaptation, which often affects viral properties such as virulence. Primary bursal cells, which are the main target cells of lymphotropic IBDVin vivo, may represent an attractive system for the study of IBDV. Unfortunately, bursal cells isolated from bursal follicles undergo apoptosis within hours following their isolation. Here, we demonstrate thatex vivostimulation of bursal cells with phorbol 12-myristate 13-acetate maintains their viability long enough to allow IBDV replication to high titres. A wide range of field-derived or vaccine serotype 1 IBDV strains could be titrated in these phorbol 12-myristate 13-acetate -stimulated bursal cells and furthermore were permissive for replication of non-cell-culture-adapted viruses. These cells also supported multistep replication experiments and flow cytometry analysis of infection.Ex vivo-stimulated bursal cells therefore offer a promising tool in the study of IBDV. [ABSTRACT FROM AUTHOR]

Published
2018
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28. Identification of a European interserotypic reassortant strain of infectious bursal disease virus.

Author

Soubies, Sébastien M., Courtillon, Céline, Briand, François-Xavier, Queguiner-Leroux, Maryline, Courtois, David, Amelot, Michel, Grousson, Karine, Morillon, Paul, Herin, Jean-Bernard, and Eterradossi, Nicolas

Subjects
INFECTIOUS bursal disease virus, SEROTYPES, POULTRY, CHICKENS, MICROBIAL virulence, GENOMES
Abstract

Infectious bursal disease virus (IBDV, family Birnaviridae) is a bi-segmented double-stranded RNA virus for which two serotypes are described. Serotype 1 replicates in the bursa of Fabricius and causes an immunosuppressive and potentially fatal disease in young chickens. Serotype 2 is apathogenic in poultry species. Up to now, only one natural event of interserotypic reassortment has been described after the introduction of very virulent IBDV (vvIBDV) in the USA in 2009, resulting in an IBDV strain with its segment A related to vvIBDV and its segment B related to US serotype 2 strain OH. Here, we present the first European isolate illustrative of interserotypic reassortment. The reassorting isolate, named 100056, exhibits a genomic segment A typical of current European vvIBDV but a segment B close to European serotype 2 viruses, supporting an origin distinct from US strains. When inoculated into SPF chickens, isolate 100056 induced mild clinical signs in the absence of mortality but caused a severe bursal atrophy, which strongly suggests an immunosuppressive potential. These results illustrate that interserotypic reassortment is another mechanism that can create IBDV strains with a modified acute pathogenicity. As a consequence, and for a more precise inference of the possible phenotype, care should be taken that the molecular identification of IBDV strains is targeted to both genome segments. [ABSTRACT FROM AUTHOR]

Published
2017
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29. Nigel Horrox.

Author

Eterradossi, Nicolas

Subjects
*PRAGMATICS, *POULTRY industry, *CORPORATE vice-presidents
Abstract

Nigel was a restless international traveler, strongly committed to developing the poultry industry and training poultry professionals internationally. Graph It is with profound sadness that World Veterinary Poultry Association (WVPA) officers were informed, on Thursday 12th May 2022, of the sudden passing away of WVPA former President and Senior Vice President, our dear friend Nigel Horrox. Under Nigel, the number of WVPA national branches and members worldwide steadily increased, with 11 new branches established since 2011, and the self-set goal of reaching more than 2000 WVPA members distributed across 50 national branches worldwide nearing completion. [Extracted from the article]

Published
2022
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30. Molecular Comparisons of Full Length Metapneumovirus (MPV) Genomes, Including Newly Determined French AMPV-C and –D Isolates, Further Supports Possible Subclassification within the MPV Genus.

Author

Brown, Paul A., Lemaitre, Evelyne, Briand, François-Xavier, Courtillon, Céline, Guionie, Olivier, Allée, Chantal, Toquin, Didier, Bayon-Auboyer, Marie-Hélène, Jestin, Véronique, and Eterradossi, Nicolas

Subjects
AMINO acid sequence, PNEUMONIA, NUCLEIC acids, INFECTIOUS disease transmission, RESPIRATORY infections, VIRUS diseases
Abstract

Four avian metapneumovirus (AMPV) subgroups (A–D) have been reported previously based on genetic and antigenic differences. However, until now full length sequences of the only known isolates of European subgroup C and subgroup D viruses (duck and turkey origin, respectively) have been unavailable. These full length sequences were determined and compared with other full length AMPV and human metapneumoviruses (HMPV) sequences reported previously, using phylogenetics, comparisons of nucleic and amino acid sequences and study of codon usage bias. Results confirmed that subgroup C viruses were more closely related to HMPV than they were to the other AMPV subgroups in the study. This was consistent with previous findings using partial genome sequences. Closer relationships between AMPV-A, B and D were also evident throughout the majority of results. Three metapneumovirus “clusters” HMPV, AMPV-C and AMPV-A, B and D were further supported by codon bias and phylogenetics. The data presented here together with those of previous studies describing antigenic relationships also between AMPV-A, B and D and between AMPV-C and HMPV may call for a subclassification of metapneumoviruses similar to that used for avian paramyxoviruses, grouping AMPV-A, B and D as type I metapneumoviruses and AMPV-C and HMPV as type II. [ABSTRACT FROM AUTHOR]

Published
2014
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31. An experimental study of the survival of turkey coronavirus at room temperature and +4°C.

Author

Guionie, Olivier, Courtillon, Céline, Allee, Chantal, Maurel, Stéphan, Queguiner, Marilyne, and Eterradossi, Nicolas

Subjects
CORONAVIRUSES, SURVIVAL analysis (Biometry), CORONAVIRUS diseases, REVERSE transcriptase polymerase chain reaction, EGG microbiology, TURKEYS, NUCLEOCAPSIDS, VACCINATION, DISEASES
Abstract

Turkey coronavirus (TCoV) is a gammacoronavirus (Coronaviridae,Nidovirales) responsible for digestive disorders in young turkeys. TCoV has been associated with poult enteritis complex, a syndrome that severely affects turkey production. No medical prophylaxis exists to control TCoV, therefore sanitary measures such as cleaning and disinfection are essential. It is thus important to evaluate temperatures that allow persistence of TCoV in the environment. Two series of aliquots of a suspension of a French isolate of TCoV (Fr TCoV) were stored at room temperature or +4°C for 0 to 40 days. As TCoV does not grow in cell culture, the presence of residual infectious TCoV in the stored samples was tested by inoculating embryonated specific pathogen free turkey eggs. As TCoV does not induce lesions in the embryo, virus replication in the jejunum and ileum of the embryos was detected 4 days post inoculation, using RNA extraction and a real-time reverse transcriptase-polymerase chain reaction based on the nucleocapsid gene. No surviving virus was detected after 10 days storage at +21.6±1.4°C or after 40 days storage at +4.1±1.6°C, these temperatures being representative of the mean summer and winter temperatures, respectively, in the major French poultry-producing region. The relatively short survival of the virus at room temperature should contribute to limited virus survival during summer months. However, infectious virus was still detected after 20 days storage at the cooler temperatures, a finding that suggests prolonged survival of Fr TCoV and easier transmission between poultry farms in a cool environment are possible. [ABSTRACT FROM PUBLISHER]

Published
2013
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32. Current status of vaccines against infectious bursal disease.

Author

Müller, Hermann, Mundt, Egbert, Eterradossi, Nicolas, and Islam, M.Rafiqul

Subjects
VIRAL vaccines, VETERINARY virology, CHICKEN diseases, IMMUNOSUPPRESSION, IMMUNE response, CHICKEN hatcheries
Abstract

Infectious bursal disease virus (IBDV) is the aetiological agent of the acute and highly contagious infectious bursal disease (IBD) or “Gumboro disease”. IBD is one of the economically most important diseases that affects commercially produced chickens worldwide. Along with strict hygiene management of poultry farms, vaccination programmes with inactivated and live attenuated viruses have been used to prevent IBD. Live vaccines show a different degree of attenuation; many of them may cause bursal atrophy and thus immunosuppression with poor immune response to vaccination against other pathogens and an increase in vulnerability to various types of infections as possible consequences. Depending on their intrinsic characteristics or on the vaccination procedures, some of the vaccines may not induce full protection against the very virulent IBDV strains and antigenic variants observed in the last three decades. As chickens are most susceptible to IBDV in their first weeks of life, active immunity to the virus has to be induced early after hatching. However, maternally derived IBDV-specific antibodies may interfere with early vaccination with live vaccines. Thus new technologies and second-generation vaccines including rationally designed and subunit vaccines have been developed. Recently, live viral vector vaccines have been licensed in several countries and are reaching the market. Here, the current status of IBD vaccines is discussed. [ABSTRACT FROM PUBLISHER]

Published
2012
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33. Different Domains of the RNA Polymerase of Infectious Bursal Disease Virus Contribute to Virulence.

Author

Nouën, Cyril Le, Toquin, Didier, Mülle, Hermann, Raue, Rüdiger, Kean, Katherine M., Langlois, Patrick, Cherbonnel, Martine, and Eterradossi, Nicolas

Subjects
VIRUS diseases in poultry, NUCLEOPROTEINS, RNA polymerases, GENOMES, MICROBIAL virulence, POULTRY industry
Abstract

Background: Infectious bursal disease virus (IBDV) is a pathogen of worldwide significance to the poultry industry. IBDV has a bi-segmented double-stranded RNA genome. Segments A and B encode the capsid, ribonucleoprotein and non-structural proteins, or the virus polymerase (RdRp), respectively. Since the late eighties, very virulent (vv) IBDV strains have emerged in Europe inducing up to 60% mortality. Although some progress has been made in understanding the molecular biology of IBDV, the molecular basis for the pathogenicity of vvIBDV is still not fully understood. Methodology, Principal Findings: Strain 88180 belongs to a lineage of pathogenic IBDV phylogenetically related to vvIBDV. By reverse genetics, we rescued a molecular clone (mc88180), as pathogenic as its parent strain. To study the molecular basis for 88180 pathogenicity, we constructed and characterized in vivo reassortant or mosaic recombinant viruses derived from the 88180 and the attenuated Cu-1 IBDV strains. The reassortant virus rescued from segments A of 88180 (A88) and B of Cu-1 (BCU1) was milder than mc88180 showing that segment B is involved in 88180 pathogenicity. Next, the exchange of different regions of BCU1 with their counterparts in B88 in association with A88 did not fully restore a virulence equivalent to mc88180. This demonstrated that several regions if not the whole B88 are essential for the in vivo pathogenicity of 88180. Conclusion, Significance: The present results show that different domains of the RdRp, are essential for the in vivo pathogenicity of IBDV, independently of the replication efficiency of the mosaic viruses. [ABSTRACT FROM AUTHOR]

Published
2012
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35. Serological Evidence of Backyard Pig Exposure to Highly Pathogenic Avian Influenza H5N8 Virus during 2016–2017 Epizootic in France.

Author

Hervé, Séverine, Schmitz, Audrey, Briand, François-Xavier, Gorin, Stéphane, Quéguiner, Stéphane, Niqueux, Éric, Paboeuf, Frédéric, Scoizec, Axelle, Le Bouquin-Leneveu, Sophie, Eterradossi, Nicolas, Simon, Gaëlle, and Zmora, Pawel

Subjects
POULTRY farms, AVIAN influenza A virus, SWINE, SWINE farms, INFLUENZA A virus, MIXED infections
Abstract

In autumn/winter 2016–2017, HPAI-H5N8 viruses belonging to the A/goose/Guandong/1/1996 (Gs/Gd) lineage, clade 2.3.4.4b, were responsible for outbreaks in domestic poultry in Europe, and veterinarians were requested to reinforce surveillance of pigs bred in HPAI-H5Nx confirmed mixed herds. In this context, ten pig herds were visited in southwestern France from December 2016 to May 2017 and serological analyses for influenza A virus (IAV) infections were carried out by ELISA and hemagglutination inhibition assays. In one herd, one backyard pig was shown to have produced antibodies directed against a virus bearing a H5 from clade 2.3.4.4b, suggesting it would have been infected naturally after close contact with HPAI-H5N8 contaminated domestic ducks. Whereas pigs and other mammals, including humans, may have limited sensitivity to HPAI-H5 clade 2.3.4.4b, this information recalls the importance of implementing appropriate biosecurity measures in pig and poultry farms to avoid IAV interspecies transmission, a prerequisite for co-infections and subsequent emergence of new viral genotypes whose impact on both animal and human health cannot be predicted. [ABSTRACT FROM AUTHOR]

Published
2021
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39. Type I Interferon Acts as a Major Barrier to the Establishment of Persistent Infectious Bursal Disease Virus Infections.

Author

Broto, Laura, Romero, Nicolás, Méndez, Fernando, Diaz-Beneitez, Elisabet, Candelas-Rivera, Oscar, Fuentes, Daniel, Cubas-Gaona, Liliana L., Courtillon, Céline, Eterradossi, Nicolas, Soubies, Sébastien M., Rodríguez, Juan R., Rodríguez, Dolores, and Rodríguez, José F.

Subjects
*TYPE I interferons, *INFECTIOUS bursal disease virus, *INTERFERON receptors, *CHICKEN diseases, *VIRUS diseases, *JAK-STAT pathway
Abstract

Infectious bursal disease virus (IBDV), the best-characterized member of the Birnaviridae family, is a highly relevant avian pathogen causing both acute and persistent infections in different avian hosts. Here, we describe the establishment of clonal, long-term, productive persistent IBDV infections in DF-1 chicken embryonic fibroblasts. Although virus yields in persistently infected cells are exceedingly lower than those detected in acutely infected cells, the replication fitness of viruses isolated from persistently infected cells is higher than that of the parental virus. Persistently infected DF-1 and IBDV-cured cell lines derived from them do not respond to type I interferon (IFN). High-throughput genome sequencing revealed that this defect is due to mutations affecting the IFN-α/β receptor subunit 2 (IFNAR2) gene, resulting in the expression of IFNAR2 polypeptides harboring large C-terminal deletions that abolish the signaling capacity of IFN-α/β receptor complex. Ectopic expression of a recombinant chicken IFNAR2 gene efficiently rescues IFN-α responsiveness. IBDV-cured cell lines derived from persistently infected cells exhibit a drastically enhanced susceptibility to establishing new persistent IBDV infections. Additionally, experiments carried out with human HeLa cells lacking the IFNAR2 gene fully recapitulate results obtained with DF-1 cells, exhibiting a highly enhanced capacity to both survive the acute IBDV infection phase and to support the establishment of persistent IBDV infections. Results presented here show that the inactivation of the JAK-STAT signaling pathway significantly reduces the apoptotic response induced by the infection, facilitating the establishment and maintenance of IBDV persistent infections. IMPORTANCE Members of the Birnaviridae family, including infectious bursal disease virus (IBDV), exhibit a dual behavior, causing acute infections that are often followed by the establishment of lifelong persistent asymptomatic infections. Indeed, persistently infected specimens might act as efficient virus reservoirs, potentially contributing to virus dissemination. Despite the key importance of this biological trait, information about mechanisms triggering IBDV persistency is negligible. Our report evidences the capacity of IBDV, a highly relevant avian pathogen, to establish longterm, productive, persistent infections in both avian and human cell lines. Data presented here provide novel and direct evidence about the crucial role of type I IFNs on the fate of IBDV-infected cells and their contribution to controlling the establishment of IBDV persistent infections. The use of cell lines unable to respond to type I IFNs opens a promising venue to unveiling additional factors contributing to IBDV persistency. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Natural and Experimental Persistence of Highly Pathogenic H5 Influenza Viruses in Slurry of Domestic Ducks, with or without Lime Treatment.

Author

Schmitz, Audrey, Pertusa, Marion, Le Bouquin, Sophie, Rousset, Nathalie, Ogor, Katell, LeBras, Marie-Odile, Martenot, Claire, Daniel, Patrick, Cepeda Hontecillas, Ana Belen, Scoizec, Axelle, Morin, Hervé, Massin, Pascale, Grasland, Béatrice, Niqueux, Eric, and Eterradossi, Nicolas

Subjects
*DUCK plague, *SLURRY, *INFLUENZA viruses, *AVIAN influenza A virus, *BIRDS
Abstract

Infections by A/H5 and A/H7 avian influenza viruses (AIVs) can cause acute disease and are therefore notifiable in poultry and wild birds. During winter 2015-2016, several cases of infection caused by highly pathogenic (HP) AIVs belonging to the A/H5N1, A/H5N2, and A/H5N9 subtypes were detected in southwestern France. Throughout winter 2016-2017, several cases of infections caused mainly by A/H5N8 HP AIV (A/goose/GD/1/1996, clade 2.3.4.4) were detected across Europe. On both occasions, the viruses were widely detected on palmiped farms in France. This study was designed to evaluate the persistence of A/H5 HP AIV in slurry from various duck productions. This was achieved (i) in the laboratory setting by artificially spiking four AIV-free slurry samples with known amounts of A/H5N9 HP AIV and monitoring virus infectivity, with or without lime treatment to achieve pH 10 or pH 12, and (ii) by sampling slurry tanks on five naturally A/H5N8 HP-contaminated farms. Experimental results in artificially spiked slurry suggested virus survival for 4 weeks in slurry from Muscovy or Pekin duck breeders and for 2 weeks in slurry from ducks for foie gras production during the assisted-feeding period, without lime treatment. Persistence of infectious A/H5N9 HP AIV in all slurry samples after lime treatment at pH 10 or pH 12 was less than 1 week. The A/H5N8 HP AIV persisted in naturally contaminated untreated slurry for 7 weeks. The results obtained provide experimental support for the 60-day storage period without treatment or the 7-day interval after lime treatment defined in French regulations for slurry sanitization. [ABSTRACT FROM AUTHOR]

Published
2020
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41. Infectious bursal disease virus in Algeria: Detection of highly pathogenic reassortant viruses.

Author

Abed, Mouna, Soubies, Sébastien, Courtillon, Céline, Briand, François-Xavier, Allée, Chantal, Amelot, Michel, De Boisseson, Claire, Lucas, Pierrick, Blanchard, Yannick, Belahouel, Ali, Kara, Redouane, Essalhi, Abdelhalim, Temim, Soraya, Khelef, Djamel, and Eterradossi, Nicolas

Subjects
*PATHOGENIC viruses, *IMMUNOSUPPRESSIVE agents, *VIRAL genomes, *MICROBIAL virulence, *MORTALITY
Abstract

Infectious bursal disease (IBD) is an immunosuppressive viral disease, present worldwide, which causes mortality and immunosuppression in young chickens. The causative agent, the Avibirnavirus IBDV, is a non-enveloped virus whose genome consists of two segments (A and B) of double-stranded RNA. Different pathotypes of IBDV exist, ranging from attenuated vaccine strains to very virulent viruses (vvIBDV). In Algeria, despite the prophylactic measures implemented, cases of IBD are still often diagnosed clinically and the current molecular epidemiology of IBDV remains unknown. The presence of the virus and especially of strains genetically close to vvIBDV was confirmed in 2000 by an unpublished OIE report. In this study, nineteen IBDV isolates were collected in Algeria between September 2014 and September 2015 during clinical outbreaks. These isolates were analyzed at the genetic, antigenic and pathogenic levels. Our results reveal a broad genetic and phenotypic diversity of pathogenic IBDV strains in Algeria, with, i) the circulation of viruses with both genome segments related to European vvIBDV, which proved as pathogenic for specific pathogen-free chickens as vvIBDV reference strain, ii) the circulation of viruses closely related - yet with a specific segment B - to European vvIBDV, their pathogenicity being lower than reference vvIBDV, iii) the detection of reassortant viruses whose segment A was related to vvIBDV whereas their segment B did not appear closely related to any reference sequence. Interestingly, the pathogenicity of these potentially reassortant strains was comparable to that of reference vvIBDV. All strains characterized in this study exhibited an antigenicity similar to the cognate reference IBDV strains. These data reveal the continuous genetic evolution of IBDV strains in Algerian poultry through reassortment and acquisition of genetic material of unidentified origin. Continuous surveillance of the situation as well as good vaccination practice associated with appropriate biosecurity measures are necessary for disease control. [ABSTRACT FROM AUTHOR]

Published
2018
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42. Concomitant NA and NS deletion on avian Influenza H3N1 virus associated with hen mortality in France in 2019.

Author

Briand, François-Xavier, Schmitz, Audrey, Scoizec, Axelle, Allée, Chantal, Busson, Rachel, Guillemoto, Carole, Quenault, Hélène, Lucas, Pierrick, Pierre, Isabelle, Louboutin, Katell, Guillou-Cloarec, Cécile, Martenot, Claire, Cherbonnel-Pansart, Martine, Thomas, Rodolphe, Massin, Pascale, Souchaud, Florent, Blanchard, Yannick, Steensels, Mieke, Lambrecht, Benedicte, and Eterradossi, Nicolas

Subjects
*AVIAN influenza A virus, *AVIAN influenza, *COVID-19, *AGRICULTURAL exhibitions, *POULTRY farms, *HENS, *MORTALITY
Abstract

An H3N1 avian influenza virus was detected in a laying hens farm in May 2019 which had experienced 25% mortality in Northern France. The complete sequencing of this virus showed that all segment sequences belonged to the Eurasian lineage and were phylogenetically very close to many of the Belgian H3N1 viruses detected in 2019. The French virus presented two genetic particularities with NA and NS deletions that could be related to virus adaptation from wild to domestic birds and could increase virulence, respectively. Molecular data of H3N1 viruses suggest that these two deletions occurred at two different times. • Avian Influenza H3N1 virus detected in poultry farm exhibited mortality in France. • Concomitant NA and NS deletion on French avian Influenza H3N1 virus. • tMRCA analyses suggest two independent event dates for the occurrence of NA and NS deletions. [ABSTRACT FROM AUTHOR]

Published
2022
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43. Effect of a photoperiodic green light program during incubation on embryo development and hatch process.

Author

Qin Tong, McGonnell, Imelda M., Romanini, Carlos E., Bergoug, Hakim, Roulston, Nancy, Berckmans, Daniel, Exadaktylos, Vasileios, Guinebretière, Maryse, Eterradossi, Nicolas, Garain, Pascal, and Demmers, Theo

Subjects
*EGG incubation, *MONOCHROMATIC light, *BROILER chickens, *EMBRYOLOGY, *BODY weight
Abstract

This study was conducted to evaluate the effect of a 12 hours light, 12 hours dark (12L:12D) photoperiod of green light during day 1 to day 18 of incubation time, on embryo growth, hatch performance and the hatch process. In the light group, the monochromatic light was provided by a total of 204 green LEDs (522nm) mounted in a frame which was placed above the eggs to give even spread of illumination. The control group was incubated in complete darkness. Four batches of eggs (n=300 per group per batch) from fertile Ross 308 broiler breeders were used in this experiment. The beak length and crown-rump length compared of embryos incubated under green light were significantly longer than those incubated in the dark condition at day10and day 12, respectively (P<0.01). Furthermore, green light exposed embryos had a longer third toe length compared to control embryos at day 10, day14 and day17(P=0.02). At the group level (n=4 batches), light stimulation had no effect on chick weight and quality at take-off, the initiation of hatch and hatch window. However the individual hatching time of the light exposure focal chicks (n=33) was 3.4h earlier (P=0.49) than the control focal chicks (n=36). The results of this study indicated that green light accelerated embryos development and resulted in an earlier hatching. [ABSTRACT FROM AUTHOR]

Published
2015

44. Genetic, antigenic and pathogenic characterization of four infectious bursal disease virus isolates from China suggests continued evolution of very virulent viruses.

Author

Li, Kai, Courtillon, Céline, Guionie, Olivier, Allée, Chantal, Amelot, Michel, Qi, Xiaole, Gao, Yulong, Wang, Xiaomei, and Eterradossi, Nicolas

Subjects
*VIRAL disease prevention, *VIRAL evolution, *NUCLEOTIDE sequence, *MONOCLONAL antibodies
Abstract

Infectious bursal disease virus (IBDV) causes an economically significant disease of young chickens worldwide. The emergence of very virulent IBDV (vvIBDV) strains has brought more challenges for effective prevention and control of this disease. The aim of the present study was to characterize four IBDV isolates from various regions of China between late 1990s and recent years and to compare them with previously isolated European IBDV strains. In this study, one Chinese vvIBDV strain isolated in 1999 and three strains isolated between 2005 and 2011 were analyzed at the genetic, antigenic and pathogenic levels. Strain SH99 was closely related and clustered in the same genetic lineage as the typical vvIBDV based on the genomic sequences of segments A and B. However, the three more recent Chinese vvIBDV (HLJ0504, HeB10 and HuN11) showed several genetic changes in both segments and clustered in a distinct lineage from the typical vvIBDV and the previously known Chinese vvIBDV. Based on the binding to a panel of neutralizing monoclonal antibodies in antigen capture enzyme-linked immunosorbent assays, all Chinese vvIBDVs exhibited similar antigenicity with the European typical vvIBDV strains. Nonetheless, the pathogenicity caused by the recent Chinese vvIBDV was higher than that induced by the European typical vvIBDV. This study calls for a sustained surveillance of IBD situation in China in order to support a better prevention and control of the disease. [ABSTRACT FROM AUTHOR]

Published
2015
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45. Both Genome Segments Contribute to the Pathogenicity of Very Virulent Infectious Bursal Disease Virus.

Author

Escaffre, Olivier, Le Nouën, Cyril, Amelot, Michel, Ambroggio, Xavier, Ogden, Kristen M., Guionie, Olivier, oquin, Didier T., Müller, Hermann, Islam, Mohammed R., and Eterradossi, Nicolas

Subjects
*INFECTION, *CHICKEN diseases, *THYMUS physiology, *CAPSIDS, *NUCLEOTIDE sequence
Abstract

Infectious bursal disease virus (IBDV) causes an economically significant disease of chickens worldwide. Very virulent IBDV (vvIBDV) strains have emerged and induce as much as 60% mortality. The molecular basis for vvIBDV pathogenicity is not understood, and the relative contributions of the two genome segments, A and B, to this phenomenon are not known. Isolate 94432 has been shown previously to be genetically related to vvIBDVs but exhibits atypical antigenicity and does not cause mortality. Here the full-length genome of 94432 was determined, and a reverse genetics system was established. The molecular clone was rescued and exhibited the same antigenicity and reduced pathogenicity as isolate 94432. Genetically modified viruses derived from 94432, whose vvIBDV consensus nucleotide sequence was restored in segment A and/or B, were produced, and their pathogenicity was assessed in specific-pathogen-free chickens. We found that a valine (position 321) that modifies the most exposed part of the capsid protein VP2 critically modified the antigenicity and partially reduced the pathogenicity of 94432. However, a threonine (position 276) located in the finger domain of the virus polymerase (VP1) contributed even more significantly to attenuation. This threonine is partially exposed in a hydrophobic groove on the VP1 surface, suggesting possible interactions between VP1 and another, as yet unidentified molecule at this amino acid position. The restored vvIBDV-like pathogenicity was associated with increased replication and lesions in the thymus and spleen. These results demonstrate that both genome segments influence vvIBDV pathogenicity and may provide new targets for the attenuation of vvIBDVs. [ABSTRACT FROM AUTHOR]

Published
2013
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46. Generation of serotype 1/serotype 2 reassortant viruses of the infectious bursal disease virus and their investigation in vitro and in vivo

Author

Zierenberg, Kati, Raue, Rüdiger, Nieper, Hermann, Islam, Md. Rafiqul, Eterradossi, Nicolas, Toquin, Didier, and Müller, Hermann

Subjects
*GENETICS, *VIRAL replication, *ANIMAL orientation, *GENOMES
Abstract

Infectious bursal disease virus (IBDV) is the causative agent of acute or immunosuppressive disease in chickens. Serotype 1 strains are pathogenic whereas serotype 2 strains neither cause disease nor protect against infection with the serotype 1 strains. The target organ of serotype 1 strains is the bursa Fabricii (BF). The molecular determinants of this tropism, and therefore pathogenicity, are poorly understood. IBDV is a non-enveloped icosahedral virus particle of 60 nm in diameter, which contains two genome segments of double-stranded RNA. Here, the generation of interserotypic reassortants using the reverse genetics approach is reported. The results of in vitro and in vivo investigations show that genome segment A determines the bursa tropism of IBDV, whereas segment B is involved in the efficiency of viral replication; they further indicate the significance of the interaction of the polymerase (segment B) with the structural protein VP3 (segment A) or the viral genome for efficient virus formation and replication. [Copyright &y& Elsevier]

Published
2004
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47. Viral variant visualizer (VVV): A novel bioinformatic tool for rapid and simple visualization of viral genetic diversity.

Author

Flageul, Alexandre, Lucas, Pierrick, Hirchaud, Edouard, Touzain, Fabrice, Blanchard, Yannick, Eterradossi, Nicolas, Brown, Paul, and Grasland, Béatrice

Subjects
*PORCINE epidemic diarrhea virus, *RAPID tooling, *AVIAN infectious bronchitis virus, *MOLECULAR cloning, *VIRAL genomes
Abstract

• Processing NGS data to determine the composition of the viral population. • Visual description of a viral population as a variant map. • Easy to use bioinformatic pipeline on Galaxy instance. Here a bioinformatic pipeline VVV has been developed to analyse viral populations in a given sample from Next Generation Sequencing (NGS) data. To date, handling large amounts of data from NGS requires the expertise of bioinformaticians, both for data processing and result analysis. Consequently, VVV was designed to help non-bioinformaticians to perform these tasks. By providing only the NGS data file, the developed pipeline generated consensus sequences and determined the composition of the viral population for an avian Metapneumovirus (AMPV) and three different animal coronaviruses (Porcine Epidemic Diarrhea Virus (PEDV), Turkey Coronavirus (TCoV) and Infectious Bronchitis Virus (IBV)). In all cases, the pipeline produced viral consensus genomes corresponding to known consensus sequence and made it possible to highlight the presence of viral genetic variants through a single graphic representation. The method was validated by comparing the viral populations of an AMPV field sample, and of a copy of this virus produced from a DNA clone. VVV demonstrated that the cloned virus population was homogeneous (as designed) at position 2934 where the wild-type virus demonstrated two variant populations at a ratio of almost 50:50. A total of 18, 10, 3 and 28, viral genetic variants were detected for AMPV, PEDV, TCoV and IBV respectively. The simplicity of this pipeline makes the study of viral genetic variants more accessible to a wide variety of biologists, which should ultimately increase the rate of understanding of the mechanisms of viral genetic evolution. [ABSTRACT FROM AUTHOR]

Published
2021
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48. Genetic diversity and evolution of Hare Calicivirus (HaCV), a recently identified lagovirus from Lepus europaeus.

Author

Droillard, Clément, Lemaitre, Evelyne, Chatel, Marina, Quéméner, Agnès, Briand, François-Xavier, Guitton, Jean-Sébastien, Marchandeau, Stéphane, Le Pendu, Jacques, Eterradossi, Nicolas, and Le Gall-Reculé, Ghislaine

Subjects
*CALICIVIRUSES, *HARES, *CYTOSKELETAL proteins, *PATHOGENIC viruses, *PROTEIN models
Abstract

First recognized as highly pathogenic viruses, hare lagoviruses belonging to genotype GII.1 (EBHSV) infect various Lepus species. Genetically distinct benign lagoviruses (Hare Calicivirus, HaCV) have recently been identified but few data have been available so far on these strains. The analysis of 199 samples from hunted hares collected throughout France allowed the detection of 20 HaCV and showed that they were widely distributed in this country. Ten HaCV capsid protein gene sequences were characterized. A first HaCV capsid protein structural model was proposed, revealing a global structure similar to that of a pathogenic GII.1 strain. The HaCV sequences showed an even higher genetic diversity than previously appreciated, with the characterization of two genotypes (GII.2, GII.3) and several additional putative genotypes. The most recent common ancestor for HaCV VP60 gene was estimated to be much older than that for GII.1 pathogenic strains. These results give new insights into the phylogenetic relationships of HaCV within the Lagovirus genus. • Ten new HaCV capsid protein VP60 gene sequences described • Characterization of two new genotypes and several putative genotypes • First capsid protein structural model proposed for a benign lagovirus • TMRCA for HaCV capsid protein gene estimated long before that of pathogenic strains • Probable common genetic origin of European and Australian HaCV [ABSTRACT FROM AUTHOR]

Published
2020
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49. Continuous circulation of an antigenically modified very virulent infectious bursal disease virus for fifteen years in Egypt.

Author

Samy, Ahmed, Courtillon, Céline, Briand, François-Xavier, Khalifa, Mohamed, Selim, Abdullah, Arafa, Abd El Satar, Hegazy, Ahmed, Eterradossi, Nicolas, and Soubies, Sébastien M.

Subjects
*INFECTIOUS bursal disease virus, *CHICKEN diseases, *BROILER chickens, *TISSUE culture
Abstract

Infectious bursal disease virus (IBDV), the agent of an immunosuppressive and sometimes lethal disease in chickens, is causing recurrent outbreaks in broiler chickens in Egypt. In particular, an antigenically modified isolate of very virulent IBDV (vvIBDV) called 99323 was detected in Egypt nearly twenty years ago; this isolate was shown to be experimentally controlled by an antigenically classical live vaccine. However, acute IBD is still reported, even in vaccinated flocks, and little is known about the genetic and antigenic properties of viruses currently circulating in Egypt. In the present study, ten samples collected in Egyptian broiler farms in 2015 as well as five samples collected in 2001 were analyzed. Genetic analyses of partial VP2 sequences revealed that 8 isolates clustered with vvIBDV strains, and 5 with tissue culture adapted and vaccine strains. Similar results were observed for partial VP1 sequences with the exception of isolate 160019, for which VP2 clustered with the vaccine strain Bursine while VP1 clustered with vvIBDV, suggesting reassortment. For isolates genetically related to vvIBDV, antigenic profiling revealed two patterns: while some isolates exhibited typical European vvIBDV reactivity with lack of binding of mAbs 5, other revealed extensive antigenic modifications, with lack of binding of mAbs 3, 5, 6, 8 and 9, similar to isolate 99323. These different patterns were associated with a single amino acid mutation at position 321 of VP2 that is located within peak P HI. Full genome sequencing was performed for three isolates, among which two were representative of the two antigenic patterns observed for vvIBDV as well as the reassortant isolate 160019. This study highlights the co-circulation of both antigenically typical and modified vvIBDV during the last fifteen years in Egypt. • Antigenically atypical very virulent IBDV (vvIBDV) are detected in Egypt. • These viruses have persisted for 15 years in Egypt. • Antigenically atypical and typical vvIBDV co-circulate in Egypt. [ABSTRACT FROM AUTHOR]

Published
2020
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