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1. Exceptional Bluetongue virus (BTV) and Epizootic hemorrhagic disease virus (EHDV) circulation in France in 2023

Author

Gondard, Mathilde, Postic, Lydie, Garin, Emmanuel, Turpaud, Mathilde, Vorimore, Fabien, Ngwa-Mbot, David, Tran, Mai-Lan, Hoffmann, Bernd, Warembourg, Charlotte, Savini, Giovanni, Lorusso, Alessio, Marcacci, Maurilia, Felten, Arnaud, Roux, Aurélie Le, Blanchard, Yannick, Zientara, Stephan, Vitour, Damien, Sailleau, Corinne, and Bréard, Emmanuel

Published
2024
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2. Epizootic Hemorrhagic Disease Virus Serotype 8, Italy, 2022

Author

Lorusso, Alessio, Cappai, Stefano, Loi, Federica, Pinna, Luigia, Ruiu, Angelo, Puggioni, Giantonella, Guercio, Annalisa, Purpari, Giuseppa, Vicari, Domenico, Sghaier, Soufien, Zientara, Stephan, Spedicato, Massimo, Hammami, Salah, Hassine, Thameur Ben, Portanti, Ottavio, Breard, Emmanuel, Sailleu, Corinne, Ancora, Massimo, Di Sabatino, Daria, Morelli, Daniela, Calistri, Paolo, and Savini, Giovanni

Subjects
Diagnosis, Diseases, Care and treatment, Genetic aspects, Growth, Company growth, Dairy cattle -- Genetic aspects -- Growth -- Diseases, Hemorrhagic disorders -- Diagnosis -- Care and treatment, Hemorrhagic diseases -- Diagnosis -- Care and treatment
Abstract

The World Organisation for Animal Health (WOAH) lists epizootic hemorrhagic disease (EHD) as a disease of wild and domestic ruminants caused by EHD virus (EHDV). EHDV is related to bluetongue [...]

Published
2023

6. First Detection of Epizootic Haemorrhagic Disease virus in the European Union, Italy-2022

Author

Lorusso, Alessio, primary, Cappai, Stefano, additional, Loi, Federica, additional, Pinna, Luigia, additional, Ruiu, Angelo, additional, Puggioni, Giantonella, additional, Guercio, Annalisa, additional, Purpari, Giuseppa, additional, Vicari, Domenico, additional, Sghaier, Soufien, additional, Zientara, Stephan, additional, Spedicato, Massimo, additional, Hammami, Salah, additional, Ben Hassine, Thameur, additional, Portanti, Ottavio, additional, Breard, Emmanuel, additional, Sailleu, Corinne, additional, Ancora, Massimo, additional, Di Sabatino, Daria, additional, Morelli, Daniela, additional, Calistri, Paolo, additional, and Savini, Giovanni, additional

Published
2022
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7. Epizootic Haemorrhagic Disease Virus Serotype 8 in Tunisia, 2021

Author

Sghaier, Soufien, primary, Sailleau, Corinne, additional, Marcacci, Maurilia, additional, Thabet, Sarah, additional, Curini, Valentina, additional, Ben Hassine, Thameur, additional, Teodori, Liana, additional, Portanti, Ottavio, additional, Hammami, Salah, additional, Jurisic, Lucija, additional, Spedicato, Massimo, additional, Postic, Lydie, additional, Gazani, Ines, additional, Ben Osman, Raja, additional, Zientara, Stephan, additional, Breard, Emmanuel, additional, Calistri, Paolo, additional, Richt, Juergen A., additional, Holmes, Edward C., additional, Savini, Giovanni, additional, Di Giallonardo, Francesca, additional, and Lorusso, Alessio, additional

Published
2022
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8. Schmallenberg virus in zoo ruminants, France and the Netherlands

Author

Laloy, Eve, Braud, Cindy, Breard, Emmanuel, Kaandorp, Jacques, Bourgeois, Aude, Kohl, Muriel, Meyer, Gilles, Sailleau, Corinne, Viarouge, Cyril, Zientara, Stephan, and Chai, Norin

Abstract

To the Editor: Schmallenberg virus (SBV), a new orthobunyavirus of the family Bunyaviridae, emerged in August 2011 in northwestern Europe (1) and spread to most parts of Europe by Culicoides [...]

Published
2016

9. The genome segments of bluetongue virus differ in copy number in a host-specific manner

Author

Moreau, Yannis, Gil, Patricia, Exbrayat, Antoni, Rakotoarivony, Ignace, Breard, Emmanuel, Sailleau, Corinne, Viarouge, Cyril, Zientara, Stéphan, Savini, Giovanni, Goffredo, Maria, Mancini, Giuseppe, Loire, Etienne, Gutierrez, Serafin, Moreau, Yannis, Gil, Patricia, Exbrayat, Antoni, Rakotoarivony, Ignace, Breard, Emmanuel, Sailleau, Corinne, Viarouge, Cyril, Zientara, Stéphan, Savini, Giovanni, Goffredo, Maria, Mancini, Giuseppe, Loire, Etienne, and Gutierrez, Serafin

Abstract

Genome segmentation is mainly thought to facilitate reassortment. Here, we show that segmentation can also allow differences in segment abundance in populations of bluetongue virus (BTV). BTV has a genome consisting in 10 segments, and its cycle primarily involves periodic alternation between ruminants and Culicoides biting midges. We have developed a reverse transcription-quantitative PCR (RT-qPCR) approach to quantify each segment in wild BTV populations sampled in both ruminants and midges during an epizootic. Segment frequencies deviated from equimolarity in all hosts. Interestingly, segment frequencies were reproducible and distinct between ruminants and biting midges. Beyond a putative regulatory role in virus expression, this phenomenon could lead to different evolution rates between segments. IMPORTANCE The variation in viral gene frequencies remains a largely unexplored aspect of within-host genetics. This phenomenon is often considered to be specific to multipartite viruses. Multipartite viruses have segmented genomes, but in contrast to segmented viruses, their segments are each encapsidated alone in a virion. A main hypothesis explaining the evolution of multipartism is that, compared to segmented viruses, it facilitates the regulation of segment abundancy, and the genes the segments carry, within a host. These differences in gene frequencies could allow for expression regulation. Here, we show that wild populations of a segmented virus, bluetongue virus (BTV), also present unequal segment frequencies. BTV cycles between ruminants and Culicoides biting midges. As expected from a role in expression regulation, segment frequencies tended to show specific values that differed between ruminants and midges. Our results expand previous knowledge on gene frequency variation and call for studies on its role and conservation beyond multipartite viruses.

Published
2021

10. 'Frozen evolution' of an RNA virus suggests accidental release as a potential cause of arbovirus re-emergence

Author

Pascall, David J., Nomikou, Kyriaki, Breard, Emmanuel, Zientara, Stephan, Filipe, Ana Da Silva, Hoffmann, Bernd, Jacquot, Maude, Singer, Joshua B., De Clercq, Kris, Botner, Anette, Sailleau, Corinne, Viarouge, Cyril, Batten, Carrie, Puggioni, Giantonella, Ligios, Ciriaco, Savini, Giovanni, Van Rijn, Piet A., Mertens, Peter P. C., Biek, Roman, Palmarini, Massimo, Pascall, David J., Nomikou, Kyriaki, Breard, Emmanuel, Zientara, Stephan, Filipe, Ana Da Silva, Hoffmann, Bernd, Jacquot, Maude, Singer, Joshua B., De Clercq, Kris, Botner, Anette, Sailleau, Corinne, Viarouge, Cyril, Batten, Carrie, Puggioni, Giantonella, Ligios, Ciriaco, Savini, Giovanni, Van Rijn, Piet A., Mertens, Peter P. C., Biek, Roman, and Palmarini, Massimo

Abstract

The mechanisms underlying virus emergence are rarely well understood, making the appearance of outbreaks largely unpredictable. Bluetongue virus serotype 8 (BTV-8), an arthropod-borne virus of ruminants, emerged in livestock in northern Europe in 2006, spreading to most European countries by 2009 and causing losses of billions of euros. Although the outbreak was successfully controlled through vaccination by early 2010, puzzlingly, a closely related BTV-8 strain re-emerged in France in 2015, triggering a second outbreak that is still ongoing. The origin of this virus and the mechanisms underlying its re-emergence are unknown. Here, we performed phylogenetic analyses of 164 whole BTV-8 genomes sampled throughout the two outbreaks. We demonstrate consistent clock-like virus evolution during both epizootics but found negligible evolutionary change between them. We estimate that the ancestor of the second outbreak dates from the height of the first outbreak in 2008. This implies that the virus had not been replicating for multiple years prior to its re-emergence in 2015. Given the absence of any known natural mechanism that could explain BTV-8 persistence over this long period without replication, we hypothesise that the second outbreak could have been initiated by accidental exposure of livestock to frozen material contaminated with virus from approximately 2008. Our work highlights new targets for pathogen surveillance programmes in livestock and illustrates the power of genomic epidemiology to identify pathways of infectious disease emergence.

Published
2020
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11. Novel Function of Bluetongue Virus NS3 Protein in Regulation of the MAPK/ERK Signaling Pathway

Author

Kundlacz, Cindy, primary, Pourcelot, Marie, additional, Fablet, Aurore, additional, Amaral Da Silva Moraes, Rayane, additional, Léger, Thibaut, additional, Morlet, Bastien, additional, Viarouge, Cyril, additional, Sailleau, Corinne, additional, Turpaud, Mathilde, additional, Gorlier, Axel, additional, Breard, Emmanuel, additional, Lecollinet, Sylvie, additional, van Rijn, Piet A., additional, Zientara, Stephan, additional, Vitour, Damien, additional, and Caignard, Grégory, additional

Published
2019
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13. Red deer (Cervus elaphus) did not play the role of maintenance host for bluetongue virus in France: The burden of proof by long-term wildlife monitoring and Culicoides snapshots

Author

Rossi, Sophie, Balenghien, Thomas, Viarouge, Cyril, Faure, Eva, Zanella, Gina, Sailleau, Corinne, Mathieu, Bruno, Delecolle, Jean Claude, Ninio, Camille, Garros, Claire, Gardes, Laëtitia, Tholoniat, Christophe, Ariston, Agnès, Gauthier, Dominique, Mondoloni, Stevan, Barboiron, Aurélie, Pellerin, Maryline, Gibert, Philippe, Novella, Corinne, Barbier, Stéphane, Guillaumat, Etienne, Zientara, Stéphan, Vitour, Damien, Breard, Emmanuel, Rossi, Sophie, Balenghien, Thomas, Viarouge, Cyril, Faure, Eva, Zanella, Gina, Sailleau, Corinne, Mathieu, Bruno, Delecolle, Jean Claude, Ninio, Camille, Garros, Claire, Gardes, Laëtitia, Tholoniat, Christophe, Ariston, Agnès, Gauthier, Dominique, Mondoloni, Stevan, Barboiron, Aurélie, Pellerin, Maryline, Gibert, Philippe, Novella, Corinne, Barbier, Stéphane, Guillaumat, Etienne, Zientara, Stéphan, Vitour, Damien, and Breard, Emmanuel

Abstract

Bluetongue virus (BTV) is a Culicoides-borne pathogen infecting both domestic and wild ruminants. In Europe, the Red Deer (Cervus elaphus) (RD) is considered a potential BTV reservoir, but persistent sylvatic cycle has not yet been demonstrated. In this paper, we explored the dynamics of BTV1 and BTV8 serotypes in the RD in France, and the potential role of that species in the re-emergence of BTV8 in livestock by 2015 (i.e., 5 years after the former last domestic cases). We performed 8 years of longitudinal monitoring (2008–2015) among 15 RD populations and 3065 individuals. We compared Culicoides communities and feeding habits within domestic and wild animal environments (51,380 samples). Culicoides diversity (>30 species) varied between them, but bridge-species able to feed on both wild and domestic hosts were abundant in both situations. Despite the presence of competent vectors in natural environments, BTV1 and BTV8 strains never spread in RD along the green corridors out of the domestic outbreak range. Decreasing antibody trends with no PCR results two years after the last domestic outbreak suggests that seropositive young RD were not recently infected but carried maternal antibodies. We conclude that RD did not play a role in spreading or maintaining BTV in France

Published
2019

14. Novel function of Bleutongue Virus NS3 Protein in Regulation of the MAPK/ERK Signaling Pathway

Author

Kundlacz, Cindy, Pourcelot, Marie, Fablet, Aurore, Amaral Da Silva Moraes, Rayane, Leger, Thibaut, Morlet, Bastien, Viarouge, Cyril, Sailleau, C., Turpaud, Mathilde, Gorlier, Axel, Breard, Emmanuel, Lecollinet, S., van Rijn, P.A., Zientara, Stephan, Vitour, Damien, Caignard, Gregory, Kundlacz, Cindy, Pourcelot, Marie, Fablet, Aurore, Amaral Da Silva Moraes, Rayane, Leger, Thibaut, Morlet, Bastien, Viarouge, Cyril, Sailleau, C., Turpaud, Mathilde, Gorlier, Axel, Breard, Emmanuel, Lecollinet, S., van Rijn, P.A., Zientara, Stephan, Vitour, Damien, and Caignard, Gregory

Abstract

Bluetongue virus (BTV) is an arbovirus transmitted by blood-feeding midges to a wide range of wild and domestic ruminants. In this report, we showed that BTV, through its nonstructural protein NS3 (BTV-NS3), is able to activate the mitogen-activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) pathway, as assessed by phosphorylation levels of ERK1/2 and the translation initiation factor eukaryotic translation initiation factor 4E (eIF4E). By combining immunoprecipitation of BTV-NS3 and mass spectrometry analysis from both BTV-infected and NS3-transfected cells, we identified the serine/threonine-protein kinase B-Raf (BRAF), a crucial player in the MAPK/ERK pathway, as a new cellular interactor of BTV-NS3. BRAF silencing led to a significant decrease in the MAPK/ERK activation by BTV, supporting a model wherein BTV-NS3 interacts with BRAF to activate this signaling cascade. This positive regulation acts independently of the role of BTV-NS3 in counteracting the induction of the alpha/beta interferon response. Furthermore, the intrinsic ability of BTV-NS3 to bind BRAF and activate the MAPK/ERK pathway is conserved throughout multiple serotypes/strains but appears to be specific to BTV compared to other members of Orbivirus genus. Inhibition of MAPK/ERK pathway with U0126 reduced viral titers, suggesting that BTV manipulates this pathway for its own replication. Altogether, our data provide molecular mechanisms that unravel a new essential function of NS3 during BTV infection.

Published
2019

16. Epizootic haemorrhagic disease virus circulation in Tunisia

Author

Mejri, Selma, Ben Dhaou, Sameh, Jemli, Marwa, Breard, Emmanuel, Sailleau, Corinne, Sghaier, Soufien, Dkhil, Abderrazek, Zouari, Mohamed, Lorusso, Alessio, Babay, Besma, Savini, Giovanni, Zientara, Stephan, Hammami, Salah, Institut de Recherche Vétérinaire de Tunisie (IRVT), Université de Tunis, Faculté des Sciences de Bizerte [Université de Carthage], Université de Carthage - University of Carthage, Virologie UMR1161 (VIRO), Institut National de la Recherche Agronomique (INRA)-Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES)-École nationale vétérinaire d'Alfort (ENVA), Offices des Terres Domaniales, Partenaires INRAE, Istituto Zooprofilattico Sperimentale dell'Abruzzo e del Molise Guiseppe Caporale (IZSAM), École Nationale de Médecine Vétérinaire de Sidi Thabet, and Ministère de l’Agriculture, des Ressources Hydrauliques et de la Pêche Maritime [Tunisie]

Subjects
Camelus, Tunisia, [SDV]Life Sciences [q-bio], Animals, Cattle, Hemorrhagic Disease Virus, Epizootic, Antibodies, Viral, Epizootic haemorrhagic disease virus, Epizootic haemorrhagic disease
Abstract

International audience; Epizootic haemorrhagic disease virus (EHDV) was detected for the first time in Tunisia and in other Northern African countries in 2006.The objective of the present study was to investigate whether EHDV circulated in Tunisian livestock beforeand after the officially-reported outbreak of 2006.Thus, serum samples from cattle and dromedaries collected in different time periods (before and after 2006) and from different regions of Tunisia were screened for the presence of EHDV antibodies. Serological investigations conducted on cattle and dromedary sera collected in 2000 and 2001 demonstrated no virus circulation on these dates. However, viral circulation was evidenced in 2012 and 2013, although no EHDV cases were officially reported in these years. Serum-neutralization assessed on few ELISA positive samples, confirmed the presence of antibodies against EHDV serotype 6, which was the serotype involved in the EHDV outbreak in the Maghreb region in 2006.

Published
2018
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17. Évolution de la situation épidémiologique de la fièvre catarrhale ovine en Europe de 2014 à 2017

Author

Mercier, Alizé, Grandcollot-Chabot, Marie, Falala, Sylvain, Hendrikx, Pascal, Zientara, Stéphan, Breard, Emmanuel, Sailleau, Corinne, Zanella, Gina, Bronner, Anne, Calavas, Didier, and Cauchard, Julien

Subjects
L73 - Maladies des animaux
Abstract

Depuis 2014, de nombreux foyers de fièvre catarrhale ovine (FCO) sont déclarés en Europe chaque année, principalement de sérotype 4, mais aussi de sérotype 1 (Italie, Croatie, Espagne, Portugal) et de sérotype 8 (France, Chypre, Suisse). On observe une diminution du nombre de foyers de FCO-1 depuis 2014, ainsi qu'une augmentation du nombre de foyers de FCO-4 et, depuis 2015, de FCO-8. L'année 2017 a été marquée par une importante épizootie de sérotype 4 qui a frappé la Sardaigne et la Corse de fin juin à décembre 2017 et l'introduction de ce sérotype 4 en France continentale. Le sérotype 2 a été identifié en Italie en 2014, le sérotype 3 a été détecté pour la première fois en Europe en Sicile en 2017, et le sérotype 16 a été signalé à Chypre en 2014, puis en Grèce et en Turquie à partir de septembre 2017. La situation épidémiologique de la FCO en Europe est donc complexe et le maintien d'un niveau de vigilance élevé est nécessaire car le changement climatique, l'évolution des aires de distribution des insectes vecteurs et les mouvements d'animaux constituent des facteurs de risque d'introduction de nouveaux sérotypes en Europe.

Published
2018

18. Variations of genes copy number in populations of Bluetongue-virus

Author

Moreau, Yannis, Breard, Emmanuel, Gil, Patricia, Loire, Etienne, and Gutierrez, Serafin

Abstract

Viruses have the largest diversity of genome architectures. Among them, segmented viruses possess a genome divided in several chromosomes or segments, encapsidated together. The most prevalent hypothesis to expia in the evolution of this genome organisation is an increased ability for genetic exchanges. Recently a hypothesis has suggested that this genome organisation could have evolved to favour the regulation of gene copy number and thus gene expression at the population level. ln an infected host, a viral population is composed of different genotypes, including defective genotypes lacking specific segments. Under this new hypothesis, the segment copy number in the population differs among segments, and consequently among the genes they bear. This situation would lead to a differential expression of viral genes at the host level, influencing phenotype. Our study aims to test whether variations in segment copy number exist in populations of Bluetongue virus, whose genome harbour a segment number among the highest described. Bluetongue virus follows a complex life cycle involving compulsory alternation between insect vectors and ruminants. This virus could thus use different segment copy numbers to differentially regulate gene expression in its highly unrelated hasts. To test our hypothesis, we designed a QPCR assay for each of the 10 genomic segments in order to monitor quantitative variations in different hosts. We first isolated a BTV genotype (BTV4 serotype) from sheeps infected in Corsica in 2017. This isolate was used to infect two different cell lines, a mammalian line (VERO) and an insect cell line (KC). Gene copy number variation in segmented genome virus could be a key mechanism underlying their high adaptive capacity and supporting an alternative way of adaptation to host alternation. This study is a prelude to Bluetongue virus gene copy number variation monitoring with time, space and environmental variations.

Published
2018

19. Emergence of bluetongue virus serotype 4 in mainland France in November 2017

Author

Sailleau, Corinne, primary, Breard, Emmanuel, additional, Viarouge, Cyril, additional, Gorlier, Axel, additional, Leroux, Aurélie, additional, Hirchaud, Edouard, additional, Lucas, Pierrick, additional, Blanchard, Yannick, additional, Vitour, Damien, additional, Grandcollot-Chabot, Marie, additional, and Zientara, Stephan, additional

Published
2018
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20. Estimation of French cattle herd immunity against bluetongue serotype 8 at the time of its re-emergence in 2015

Author

Bournez, Laure, Cavalerie, Lisa, Sailleau, Corinne, Breard, Emmanuel, Zanella, Gina, Servan de Almeida, Renata, Pédarrieu, Aurélie, Garin, Emmanuel, Tourette, Isabelle, Dion, Françoise, Hendrikx, Pascal, Calavas, Didier, Bournez, Laure, Cavalerie, Lisa, Sailleau, Corinne, Breard, Emmanuel, Zanella, Gina, Servan de Almeida, Renata, Pédarrieu, Aurélie, Garin, Emmanuel, Tourette, Isabelle, Dion, Françoise, Hendrikx, Pascal, and Calavas, Didier

Abstract

Background: From 2006 to 2010, France experienced two bluetongue epidemics caused by serotype 1 (BTV-1) and 8 (BTV-8) which were controlled by mass vaccination campaigns. After five years without any detected cases, a sick ram was confirmed in August 2015 to be infected by a BTV-8 strain almost identical to that circulating during the previous outbreak. By then, part of the French cattle population was expected to be still protected, since bluetongue antibodies are known to last for many years after natural infection or vaccination. The objective of this study was to estimate the proportion of cattle in France still immune to BTV-8 at the time of its re-emergence in 2015. Results: We used BTV group-specific cELISA results from 8525 cattle born before the vaccination ban in 2013 and 15,799 cattle born after the ban. Samples were collected from January to April 2016 to estimate seroprevalence per birth cohort. The overall seroprevalence in cattle at national and local levels was extrapolated from seroprevalence results per birth cohort and their respective proportion at each level. To indirectly assess pre-immune status of birth cohorts, we computed prevalence per birth cohort on infected farms in autumn 2015 using 1377 RT-PCR results. These revealed limited BTV circulation in 2015. Seroprevalence per birth cohort was likely to be connected to past exposure to natural infection and/or vaccination with higher seroprevalence levels in older animals. A seroprevalence of 95% was observed for animals born before 2008, of which > 90% were exposed to two compulsory vaccination campaigns in 2008-2010. None of the animals born before 2008 were found to be infected, unlike 19% of the young cattle which had never been vaccinated. This suggests that most ELISA-positive animals were pre-immune to BTV-8. We estimated that 18% (from 12% to 32% per département) of the French cattle population was probably pre-immune in 2015. Conclusions: These results strongly suggest a persistence o

Published
2018

21. The nonstructural protein NSs of Schmallenberg virus is targeted to the nucleolus and induces nucleolar disorganization

Author

Gouzil, Julie, Fablet, Aurore, Lara, Estelle, Caignard, Grégory, Cochet, Marielle, Kundlacz, Cindy, Palmarini, Massimo, Varela, Mariana, Breard, Emmanuel, Sailleau, Corinne, Viarouge, Cyril, Coulpier, Muriel, Zientara, Stéphan, and Vitour, Damien

Abstract

Schmallenberg virus (SBV) was discovered in Germany in late 2011 and then spread rapidly to many European countries. SBV is an orthobunyavirus that causes abortion and congenital abnormalities in ruminants. A virus-encoded nonstructural protein, termed NSs, is a major virulence factor of SBV, and it is known to promote the degradation of Rpb1, a subunit of the RNA polymerase II (Pol II) complex, and therefore hampers global cellular transcription. In this study, we found that NSs is mainly localized in the nucleus of infected cells and specifically appears to target the nucleolus through a nucleolar localization signal (NoLS) localized between residues 33 and 51 of the protein. NSs colocalizes with nucleolar markers such as B23 (nucleophosmin) and fibrillarin. We observed that in SBV-infected cells, B23 undergoes a nucleolus-to-nucleoplasm redistribution, evocative of virus-induced nucleolar disruption. In contrast, the nucleolar pattern of B23 was unchanged upon infection with an SBV recombinant mutant with NSs lacking the NoLS motif (SBVΔNoLS). Interestingly, unlike wild-type SBV, the inhibitory activity of SBVΔNoLS toward RNA Pol II transcription is impaired. Overall, our results suggest that a putative link exists between NSs-induced nucleolar disruption and its inhibitory function on cellular transcription, which consequently precludes the cellular antiviral response and/or induces cell death.

Published
2017

22. Bilan de la situation au 31 août 2016 pour la FCO BTV-8 : reprise de la circulation virale

Author

Bournez, Laure, Sailleau, Corinne, Breard, Emmanuel, Servan de Almeida, Renata, Pédarrieu, Aurélie, Libeau, Geneviève, Zientara, Stéphan, Zanella, Gina, Hosteing, Soline, Hendrikx, Pascal, Calavas, Didier, Bronner, Anne-Christine, Tourette, Isabelle, Dion, Françoise, Garin, Emmanuel, Troyano-Groux, Alexandre, Desvaux, Stéphanie, Fediaevsky, Alexandre, and Cavalerie, Lisa

Subjects
L73 - Maladies des animaux
Published
2016

24. Point de situation FCO – 13 mai 2016

Author

Bournez, Laure, Sailleau, Corinne, Garros, Claire, Breard, Emmanuel, Servan de Almeida, Renata, Pédarrieu, Aurélie, Zientara, Stéphan, Zanella, Gina, Hosteing, Soline, Hendrikx, Pascal, Calavas, Didier, Bronner, Anne-Christine, Tourette, Isabelle, Dion, Françoise, Garin, Emmanuel, Troyano-Groux, Alexandre, Desvaux, Stéphanie, Fediaevsky, Alexandre, and Cavalerie, Lisa

Subjects
L73 - Maladies des animaux
Published
2016

25. Bilan de la situation relative à la FCO sérotype 8 en France continentale, au 29 septembre 2016

Author

Bournez, Laure, Sailleau, Corinne, Breard, Emmanuel, Servan de Almeida, Renata, Pédarrieu, Aurélie, Libeau, Geneviève, Zientara, Stéphan, Zanella, Gina, Hosteing, Soline, Hendrikx, Pascal, Calavas, Didier, Bronner, Anne-Christine, Tourette, Isabelle, Dion, Françoise, Garin, Emmanuel, Troyano-Groux, Alexandre, Desvaux, Stéphanie, Fediaevsky, Alexandre, and Cavalerie, Lisa

Subjects
H20 - Maladies des plantes
Published
2016

27. Widespread Reassortment Shapes the Evolution and Epidemiology of Bluetongue Virus following European Invasion

Author

Nomikou, Kyriaki, Hughes, Joseph, Wash, Rachael, Kellam, Paul, Breard, Emmanuel, Zientara, Stéphan, Palmarini, Massimo, Biek, Roman, and Mertens, Peter

Subjects
HOST, QH301-705.5, Molecular Sequence Data, Real-Time Polymerase Chain Reaction, Microbiology, Bluetongue, DISEASE, GENETIC REASSORTMENT, Evolution, Molecular, MOLECULAR EPIDEMIOLOGY, 1108 Medical Microbiology, Virology, Biology (General), Phylogeny, Science & Technology, STRAINS, SEROTYPES, WESTERN UNITED-STATES, RC581-607, Europe, INFLUENZA, 1107 Immunology, GENOME SEGMENT REASSORTMENT, MIXED INFECTION, Parasitology, Immunologic diseases. Allergy, Life Sciences & Biomedicine, Bluetongue virus, Reassortant Viruses, 0605 Microbiology, Research Article
Abstract

Genetic exchange by a process of genome-segment ‘reassortment’ represents an important mechanism for evolutionary change in all viruses with segmented genomes, yet in many cases a detailed understanding of its frequency and biological consequences is lacking. We provide a comprehensive assessment of reassortment in bluetongue virus (BTV), a globally important insect-borne pathogen of livestock, during recent outbreaks in Europe. Full-genome sequences were generated and analysed for over 150 isolates belonging to the different BTV serotypes that have emerged in the region over the last 5 decades. Based on this novel dataset we confirm that reassortment is a frequent process that plays an important and on-going role in evolution of the virus. We found evidence for reassortment in all ten segments without a significant bias towards any particular segment. However, we observed biases in the relative frequency at which particular segments were associated with each other during reassortment. This points to selective constraints possibly caused by functional relationships between individual proteins or genome segments and genome-wide epistatic interactions. Sites under positive selection were more likely to undergo amino acid changes in newly reassorted viruses, providing additional evidence for adaptive dynamics as a consequence of reassortment. We show that the live attenuated vaccines recently used in Europe have repeatedly reassorted with field strains, contributing to their genotypic, and potentially phenotypic, variability. The high degree of plasticity seen in the BTV genome in terms of segment origin suggests that current classification schemes that are based primarily on serotype, which is determined by only a single genome segment, are inadequate. Our work highlights the need for a better understanding of the mechanisms and epidemiological consequences of reassortment in BTV, as well as other segmented RNA viruses., Author Summary Segmented viruses have genomes that are separated into multiple segments, comparable to chromosomes in higher organisms. When two segmented viruses of the same species infect the same cell, their progeny may incorporate segments picked up from the “parental” viruses. This process is called “reassortment” and represents an important way for segmented viruses to evolve. Whereas reassortment has received a lot of attention in certain segmented viruses, especially influenza A, its frequency and biological consequences remain poorly understood for most of the others. Here, we present a comprehensive analysis of the reassortment patterns in bluetongue virus, an important pathogen of livestock, during its repeated emergence in Europe in recent decades. We confirm earlier reports that reassortment is common and can involve segments derived from live vaccines used to control outbreaks. However, the mixing of viral genomes is not strictly random and reassortment is commonly followed by novel adaptive changes in the progeny virus. This points to important functional links (paired associations) between certain segments. Our findings have important implications for the classification and control of segmented viruses and generate new insights and hypotheses about the biological interactions among different parts of the bluetongue virus genome.

Published
2015

29. Replication-Deficient Particles: New Insights into the Next Generation of Bleutongue Virus Vaccines

Author

Celma, Cristina C., Stewart, Meredith, Wernike, Kerstin, Eschbaumer, Michael, Gonzalez-Molleda, Lorenzo, Breard, Emmanuel, Schulz, Claudia, Hoffmann, Bernd, Haegeman, Andy, De Clercq, Kris, Zientara, Stephan, van Rijn, P.A., Beer, Martin, Roy, Polly, Celma, Cristina C., Stewart, Meredith, Wernike, Kerstin, Eschbaumer, Michael, Gonzalez-Molleda, Lorenzo, Breard, Emmanuel, Schulz, Claudia, Hoffmann, Bernd, Haegeman, Andy, De Clercq, Kris, Zientara, Stephan, van Rijn, P.A., Beer, Martin, and Roy, Polly

Abstract

Bluetongue virus (BTV) is endemic in many parts of the world, often causing severe haemorrhagic disease in livestock. To date, at least 27 different serotypes have been recognized. Vaccination against all serotypes is necessary to protect susceptible animals and to prevent onward spread of the virus by insect vectors. In our previous studies, we generated replication-deficient (DISC) virus strains for a number of serotypes and reported preliminary data on their protective efficacy in animals. In this report, to advance the DISC vaccines to the marketplace, we investigated different parameters of these DISC vaccines. First, we demonstrated the genetic stabilities of these vaccine strains and also the complementing cell line. Subsequently, the optimal storage conditions of vaccines, including additives, temperature and desiccation were determined and their protective efficacies in animals confirmed. Further, to test if mixtures of different vaccine strains could be tolerated, we tested cocktails of DISC vaccines in combinations of three or six different serotypes in sheep and cattle, the two natural hosts of BTV. Groups of sheep vaccinated with a cocktail of six different vaccines were completely protected from challenge with individual virulent serotypes, both in early challenge or after five months' challenge without any clinical disease. There was no interference in protection between the different vaccines. Protection was also achieved in cattle with a mixture of three vaccine strains, albeit at a lesser level than sheep. Our data support and validate the suitability of these virus strains as the next generation vaccines for BTV.

Published
2017

30. Nonstructural Protein NSs of Schmallenberg Virus Is Targeted to the Nucleolus and Induces Nucleolar Disorganization

Author

Gouzil, Julie, primary, Fablet, Aurore, additional, Lara, Estelle, additional, Caignard, Grégory, additional, Cochet, Marielle, additional, Kundlacz, Cindy, additional, Palmarini, Massimo, additional, Varela, Mariana, additional, Breard, Emmanuel, additional, Sailleau, Corinne, additional, Viarouge, Cyril, additional, Coulpier, Muriel, additional, Zientara, Stéphan, additional, and Vitour, Damien, additional

Published
2017
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31. Replication-Deficient Particles: New Insights into the Next Generation of Bluetongue Virus Vaccines

Author

Celma, Cristina C., primary, Stewart, Meredith, additional, Wernike, Kerstin, additional, Eschbaumer, Michael, additional, Gonzalez-Molleda, Lorenzo, additional, Breard, Emmanuel, additional, Schulz, Claudia, additional, Hoffmann, Bernd, additional, Haegeman, Andy, additional, De Clercq, Kris, additional, Zientara, Stephan, additional, van Rijn, Piet A., additional, Beer, Martin, additional, and Roy, Polly, additional

Published
2017
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32. Turnover Rate of NS3 Proteins Modulates Bluetongue Virus Replication Kinetics in a Host-Specific Manner

Author

Ftaich, Najate, primary, Ciancia, Claire, additional, Viarouge, Cyril, additional, Barry, Gerald, additional, Ratinier, Maxime, additional, van Rijn, Piet A., additional, Breard, Emmanuel, additional, Vitour, Damien, additional, Zientara, Stephan, additional, Palmarini, Massimo, additional, Terzian, Christophe, additional, and Arnaud, Frédérick, additional

Published
2015
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34. ÉMERGENCE ET RÉ-ÉMERGENCE DE DEUX DANGERS SANITAIRES DE CATÉGORIE 1 EN FRANCE (FCO) ET À MAURICE (FA).

Author

ZIENTARA, Stéphan, SAILLEAU, Corinne, BREARD, Emmanuel, VITOUR, Damien, VIAROUGE, Cyril, BELBIS, Guillaume, GORNA, Kamila, RELMY, Anthony, ROMEY, Aurore, BLAISE-BOISSEAU, Sandra, CARDINALE, Éric, and BAKKALI-KASSIMI, Labib

Abstract

Copyright of Bulletin de l'Académie Vétérinaire de France is the property of Academie Veterinaire de France and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2017
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35. Experimental infection of cattle, sheep, and goats with the newly emerged epizootic hemorrhagic disease virus serotype 8.

Author

Spedicato M, Profeta F, Thabet S, Teodori L, Leone A, Portanti O, Pisciella M, Bonfini B, Pulsoni S, Rosso F, Rossi E, Ripà P, De Rosa A, Ciarrocchi E, Irelli R, Cocco A, Sailleu C, Ferri N, Di Febo T, Vitour D, Breard E, Giansante D, Sghaier S, Ben Hassine T, Zientara S, Salini R, Hammami S, Savini G, and Lorusso A

Subjects
Sheep, Cattle, Animals, Goats, Serogroup, Ruminants, Reoviridae Infections veterinary, Hemorrhagic Disease Virus, Epizootic, Cattle Diseases epidemiology, Goat Diseases, Sheep Diseases
Abstract

Epizootic hemorrhagic disease virus serotype 8 (EHDV-8) emerged in Europe for the first time in late 2022. In this study, we investigated the kinetics of EHDV-8 infection in cattle, sheep, and goats.  Following experimental infection with EHDV-8, four out of five calves displayed fever, while another calf exhibited ulcerative and crusty lesions of the muzzle. RNAemia peaked at day 7 post infection in all calves and remained relatively stable till the end of the study, at 78 days post infection. Infectious virus was isolated up to 21 days post infection in one calf. As far as small ruminants are concerned, one sheep experienced fever and two out of five had consistent RNAemia that lasted until the end of the study. Remarkably, infectious virus was evidenced at day 7 post infection in one sheep. In goats, no RNA was observed. All infected animals seroconverted, and a neutralizing immune response was observed in all species, with calves exhibiting a more robust response than sheep and goats. Our study provides insights into the kinetics of EHDV-8 infection and the host immune responses. We also highlight that sheep may also play a role in EHDV-8 epidemiology. Altogether, the data gathered in this study could have important implications for disease control and prevention strategies, providing crucial information to policy makers to mitigate the impact of this viral disease on livestock.

Published
2023
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