Your search keyword '"Sailleau Corinne"' showing total 402 results

151. Evidence of Schmallenberg virus circulation in ruminants in Greece

Author

Chaintoutis, Serafeim C., primary, Kiossis, Evangelos, additional, Giadinis, Nektarios D., additional, Brozos, Christos N., additional, Sailleau, Corinne, additional, Viarouge, Cyril, additional, Bréard, Emmanuel, additional, Papanastassopoulou, Maria, additional, Zientara, Stéphan, additional, Papadopoulos, Orestis, additional, and Dovas, Chrysostomos I., additional

Published

2013

152. NS3 of Bluetongue Virus Interferes with the Induction of Type I Interferon

Author

Chauveau, Emilie, primary, Doceul, Virginie, additional, Lara, Estelle, additional, Breard, Emmanuel, additional, Sailleau, Corinne, additional, Vidalain, Pierre-Olivier, additional, Meurs, Eliane F., additional, Dabo, Stéphanie, additional, Schwartz-Cornil, Isabelle, additional, Zientara, Stéphan, additional, and Vitour, Damien, additional

Published

2013

153. Validation of a Commercially Available Indirect Elisa Using a Nucleocapside Recombinant Protein for Detection of Schmallenberg Virus Antibodies

Author

Bréard, Emmanuel, primary, Lara, Estelle, additional, Comtet, Loïc, additional, Viarouge, Cyril, additional, Doceul, Virginie, additional, Desprat, Alexandra, additional, Vitour, Damien, additional, Pozzi, Nathalie, additional, Cay, Ann Brigitte, additional, De Regge, Nick, additional, Pourquier, Philippe, additional, Schirrmeier, Horst, additional, Hoffmann, Bernd, additional, Beer, Martin, additional, Sailleau, Corinne, additional, and Zientara, Stéphan, additional

Published

2013

154. Epidemiology, molecular virology and diagnostics of Schmallenberg virus, an emerging orthobunyavirus in Europe

Author

Doceul, Virginie, primary, Lara, Estelle, additional, Sailleau, Corinne, additional, Belbis, Guillaume, additional, Richardson, Jennifer, additional, Bréard, Emmanuel, additional, Viarouge, Cyril, additional, Dominguez, Morgane, additional, Hendrikx, Pascal, additional, Calavas, Didier, additional, Desprat, Alexandra, additional, Languille, Jérôme, additional, Comtet, Loïc, additional, Pourquier, Philippe, additional, Eléouët, Jean-François, additional, Delmas, Bernard, additional, Marianneau, Philippe, additional, Vitour, Damien, additional, and Zientara, Stéphan, additional

Published

2013

155. Sensing and Control of Bluetongue Virus Infection in Epithelial Cells via RIG-I and MDA5 Helicases

Author

Chauveau, Emilie, primary, Doceul, Virginie, additional, Lara, Estelle, additional, Adam, Micheline, additional, Breard, Emmanuel, additional, Sailleau, Corinne, additional, Viarouge, Cyril, additional, Desprat, Alexandra, additional, Meyer, Gilles, additional, Schwartz-Cornil, Isabelle, additional, Ruscanu, Suzana, additional, Charley, Bernard, additional, Zientara, Stéphan, additional, and Vitour, Damien, additional

Published

2012

156. The Double-Stranded RNA Bluetongue Virus Induces Type I Interferon in Plasmacytoid Dendritic Cells via a MYD88-Dependent TLR7/8-Independent Signaling Pathway

Author

Ruscanu, Suzana, primary, Pascale, Florentina, additional, Bourge, Mickael, additional, Hemati, Behzad, additional, Elhmouzi-Younes, Jamila, additional, Urien, Céline, additional, Bonneau, Michel, additional, Takamatsu, Haru, additional, Hope, Jayne, additional, Mertens, Peter, additional, Meyer, Gilles, additional, Stewart, Meredith, additional, Roy, Polly, additional, Meurs, Eliane F., additional, Dabo, Stéphanie, additional, Zientara, Stéphan, additional, Breard, Emmanuel, additional, Sailleau, Corinne, additional, Chauveau, Emilie, additional, Vitour, Damien, additional, Charley, Bernard, additional, and Schwartz-Cornil, Isabelle, additional

Published

2012

157. Co-circulation of bluetongue and epizootic haemorrhagic disease viruses in cattle in Reunion Island

Author

Sailleau, Corinne, primary, Zanella, Gina, additional, Breard, Emmanuel, additional, Viarouge, Cyril, additional, Desprat, Alexandra, additional, Vitour, Damien, additional, Adam, Micheline, additional, Lasne, Laurent, additional, Martrenchar, Arnaud, additional, Bakkali-Kassimi, Labib, additional, Costes, Laura, additional, and Zientara, Stéphan, additional

Published

2012

158. Generation of Replication-Defective Virus-Based Vaccines That Confer Full Protection in Sheep against Virulent Bluetongue Virus Challenge

Author

Matsuo, Eiko, primary, Celma, Cristina C. P., additional, Boyce, Mark, additional, Viarouge, Cyril, additional, Sailleau, Corinne, additional, Dubois, Eric, additional, Bréard, Emmanuel, additional, Thiéry, Richard, additional, Zientara, Stéphan, additional, and Roy, Polly, additional

Published

2011

159. CS17-7. NS3 of bluetongue virus interferes with the innate antiviral response

Author

Vitour, Damien, primary, Lara, Estelle, additional, Chauveau, Emilie, additional, Adam, Micheline, additional, Sailleau, Corinne, additional, Breard, Emmanuel, additional, and Zientara, Stéphan, additional

Published

2011

160. PS1-105 Bluetongue virus dsRNA activate the innate antiviral response through the RLRs pathway

Author

Adam Micheline, Breard Emmanuel, Sailleau Corinne, Vitour Damien, Zientara Stephan, and Chauveau Emilie

Subjects

0303 health sciences, Immunology, Hematology, Biology, Biochemistry, Virology, Virus, 03 medical and health sciences, RNA silencing, 0302 clinical medicine, Immunology and Allergy, Molecular Biology, 030304 developmental biology, 030215 immunology

Published

2011

161. Bluetongue Virus Targets Conventional Dendritic Cells in Skin Lymph

Author

Hemati, Behzad, primary, Contreras, Vanessa, additional, Urien, Céline, additional, Bonneau, Michel, additional, Takamatsu, Haru-Hisa, additional, Mertens, Peter P. C., additional, Bréard, Emmanuel, additional, Sailleau, Corinne, additional, Zientara, Stéphan, additional, and Schwartz-Cornil, Isabelle, additional

Published

2009

162. Identification et caractérisation des isolats d'orbivirus des îles de la Réunion et de la Martinique

Author

Vitour, D., primary, Sailleau, Corinne, additional, Breard, Emmanuel, additional, and Zientara, Stéphan, additional

Published

2009

163. Phylogenetic comparison of the S10 genes of recent isolates of bluetongue virus from the United States and French Martinique Island

Author

MacLachlan, N. James, Zientara, Stéphan, Stallknecht, David E., Boone, Joshua D., Goekjian, Virginia H., Sailleau, Corinne, and Balasuriya, Udeni B.

Published

2007

164. Complete nucleotide sequence of Middelburg virus, isolated from the spleen of a horse with severe clinical disease in Zimbabwe

Author

Attoui, Houssam, primary, Sailleau, Corinne, additional, Mohd Jaafar, Fauziah, additional, Belhouchet, Mourad, additional, Biagini, Philippe, additional, Cantaloube, Jean François, additional, de Micco, Philippe, additional, Mertens, Peter, additional, and Zientara, Stephan, additional

Published

2007

165. La fièvre catarrhale ovine (ou «bluetongue») dans le nord de l'Europe

Author

Bréard, Emmanuel, primary, Sailleau, Corinne, additional, Gorna, Kamila, additional, Bounaadja, Lotfi, additional, Bahuon, Céline, additional, and Zientara, Stéphan, additional

Published

2007

166. Comparison of genome segments 2, 7 and 10 of bluetongue viruses serotype 2 for differentiation between field isolates and the vaccine strain

Author

Br�ard, Emmanuel, primary, Sailleau, Corinne, additional, Coupier, Herv�, additional, Mure-Ravaud, Karine, additional, Hammoumi, Saliha, additional, Gicquel, Bernard, additional, Hamblin, Chris, additional, Dubourget, Philippe, additional, and Zientara, St�phan, additional

Published

2003

167. Incursion de la fièvre catarrhale ovine en Tunisie : caractérisation moléculaire des isolats viraux

Author

Ben Fredj, S., primary, Breard, Emmanuel, additional, Sailleau, Corinne, additional, Zientara, Stéphan, additional, Zekri, S., additional, Boudabbous, A., additional, and Hammami, Salah, additional

Published

2003

168. Construction of an internal standard used in RT nested PCR for Borna Disease Virus RNA detection in biological samples

Author

Legay, Vincent, primary, Sailleau, Corinne, additional, Dauphin, Gwenaëlle, additional, and Zientara, Stéphan, additional

Published

2000

169. LA FIEVRE DU NIL OCCIDENTAL ET LA FIEVRE CATARRHALE OVINE, DEUX VIROSES EN PROGRESSION INATTENDUE.

Author

ZIENTARA, Stéphan, BREARD, Sylvie LECOLLINET Emmanuel, SAILLEAU, Corinne, and BOIREAU, Pascal

Abstract

The article discusses the recent unexpected propagation of the West Nile fever and the bluetongue disease, with particular focus given to the challenges they pose to European countries and to their respective health systems. The author presents a time line of events, and discusses international cooperation on the matter, calling for a reinforcement of relevant mechanisms in a bid to monitor and circumscribe the potential economic fallout. Relevant statistical data is also presented, and topics discussed include the prevention and treatment of epizootics.

Published

2008

170. Comparison of genome segments 2, 7 and 10 of bluetongue viruses serotype 2 for differentiation between field isolates and the vaccine strain

Author

Bréard, Emmanuel, Sailleau, Corinne, Coupier, Hervé, Mure-Ravaud, Karine, Hammoumi, Saliha, Gicquel, Bernard, Hamblin, Chris, Dubourget, Philippe, and Zientara, Stéphan

Abstract

Bluetongue (BT) virus serotype 2 (BTV 2) was first confirmed in Tunisia in February 2000 and has since spread northward and westward, infecting several other countries and islands, including Corsica, where clinical disease was reported in October 2000. BT was again reported on the Island in July 2001, some six months after a vaccination campaign against BTV 2. The molecular relationship between isolates of the BTV 2 Corsican wild-type viruses from 2000 and 2001, and the attenuated BTV 2 vaccine were determined by comparing corresponding sequences of genome segments 2, 7 and 10 with each other and with already published sequences available in the genome database. Complete genetic stability was observed between the isolates of the Corsican BTV 2. There was some divergence between the nucleotide sequences of segment 10 obtained from the wild-type and vaccine virus strains. Based on these differences, primers were selected that could be used in RT-PCR to differentiate between the wild-type and the vaccine viruses.

Published

2003

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

Author

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

Subjects

3. Good health

Abstract

The mechanisms underlying virus emergence are rarely well understood, making the appearance of outbreaks largely unpredictable. Bluetongue virus serotype 8 (BTV-8), an arthropodborne virus of ruminants, emerged in livestock in northern Europe in 2006, preading 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.

172. Detection, Characterization and Sequencing of BTV Serotypes Circulating in Cuba in 2022.

Author

Acevedo, Ana María, Postic, Lydie, Curiel, Maray, Gondard, Mathilde, Bréard, Emmanuel, Zientara, Stéphan, Vorimore, Fabien, Tran, Mai-Lan, Turpaud, Mathilde, Savini, Giovanni, Lorusso, Alessio, Marcacci, Maurilia, Vitour, Damien, Dujardin, Pascal, Perera, Carmen Laura, Díaz, Cristian, Obret, Yalainne, and Sailleau, Corinne

Subjects

*WHOLE genome sequencing, *BLUETONGUE virus, *SEROTYPES, *VIRUS isolation, *NUCLEOTIDE sequencing

Abstract

In Cuba, despite a high sero-prevalence of bluetongue virus (BTV), circulating serotypes remain unknown. The aim of this study was to identify circulating BTV serotypes in farms throughout the western region of Cuba. Blood samples were collected from 200 young cattle and sheep between May and July 2022 for virological analyses (PCR, viral isolation and virus neutralization) and genome sequencing. The results confirmed viral circulation, with viro-prevalence of 25% for BTV. The virus was isolated from 18 blood samples and twelve BTV serotypes were identified by sequencing RT-PCR products targeting the segment 2 of the BTV genome (BTV-1, 2, 3, 6, 10, 12, 13, 17, 18, 19, 22 and 24). Finally, the full genome sequences of 17 Cuban BTV isolates were recovered using a Sequence Independent Single Primer Amplification (SISPA) approach combined to MinION Oxford Nanopore sequencing technology. All together, these results highlight the co-circulation of a wide diversity of BTV serotypes in a quite restricted area and emphasize the need for entomological and livestock surveillance, particularly in light of recent changes in the global distribution and nature of BTV infections. [ABSTRACT FROM AUTHOR]

Published

2024

173. Circulation of Bluetongue Virus Serotypes 1, 4, 8, 10 and 16 and Epizootic Hemorrhagic Disease Virus in the Sultanate of Oman in 2020–2021.

Author

Bréard, Emmanuel, Postic, Lydie, Gondard, Mathilde, Bernelin-Cottet, Cindy, Le Roux, Aurélie, Turpaud, Mathilde, Lucas, Pierrick, Blanchard, Yannick, Vitour, Damien, Bakkali-Kassimi, Labib, Zientara, Stéphan, Al Rawahi, Wafaa, and Sailleau, Corinne

Subjects

*HEMORRHAGIC diseases, *VIRUS diseases, *WHOLE genome sequencing, *BLUETONGUE virus, *SEROTYPES, *COW testing

Abstract

The circulation of Bluetongue (BT) and Epizootic Hemorrhagic Disease (EHD) in the Middle East has already been reported following serological analyses carried out since the 1980s, mostly on wild ruminants. Thus, an EHD virus (EHDV) strain was isolated in Bahrain in 1983 (serotype 6), and more recently, BT virus (BTV) serotypes 1, 4, 8 and 16 have been isolated in Oman. To our knowledge, no genomic sequence of these different BTV strains have been published. These same BTV or EHDV serotypes have circulated and, for some of them, are still circulating in the Mediterranean basin and/or in Europe. In this study, we used samples from domestic ruminant herds collected in Oman in 2020 and 2021 for suspected foot-and-mouth disease (FMD) to investigate the presence of BTV and EHDV in these herds. Sera and whole blood from goats, sheep and cattle were tested for the presence of viral genomes (by PCR) and antibodies (by ELISA). We were able to confirm the presence of 5 BTV serotypes (1, 4, 8, 10 and 16) and the circulation of EHDV in this territory in 2020 and 2021. The isolation of a BTV-8 strain allowed us to sequence its entire genome and to compare it with another BTV-8 strain isolated in Mayotte and with homologous BTV sequences available on GenBank. [ABSTRACT FROM AUTHOR]

Published

2023

174. Epizootic haemorrhagic disease virus in Reunion Island: Evidence for the circulation of a new serotype and associated risk factors.

Author

CÃatre-Sossah, Catherine, Roger, Matthieu, Sailleau, Corinne, Rieau, LorÃne, Zientara, Stephan, Bréard, Emmanuel, Viarouge, Cyril, Beral, Marina, Esnault, Olivier, and Cardinale, Eric

Subjects

*COMMUNICABLE diseases in animals, *SEROTYPING, *DISEASE risk factors, *BLUETONGUE virus, *RUMINANTS, *ANIMAL diseases, *ECTOPARASITES

Abstract

Abstract: Bluetongue virus (BTV) and epizootic haemorrhagic disease virus (EHDV) are members of the Orbivirus genus of the Reoviridae family transmitted between ruminants by the bites of Culicoides midges. BTV went undetected in Reunion Island between its first documented emergence in 1979 and two other serious outbreaks with both BTV-3 and EHDV-6 in 2003, and both EHDV-6 and BTV-2 in 2009. In these outbreaks, infected animals developed symptoms including hyperthermia, anorexia, congestion, prostration and nasal discharge. Samples were collected in 2011 to assess the prevalence of BT and EHD in ruminants native to Reunion Island by serological analysis. A cross-sectional study was undertaken on 67 farms, including a total of 276 cattle, 142 sheep and 71 goats. The prevalence rates of BT and EHD were 58% (95% CI [54.03–62.94]) and 38% (95% CI [33.85–42.63], respectively. Two further suspected outbreaks were confirmed to involve EHDV and BTV/EHDV. A new circulating EHDV serotype 1 of unknown origin was isolated. Our results confirm that the prevalence of both BT and EHD is high and that both are likely currently circulating. A high risk of BTV and EHDV infections was associated with the introduction of ruminants from neighbouring farms without quarantine, the presence of organic and other waste on the farm, and treatment against ectoparasites and insects. [Copyright &y& Elsevier]

Published

2014

175. 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

Subjects

*ANIMAL diseases, *HEMORRHAGIC diseases, *BLUETONGUE virus, *VIRUS diseases, *SHEEP ranches, *DOUBLE-stranded RNA

Abstract

• First introduction of EHDV-8 in France followed by EHD outbreaks in cattle. • Emergence of a new BTV-8 strain in France responsible of severe BT outbreaks. • Successful viral genome sequencing from blood samples using Nanopore technology. • Risk of co-circulation of various BTV genotypes and viral reassortment. Bluetongue (BT) and Epizootic Hemorrhagic Disease (EHD) are two notifiable animal diseases transmitted to ruminants by small hematophagous midges belonging to the Culicoides genus. The etiological agents, Bluetongue virus (BTV) and Epizootic hemorrhagic disease virus (EHDV), are both members of the Sedoreoviridae family and Orbivirus genus, which include double-stranded (ds) RNA segmented genomes (10 segments). By the end of the summer 2023, first's outbreaks of EHD were reported from the south west of France, concurrently with unexpectedly severe BT cases in Central France and Corsica. Within a few weeks, numerous BT and EHD outbreaks were recorded with significant sanitary and economic impact on cattle and sheep farms (no sanitary impact of EHD for sheep). Using a customized SISPA approach and the nanopore sequencing technology we successfully recovered genomic sequences from viral isolates and blood samples from infected animals from EHD and BT outbreaks. Three different viruses were responsible for these outbreaks: EHDV-8, BTV-8 and BTV-4. The EHDV-8 strain detected in France corresponded to the strain circulating in Tunisia, Sardinia and Spain since 2021 and 2022. A new BTV-8 strain of unknown origin, clearly different from the enzootic strain circulating in France since 2015, was responsible of the BT outbreaks in domestic ruminants in 2023 on both mainland France and Corsica. A second BTV, BTV-4, also involved in BT outbreaks in Corsica, corresponded to a BTV-4 strain occasionally detected on Corsica island since 2016, suggesting either a new introduction of this strain or a silent circulation on the field. The exceptional nature of orbivirus epizootics in France in 2023, including new introduction, emergence or incursions, raises numerous questions regarding BTV and EHDV dynamics and epidemiology and stresses out the need to identify factors involved in these emergences. [ABSTRACT FROM AUTHOR]

Published

2024

176. La peste équine : une maladie ancienne pour une menace actuelle.

Author

Vitour, Damien, Zientara, Stéphan, Fablet, Aurore, Bréard, Emmanuel, and Sailleau, Corinne

Subjects

*CERATOPOGONIDAE, *CULICOIDES, *HORSE industry, *GLOBAL warming, *ECONOMIC impact, *BLUETONGUE

Abstract

Résumé: La peste équine est une arbovirose majeure qui entraîne des pertes importantes chez les chevaux en Afrique subsaharienne. Elle est provoquée par le virus de la peste équine (African horse sickness virus , AHSV) dont la transmission s'effectue au cours d'un repas sanguin par des petits moucherons hématophages appartenant au genre Culicoides. En outre, les espèces vectrices historiques de culicoïdes présentes en Afrique voient leur aire de répartition s'étendre en lien avec le réchauffement climatique à l'échelle mondiale. Par ailleurs, des épisodes épizootiques récents (Thaïlande, 2020) ou un peu plus anciens (péninsule ibérique, 1965-66/1987-90) en dehors du continent africain soulignent la capacité d'adaptation du virus à des espèces vectrices autochtones, à l'instar de ce qui a été observé pour la fièvre catarrhale ovine ces dernières décennies. Ces facteurs laissent craindre à tout moment une introduction de la peste équine dans des régions indemnes. L'urgence est donc donnée actuellement par l'Union européenne pour se doter de meilleurs outils diagnostiques et prophylactiques afin de prévenir des conséquences économiques brutales pour l'industrie équine. African horse sickness (AHS) is a major arthropod-borne disease that causes significant losses in horses in sub-Saharan Africa. It is caused by the African horse sickness virus (AHSV), which is transmitted during a blood meal by Culicoides biting midges. The distribution of historical African culicoid vectors increases due to global warming. In addition, recent (Thailand, 2020) and earlier (Iberian Peninsula, 1965-66/1987-90) AHS outbreaks outside Africa demonstrate the adaptation of the virus to endogenous species in AHS-free regions, similar to what has been observed for bluetongue disease in recent decades. Therefore, many regions are considered at risk of introduction of AHS which could have important economic consequences for the equine industry. Overall, this prone the European Union to launch research programs to get better diagnostic and prophylactic tools. [ABSTRACT FROM AUTHOR]

Published

2022

177. Schmallenberg Virus Infection among Red Deer, France, 2010-2012.

Author

Laloy, Eve, Bréard, Emmanuel, Sailleau, Corinne, Viarouge, Cyril, Desprat, Alexandra, Zientara, Stéphan, Klein, François, Hars, Jean, and Rossi, Sophie

Subjects

*ANIMAL diseases, *RUMINANTS, *VIRUS diseases, *VETERINARY serology, *SEROPREVALENCE, *DISEASE prevalence, *EPIDEMIOLOGICAL research

Abstract

Schmallenberg virus infection is emerging in European domestic and wild ruminants. We investigated the serologic status of 9 red deer populations to describe virus spread from September 2010 through March 2012 among wildlife in France. Deer in 7 populations exhibited seropositivity, with an average seroprevalence of 20%. [ABSTRACT FROM AUTHOR]

Published

2014

178. Bluetongue virus serotype 8 virus-like particles protect sheep against virulent virus infection as a single or multi-serotype cocktail immunogen

Author

Stewart, Meredith, Dubois, Eric, Sailleau, Corinne, Bréard, Emmanuel, Viarouge, Cyril, Desprat, Alexandra, Thiéry, Richard, Zientara, Stéphan, and Roy, Polly

Subjects

*BLUETONGUE virus, *SEROTYPES, *VIRUS-like particles, *VIRUS diseases in sheep, *IMMUNOGENETICS, *EPIDEMICS, *LIVESTOCK vaccination, *PREVENTION

Abstract

Abstract: Since 1998, there have been multiple separate outbreaks of Bluetongue disease (BT) in Europe with the largest outbreak ever recorded in Northern Europe caused by Bluetongue virus serotype 8 (BTV-8). Coinciding with the BTV-8 outbreak, a virulent strain of BTV-1 emerged and co-infections of these two serotypes were reported. In response, we generated VLPs for BTV-8 and tested the efficacy of BTV-8 VLPs as a single immunogen and as a component of a multivalent vaccine, with VLPs of BTV-1 and BTV-2, in order to test if there was any interference between serotypes. All pre-Alps sheep vaccinated with BTV-8 VLPs developed a strong neutralising antibody response to BTV-8 and multivalent VLP vaccinated animals also developed neutralising antibodies to BTV-1 and BTV-2. There were no side effects observed due to the vaccination with either the single- or multivalent VLP cocktail. All VLP-vaccinated animals had no clinical manifestation of BT or viraemia after challenge with a virulent BTV-8 isolate. This data indicates that BTV-8 VLPs delivered as a single immunogen or as a component of a multivalent vaccine are highly efficacious. Moreover, there was no interference on the development of a strong protective immune response due to the combination of different phylogenetically unrelated BTV serotypes in the vaccinated animals. This report further highlights that BTV VLPs are safe and efficacious immunogens that are able to afford complete protection against a virulent virus challenge. [Copyright &y& Elsevier]

Published

2013

179. Novel gel-based and real-time PCR assays for the improved detection of African horse sickness virus

Author

Rodriguez-Sanchez, Belen, Fernandez-Pinero, Jovita, Sailleau, Corinne, Zientara, Stephan, Belak, Sandor, Arias, Marisa, and Sanchez-Vizcaino, Jose Manuel

Subjects

*VIRUSES, *ANIMAL diseases, *VETERINARY medicine education, *ANIMAL health

Abstract

Abstract: In order to improve, ensure and accelerate the diagnosis of African horse sickness, a highly devastating, transboundary animal disease listed by the World Animal Health Organisation, (OIE) three novel diagnostic PCR assays were developed and tested in this study. The reverse transcription-PCR (RT-PCR) tests were the following: (a) a conventional, gel-based RT-PCR, (b) a real-time PCR with SYBR-Green-named rRT-PCR SYBR-Green-, and (c) a real-time PCR rRT-PCR with TaqMan® probe (termed rRT-PCR TaqMan®). The same pair of primers—directed against African Horse Sickness Virus (AHSV) segment 5, encoding the non-structural protein NS1, is used in the three tests listed above. The three PCR assays detected similarly the nine AHSV serotypes from cultivated viral suspensions of different origins. The RT-PCR assays provided high sensitivity ranging from 0.1 to 1.2TCID50/ml. The specificity was also high, considering that related viruses, such as Bluetongue virus, and other equine viruses, such as West Nile Virus, remained negative for RT-PCR amplification. The detection of AHSV virus can be completed within 2–3h. These results indicate that the novel PCR methods described in this paper provide robust and versatile tools that allow rapid and highly specific, simultaneous detection of all AHSV serotypes. [Copyright &y& Elsevier]

Published

2008

180. The Genome Segments of Bluetongue Virus Differ in Copy Number in a Host-Specific Manner.

Author

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

Subjects

*BLUETONGUE virus, *CERATOPOGONIDAE, *GENOMES, *CULICOIDES, *DNA copy number variations

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. [ABSTRACT FROM AUTHOR]

Published

2021

181. Evaluation of a commercial ELISA for detection of epizootic haemorrhagic disease antibodies in domestic and wild ruminant sera.

Author

Bréard, Emmanuel, Viarouge, Cyril, Donnet, Fabien, Sailleau, Corinne, Rossi, Sophie, Pourquier, Philippe, Vitour, Damien, Comtet, Loic, and Zientara, Stéphan

Subjects

*HEMORRHAGIC diseases, *RUMINANTS, *SERODIAGNOSIS, *VECTOR-borne diseases, *DOMESTIC animals

Abstract

Bluetongue (BT) and epizootic haemorrhagic disease (EHD) are vector‐borne viral diseases affecting domestic and wild ruminants. Both are notifiable under OIE rules. BT and EHD viruses (BTV and EHDV) are closely related Orbiviruses with structural, antigenic and molecular similarities. Both viruses can produce analogous clinical signs in susceptible animals. Serological tests are commonly used for BT and EHD diagnosis and surveillance. Competitive ELISA (c‐ELISA) is the most widely used serological test for the specific detection of BTV or EHDV viral protein 7 (VP7) antibodies (Abs). The specificity and sensitivity of the BTV c‐ELISA kits available on the market are recognized for the detection of BTV Abs. Concerning EHD, a single commercial EHDV c‐ELISA kit (ELISA A kit) commonly used for diagnosis in Europe and Africa was available between 2011 and 2018 but is now no longer on the market. In this study, we evaluated a new commercial c‐ELISA to detect ruminant EHDV VP7 Abs in 2,199 serum samples from cattle, sheep, goats, wild deer and zoo animals. The results showed that this ELISA kit is specific and can detect the presence of IgG anti‐EHDV VP7 with a very good diagnostic specificity and a satisfactory sensitivity in domestic ruminants, zoo animals and wild deer. Therefore, the evaluated c‐ELISA can detect the introduction of EHDV into an area where BTV‐seropositive domestic animals are present. The performance of this kit is similar to that of the c‐ELISA A kit and can thus be used for diagnosis. [ABSTRACT FROM AUTHOR]

Published

2020

182. Clinical cases of Bluetongue serotype 8 in calves in France in the 2018–2019 winter.

Author

Vinomack, Chloé, Rivière, Julie, Bréard, Emmanuel, Viarouge, Cyril, Postic, Lydie, Zientara, Stéphan, Vitour, Damien, Belbis, Guillaume, Spony, Vincent, Pagneux, Caroline, Sailleau, Corinne, and Zanella, Gina

Subjects

*CALVES, *BLUETONGUE, *SCHMALLENBERG virus, *SYMPTOMS, *HUMAN abnormalities, *AUTOPSY, *FOOD microbiology

Abstract

Bluetongue virus serotype 8 (BTV‐8) caused an epizootic in Europe in 2006/09. Transplacental transmission of BTV‐8 was demonstrated leading to abortions, congenital malformations or nervous clinical signs in newborn calves. BTV‐8 re‐emerged in France in 2015. Although the re‐emergent strain is nearly genetically identical to the one that had circulated in 2006/2009, it has caused very few clinical cases. However, from mid‐December 2018 to April 2019, cases of calves with congenital malformations or displaying nervous clinical signs occurred in some departments (French administrative unit) in mainland France. Blood samples from these animals were sent to local laboratories, and the positive ones were confirmed at the French Bluetongue reference laboratory (BT‐NRL). Out of 580 samples found positive at the local laboratories, 544 were confirmed as RT‐PCR BTV‐8 positive. The 36 samples found positive in the local laboratories and negative in the BT‐NRL were all at the limit of RT‐PCR detection. Hundred eighty‐eight of the confirmed samples were also tested for the presence of Schmallenberg virus (SBV) and bovine virus diarrhoea virus (BVDV) infection: 4 were found positive for BVDV and none for SBV. The main clinical signs recorded for 244 calves, for which a reporting form was completed by veterinarians, included nervous clinical signs (81%), amaurosis (72%) and decrease/ no suckling reflex (40%). Hydranencephaly and microphthalmia were reported in 19 calves out of 27 in which a necropsy was practiced after death or euthanasia. These results indicate that the re‐emergent strain of BTV‐8 can cross the transplacental barrier and cause congenital malformations or nervous clinical signs in calves. [ABSTRACT FROM AUTHOR]

Published

2020

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

Author

Pascall, David J., Nomikou, Kyriaki, Bréard, Emmanuel, Zientara, Stephan, Filipe, Ana da Silva, Hoffmann, Bernd, Jacquot, Maude, Singer, Joshua B., De Clercq, Kris, Bøtner, 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

Subjects

*BLUETONGUE virus, *ARBOVIRUSES, *RNA viruses, *ARBOVIRUS diseases, *VETERINARY virology, *MOLECULAR clock, *COMMUNICABLE diseases, *BIOLOGICAL evolution

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. Disease epidemics can be man-made: Molecular clocks and genomic data for an economically important livestock virus reveal that a current European outbreak may have been caused by accidental release, rather than natural transmission. [ABSTRACT FROM AUTHOR]

Published

2020

184. Bluetongue Virus in France: An Illustration of the European and Mediterranean Context since the 2000s.

Author

Kundlacz, Cindy, Caignard, Grégory, Sailleau, Corinne, Viarouge, Cyril, Postic, Lydie, Vitour, Damien, Zientara, Stéphan, and Breard, Emmanuel

Subjects

*BLUETONGUE virus, *ANIMAL diseases, *SYMPTOMS, *CULICOIDES, *DIPTERA, *INTERNATIONAL organization

Abstract

Bluetongue (BT) is a non-contagious animal disease transmitted by midges of the Culicoides genus. The etiological agent is the BT virus (BTV) that induces a variety of clinical signs in wild or domestic ruminants. BT is included in the notifiable diseases list of the World Organization for Animal Health (OIE) due to its health impact on domestic ruminants. A total of 27 BTV serotypes have been described and additional serotypes have recently been identified. Since the 2000s, the distribution of BTV has changed in Europe and in the Mediterranean Basin, with continuous BTV incursions involving various BTV serotypes and strains. These BTV strains, depending on their origin, have emerged and spread through various routes in the Mediterranean Basin and/or in Europe. Consequently, control measures have been put in place in France to eradicate the virus or circumscribe its spread. These measures mainly consist of assessing virus movements and the vaccination of domestic ruminants. Many vaccination campaigns were first carried out in Europe using attenuated vaccines and, in a second period, using exclusively inactivated vaccines. This review focuses on the history of the various BTV strain incursions in France since the 2000s, describing strain characteristics, their origins, and the different routes of spread in Europe and/or in the Mediterranean Basin. The control measures implemented to address this disease are also discussed. Finally, we explain the circumstances leading to the change in the BTV status of France from BTV-free in 2000 to an enzootic status since 2018. [ABSTRACT FROM AUTHOR]

Published

2019

185. Presence of bluetongue and epizootic hemorrhagic disease viruses in Egypt in 2016 and 2017.

Author

Ahmed, Sahar, Mahmoud, Mohamed Abd El-Fatah, Viarouge, Cyril, Sailleau, Corinne, Zientara, Stephan, and Breard, Emmanuel

Subjects

*CULICOIDES, *HEMORRHAGIC diseases, *VIRUS diseases, *BLUETONGUE virus, *CERATOPOGONIDAE, *CATTLE, *BLOOD sampling

Abstract

BTV and EHDV are closely-related orbiviruses that are transmitted between domestic and wild ruminants via the bites of hematophagous midges. Previous studies have reported seropositivity against BTV antibodies in sheep and goats in two Egyptian governorates (Beni Suef and Menoufia). However, no recent data are available on the BTV serotype(s) circulating in Egypt and the likely presence of EHDV has never been explored. This study investigated the presence of BTV and EHDV among cattle which had been found BTV-seropositive by ELISA method. These cattle living in proximity to sheep and goats previously found BTV-seropositive. These cattle displayed no clinical signs of BT but reproductive problems had been reported in herds. A total of 227 cattle blood samples were therefore collected in 2016 and 2017. Ninety-four of the 227 animals tested by a BTV ELISA were positive for BTV antibodies (41.4%). Of these 94 ELISA-positive cattle, only 83 EDTA-blood samples were available and therefore tested for BTV and EHDV genome detection by RT-PCR and sequencing. Of the cattle sampled in 2016, results revealed that two were RT-PCR-positive for BTV and seven for EHDV. Sequencing showed the presence of EHDV-1 and BTV-3 genome sequences. EHDV-1 S2 shared 99.5% homology with an EHDV-1 S2 from a strain isolated in 2016 in Israel. BTV-3 S2 and S8 sequences shared >99.8% nucleotide similarity with the BTV-3 Zarzis S2 and S8 sequences (Tunisian BTV, also detected in 2016). Of the 66 blood samples tested following their collection in 2017, they were all EHDV-negative by RT-qPCR while five were BTV- positive by RT-qPCR. However, attempts to identify the BTV serotype of these five samples were unsuccessful. Only part of BTV S8 was sequenced and it showed 79% nucleotide similarity with S8 of atypical BTV serotypes (particularly with BTV-26 and another BTV serotype strain isolated from a sheep pox vaccine). Overall, these findings demonstrate that both BTV and EHDV were circulating in Egypt in 2016 and 2017. • BTV-3 (Zarzis strain) was present in Egypt in 2016. • EHDV-1 was detected in cattle blood sampled in 2016. • Another BTV strain (undetermined serotype) was detected in Egyptian cattle in 2017. [ABSTRACT FROM AUTHOR]

Published

2019

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

Author

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

Subjects

*VIRAL proteins, *BLUETONGUE virus, *EXTRACELLULAR signal-regulated kinases, *BRAF genes, *MITOGEN-activated protein kinases, *VIRAL nonstructural proteins, *MASS analysis (Spectrometry)

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. IMPORTANCE Bluetongue virus (BTV) is responsible of the arthropod-borne disease bluetongue (BT) transmitted to ruminants by blood-feeding midges. In this report, we found that BTV, through its nonstructural protein NS3 (BTV-NS3), interacts with BRAF, a key component of the MAPK/ERK pathway. In response to growth factors, this pathway promotes cell survival and increases protein translation. We showed that BTV-NS3 enhances the MAPK/ERK pathway, and this activation is BRAF dependent. Treatment of MAPK/ERK pathway with the pharmacologic inhibitor U0126 impairs viral replication, suggesting that BTV manipulates this pathway for its own benefit. Our results illustrate, at the molecular level, how a single virulence factor has evolved to target a cellular function to increase its viral replication. [ABSTRACT FROM AUTHOR]

Published

2019

187. Evidence of reduced viremia, pathogenicity and vector competence in a re‐emerging European strain of bluetongue virus serotype 8 in sheep.

Author

Flannery, John, Sanz‐Bernardo, Beatriz, Ashby, Martin, Brown, Hannah, Carpenter, Simon, Cooke, Lyndsay, Corla, Amanda, Frost, Lorraine, Gubbins, Simon, Hicks, Hayley, Qureshi, Mehnaz, Rajko‐Nenow, Paulina, Sanders, Christopher, Tully, Matthew, Bréard, Emmanuel, Sailleau, Corinne, Zientara, Stephan, Darpel, Karin, and Batten, Carrie

Subjects

*BLUETONGUE virus, *SHEEP feeding, *SHEEP, *ANIMAL industry, *MICROBIAL virulence, *VIREMIA

Abstract

Summary: The outbreak of bluetongue virus (BTV) serotype 8 (BTV‐8) during 2006–2009 in Europe was the most costly epidemic of the virus in recorded history. In 2015, a BTV‐8 strain re‐emerged in France which has continued to circulate since then. To examine anecdotal reports of reduced pathogenicity and transmission efficiency, we investigated the infection kinetics of a 2007 UK BTV‐8 strain alongside the re‐emerging BTV‐8 strain isolated from France in 2017. Two groups of eight BTV‐naïve British mule sheep were inoculated with 5.75 log10TCID50/ml of either BTV‐8 strain. BTV RNA was detected by 2 dpi in both groups with peak viraemia occurring between 5–9 dpi. A significantly greater amount of BTV RNA was detected in sheep infected with the 2007 strain (6.0–8.8 log10 genome copies/ml) than the re‐emerging BTV‐8 strain (2.9–7.9 log10 genome copies/ml). All infected sheep developed BTV‐specific antibodies by 9 dpi. BTV was isolated from 2 dpi to 12 dpi for 2007 BTV‐8‐inoculated sheep and from 5 to 10 dpi for sheep inoculated with the remerging BTV‐8. In Culicoides sonorensis feeding on the sheep over the period 7–12 dpi, vector competence was significantly higher for the 2007 strain than the re‐emerging strain. Both the proportion of animals showing moderate (as opposed to mild or no) clinical disease (6/8 vs. 1/8) and the overall clinical scores (median 5.25 vs. 3) were significantly higher in sheep infected with the 2007 strain, compared to those infected with the re‐emerging strain. However, one sheep infected with the re‐emerging strain was euthanized at 16 dpi having developed severe lameness. This highlights the potential of the re‐emerging BTV‐8 to still cause illness in naïve ruminants with concurrent costs to the livestock industry. [ABSTRACT FROM AUTHOR]

Published

2019

188. Evidence of bluetongue and Epizootic Haemorrhagic disease circulation on the island of Mayotte.

Author

Dommergues, Laure, Viarouge, Cyril, Métras, Raphaëlle, Youssouffi, Chouanibou, Sailleau, Corinne, Zientara, Stephan, Cardinale, Eric, and Cêtre-Sossah, Catherine

Subjects

*BLUETONGUE, *COMMUNICABLE diseases in animals, *HEMORRHAGIC diseases, *CROSS-sectional method, *ENZYME-linked immunosorbent assay, *GENOMES

Abstract

Graphical abstract Abstract A cross-sectional study was conducted to explore the epidemiological situation in Mayotte regarding two orbiviruses: Bluetongue virus (BTV) and Epizootic Haemorrhagic Disease virus (EHDV). In all, 385 individual asymptomatic cattle were blood-sampled (one EDTA and one serum tube per animal) between February and June 2016. Antibody (ELISA) and genome prevalence (PCR) was assessed. Almost all the selected cattle showed antibodies against both BTV and EHDV, at 99.5% (CI95% [98.00, 100]) and 96.9% (CI95% [94.5, 98.3]), respectively. Most of the cattle acquired antibodies in their first years of age. EHDV and BTV genomes were detected in 25.2% (CI95% [21.1, 29.8]) and 18.2% (CI95% [14.6, 22.4]) of samples, respectively. Coinfection with BTV and EHDV was observed in 9.4% of samples (CI95% [6.8, 12.7]). Cattle under three years old were more frequently reported as positive for genome detection by PCR than older cattle. Five serotypes of BTV and one serotype of EHDV were identified from eight samples: BTV-4, BTV-9, BTV-11, BTV-15, BTV-19 and EHDV-6, of which some were reported in neighbouring areas. BTV and EHDV both circulate in Mayotte and in its surrounding territories. [ABSTRACT FROM AUTHOR]

Published

2019

189. Emergence of epizootic hemorrhagic disease in Europe.

Author

Zientara, Stéphan, Bréard, Emmanuel, Vitour, Damien, and Sailleau, Corinne

Subjects

*HEMORRHAGIC diseases, *WHITE-tailed deer, *CULICOIDES, *ECONOMIC impact, *DIPTERA, *RUMINANTS

Abstract

Epizootic hemorrhagic disease (EHD) is a non-contagious arthropod-borne disease transmitted by blood-sucking midges of the genus Culicoides. It affects domestic and wild ruminants, mainly white-tailed deer and cattle. At the end of October and in November 2022, outbreaks of EHD were confirmed in several cattle farms in Sardinia and Sicily. This is the first detection of EHD in Europe. The loss of free status and the lack of effective prophylactic measures could have significant economic consequences for infected countries. [ABSTRACT FROM AUTHOR]

Published

2023

190. Protective efficacy of multivalent replication-abortive vaccine strains in horses against African horse sickness virus challenge.

Author

Lulla, Valeria, Kerviel, Adeline, Roy, Polly, Losada, Andres, Lecollinet, Sylvie, Lilin, Thomas, Sailleau, Corinne, Beck, Cecile, and Zientara, Stephan

Subjects

*AFRICAN horse sickness virus, *ORBIVIRUSES, *REVERSE genetics, *HORSE diseases, *MORTALITY

Abstract

African horse sickness virus (AHSV) is an orbivirus, a member of the Reoviridae family. Nine different serotypes have been described so far. AHSV is vectored by Culicoides spp. to equids, causing high mortality, particularly in horses, with considerable economic impacts. For development of a safe attenuated vaccine, we previously established an efficient reverse genetics (RG) system to generate Entry Competent Replication-Abortive (ECRA) virus strains, for all nine serotypes and demonstrated the vaccine potential of these strains in type I interferon receptor (IFNAR)-knockout mice. Here, we evaluated the protective efficacies of these ECRA viruses in AHSV natural hosts. One monoserotype (ECRA.A4) vaccine and one multivalent cocktail (ECRA.A1/4/6/8) vaccine were tested in ponies and subsequently challenged with a virulent AHSV4. In contrast to control animals, all vaccinated ponies were protected and did not develop severe clinical symptoms of AHS. Furthermore, the multivalent cocktail vaccinated ponies produced neutralizing antibodies against all serotypes present in the cocktail, and a foal born during the trial was healthy and had no viremia. These results validate the suitability of these ECRA strains as a new generation of vaccines for AHSV. [ABSTRACT FROM AUTHOR]

Published

2017

191. Genetic evolution of equine influenza virus strains (H3N8) isolated in France from 1967 to 2015 and the implications of several potential pathogenic factors.

Author

Fougerolle, Stéphanie, Legrand, Loïc, Lecouturier, Fanny, Sailleau, Corinne, Paillot, Romain, Hans, Aymeric, and Pronost, Stéphane

Subjects

*RESPIRATORY infections, *RESPIRATORY diseases, *VIRUS diseases, *ADENOVIRUS diseases, *INFLUENZA diagnosis

Abstract

Equine influenza virus (EIV) is a major respiratory pathogen of horses despite the availability of equine influenza vaccines. This study aimed to determine genetic evolution of EIV strains in France between 1967 to present. A whole genome comparative analysis was also conducted on recent French strains in order to identify potential factors of pathogenicity. Comparison of French EIV sequences with vaccine and worldwide epidemic strains revealed amino acid substitutions in both haemagglutinin (HA) and neuraminidase, especially within the antigenic sites and/or close to receptor binding sites (HA). Amino acid substitutions were also identified in other genes, mainly the polymerase complex proteins and PB1-F2. Viruses belonging to Eurasian and American lineages have circulated until 2003 and Florida sub-lineage Clade 2 strains predominates since 2005. The last French strain (2015) displayed several specificities in HA suggesting the occurrence of antigenic drift with presence of pathogenic markers in the PA and PB1-F2 genes. [ABSTRACT FROM AUTHOR]

Published

2017

192. Evaluation of adaptive immune responses and heterologous protection induced by inactivated bluetongue virus vaccines.

Author

Breard, Emmanuel, Belbis, Guillaume, Viarouge, Cyril, Nomikou, Kyriaki, Haegeman, Andy, De Clercq, Kris, Hudelet, Pascal, Hamers, Claude, Moreau, Francis, Lilin, Thomas, Durand, Benoit, Mertens, Peter, Vitour, Damien, Sailleau, Corinne, and Zientara, Stéphan

Subjects

*BLUETONGUE virus, *IMMUNE response, *VIRAL vaccines, *SEROTYPES, *CONTROL groups

Abstract

Eradication of bluetongue virus is possible, as has been shown in several European countries. New serotypes have emerged, however, for which there are no specific commercial vaccines. This study addressed whether heterologous vaccines would help protect against 2 serotypes. Thirty-seven sheep were randomly allocated to 7 groups of 5 or 6 animals. Four groups were vaccinated with commercial vaccines against BTV strains 2, 4, and 9. A fifth positive control group was given a vaccine against BTV-8. The other 2 groups were unvaccinated controls. Sheep were then challenged by subcutaneous injection of either BTV-16 (2 groups) or BTV-8 (5 groups). Taken together, 24/25 sheep from the 4 experimental groups developed detectable antibodies against the vaccinated viruses. Furthermore, sheep that received heterologous vaccines showed significantly reduced viraemia and clinical scores for BTV-16 when compared to unvaccinated controls. Reductions in clinical signs and viraemia among heterologously vaccinated sheep were not as common after challenge with BTV-8. This study shows that heterologous protection can occur, but that it is difficult to predict if partial or complete protection will be achieved following inactivated-BTV vaccination. [ABSTRACT FROM AUTHOR]

Published

2015

193. Identification of bluetongue virus and epizootic hemorrhagic disease virus serotypes in French Guiana in 2011 and 2012.

Author

Viarouge, Cyril, Lancelot, Renaud, Rives, Germain, Bréard, Emmanuel, Miller, Manuelle, Baudrimont, Xavier, Doceul, Virginie, Vitour, Damien, Zientara, Stéphan, and Sailleau, Corinne

Subjects

*BLUETONGUE virus, *COMMUNICABLE diseases in animals, *SEROTYPES, *ORBIVIRUSES, *VIRUS isolation, *DIAGNOSTIC use of polymerase chain reaction

Abstract

In French Guiana, the sero- and viro-prevalence of Bluetongue virus (BTV) is high but the circulating serotypes remain unknown. No data are available regarding the prevalence of Epizootic hemorrhagic disease (EHD). This study was conducted to assess the prevalence and to identify the circulating serotypes of these two Orbiviruses in this region (BTV and EHDV). Blood samples were collected in main livestock areas, from 122 young cattle between June and August 2011, to perform virological (PCR and viral isolation) and serological (ELISA) analyses. Moreover, samples from sheep and goat showing BTV-like clinical signs and from newly imported animals were analyzed using the same assays. Results confirmed an important viral circulation, with viro- and seroprevalence of 85% and 84% and 60% and 40% for BTV and EHDV, respectively. Ten Orbivirus serotypes were identified (BTV-1, 2, 6, 10, 12, 13, 17 and 24, EHDV-1 and 6). The circulation of many serotypes in intertropical America and in the Caribbean region underlines the need to establish measures to monitor and control animal movements. [ABSTRACT FROM AUTHOR]

Published

2014

194. Insight on Bluetongue virus transmission in small ruminants in Senegal.

Author

Gahn, Marie Cicille Ba, Seck, Momar Talla, Ciss, Mamadou, Lo, Modou Moustapha, Ndiaye, Mbengué, Fall, Moussa, Biteye, Biram, Sailleau, Corinne, Viarouge, Cyril, Postic, Lydie, Zientara, Stéphan, Bréard, Emmanuel, and Fall, Assane Gueye

Subjects

*BLUETONGUE virus, *RUMINANTS, *VIRUS diseases, *ANIMAL mortality, *ANIMAL diseases, *ARBOVIRUS diseases, *PESTE des petits ruminants, *VIRAL antibodies

Abstract

• We assess the current prevalence of Bluetongue in small ruminants and serotypes circulating in Senegal. • Through a cross-sectional study, the sampling collected were screened to the presence of BTV by serological and molecular analyses. • The Bluetongue virus is widely distributed among sheep and goats in Northern and Southeastern part of Senegal and BTV serotype 2 was found in Fatick, southwest region of the northern outcrop in Senegal. • Age and Sex were the risk factors associated to Bluetongue virus transmission in Senegal. Bluetongue (BT) is an infectious, arthropod-borne viral disease of domestic and wild ruminants. The disease causes animal mortality, production decrease and commercial limits for herds. Despite the active circulation of the disease in the world, few studies have been carried out in Senegal. The objective of this study was to assess the current prevalence of BT in small ruminants and the serotypes circulating in Senegal. A cross-sectional study was conducted in the fourteen regions of Senegal. After the sampling campaign, sera collected in sheep and goats herds were screened for the presence of Bluetongue virus (BTV) specific antibodies using c-Elisa. The whole blood of seropositive animals was further analyzed by RT-qPCR and positive samples were typed to identify BTV serotypes. Analysis of several risk factors such as age, sex and species of animals was performed using logistic regression. The overall seroprevalence of BTV in Senegal was 72.6% (95% CI: 70.3–74.9%) with 75.9% (95% CI: 72.2–79.5%) in goat and 70.6% (95% CI: 67.5–73.6%) in sheep. Female (prevalence=77.1%) and adult (prevalence=80%) animals showed the highest seropositivity to BTV compared respectively to male (55.7%, p =6.133e-09) and young (49.4%, p < 2.2e-16). The RT-qPCR results showed the presence of BT viral genome in 359 small ruminants. The results obtained from serological and genotyping studies showed an active spread of the Bluetongue virus in domestic ruminants and phylogenetic analysis showed that the BTV-2 is one of the circulating serotypes in Senegal. This study allows having baseline information for controlling Bluetongue in Senegal. [ABSTRACT FROM AUTHOR]

Published

2022

195. Epizootic hemorrhagic disease virus serotype 6 experimentation on adult cattle.

Author

Breard, Emmanuel, Belbis, Guillaume, Viarouge, Cyril, Riou, Mickael, Desprat, Alexandra, Moreau, Joël, Laloy, Eve, Martin, Guillaume, Sarradin, Pierre, Vitour, Damien, Batten, Carrie, Doceul, Virginie, Sailleau, Corinne, and Zientara, Stéphan

Subjects

*COMMUNICABLE diseases in animals, *HEMORRHAGIC septicemia, *ORBIVIRUS infections in animals, *BLUETONGUE virus, *ENZYME-linked immunosorbent assay, *VIREMIA, *CATTLE

Abstract

Epizootic hemorrhagic disease virus (EHDV), an arthropod-borne orbivirus (family Reoviridae), is an emerging pathogen of wild and domestic ruminants closely related to bluetongue virus (BTV). EHDV serotype 6 (EHDV6) has recently caused outbreaks close to Europe in Turkey and Morocco and a recent experimental study performed on calves inoculated with these two EHDV6 strains showed that the young animals have remained clinically unaffected. The aim of this study was to investigate the pathogenicity of an EHDV6 strain from La Reunion Island in adult Holstein (18-month-old heifers). This EHDV6 strain has induced clinical signs in cattle in the field. Samples taken throughout the study were tested with commercially available ELISA and real-time RTPCR kits. Very mild clinical manifestations were observed in cattle during the experiment although high levels of viral RNA and virus were found in their blood. EHDV was isolated from the blood of infected animals at 8 dpi. Antibodies against EHDV were first detected by 7 dpi and persisted up to the end of the study. Virus was detected in various tissue samples until 35 dpi, but was not infectious. In view of the recent circulation of different arboviruses in Europe, this study demonstrates what the EHD induces a strong viraemia in adult Holstein cattle and shows that a spread of EHD on European livestock cattle is possible. [ABSTRACT FROM AUTHOR]

Published

2013

196. Schmallenberg Virus in Zoo Ruminants, France and the Netherlands.

Author

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

Subjects

*SCHMALLENBERG virus, *ANIMAL diseases, *RUMINANTS, *VIRUS diseases, *VIRAL antibodies, *VETERINARY virology, *BUNYAVIRUSES

Abstract

The article discusses a study that investigates exposure to Schmallenberg virus (SBV), an orthobunyavirus of the family Bunyaviridae, of wild and exotic ruminants born in Europe and kept in zoological park in France and the Netherlands. Topics include existence of antibodies to SBV in wild ruminants in Europe and in wild and exotic ruminants kept in captivity in Great Britain and Austria; and study results, showing circulation of SBV in ruminants kept in captivity in the Netherlands and France.

Published

2016

197. Recombinant capripoxviruses expressing proteins of bluetongue virus: Evaluation of immune responses and protection in small ruminants

Author

Perrin, Aurélie, Albina, Emmanuel, Bréard, Emmanuel, Sailleau, Corinne, Promé, Sylvie, Grillet, Colette, Kwiatek, Olivier, Russo, Pierre, Thiéry, Richard, Zientara, Stephan, and Cêtre-Sossah, Catherine

Subjects

*IMMUNE response, *PREVENTIVE medicine, *VACCINATION, *BIOMOLECULES

Abstract

Abstract: The development of recombinant capripoxviruses for protective immunization of ruminants against bluetongue virus (BTV) infection is described. Sheep (n =11) and goats (n =4) were immunized with BTV recombinant capripoxviruses (BTV-Cpox) individually expressing four different genes encoding two capsid proteins (VP2 and VP7) and two non-structural proteins (NS1, NS3) of BTV serotype 2 (BTV-2). Seroconversion was observed against NS3, VP7 and VP2 in both species and a lymphoproliferation specific to BTV antigens was also demonstrated in goats. Finally, partial protection of sheep challenged 3 weeks after BTV-Cpox administration with a virulent strain of BTV-2, was observed. [Copyright &y& Elsevier]

Published

2007

198. Comparative Virus-Host Protein Interactions of the Bluetongue Virus NS4 Virulence Factor.

Author

Fablet, Aurore, Kundlacz, Cindy, Dupré, Juliette, Hirchaud, Edouard, Postic, Lydie, Sailleau, Corinne, Bréard, Emmanuel, Zientara, Stéphan, Vitour, Damien, and Caignard, Grégory

Subjects

*BLUETONGUE virus, *VIRUS virulence, *PROTEIN-protein interactions, *CHIMERIC proteins, *NEPHROBLASTOMA, *ARBOVIRUS diseases

Abstract

Bluetongue virus (BTV) is the etiologic agent of a non-contagious arthropod-borne disease transmitted to wild and domestic ruminants. BTV induces a large panel of clinical manifestations ranging from asymptomatic infection to lethal hemorrhagic fever. Despite the fact that BTV has been studied extensively, we still have little understanding of the molecular determinants of BTV virulence. In our report, we have performed a comparative yeast two-hybrid (Y2H) screening approach to search direct cellular targets of the NS4 virulence factor encoded by two different serotypes of BTV: BTV8 and BTV27. This led to identifying Wilms' tumor 1-associated protein (WTAP) as a new interactor of the BTV-NS4. In contrast to BTV8, 1, 4 and 25, NS4 proteins from BTV27 and BTV30 are unable to interact with WTAP. This interaction with WTAP is carried by a peptide of 34 amino acids (NS422−55) within its putative coil-coiled structure. Most importantly, we showed that binding to WTAP is restored with a chimeric protein where BTV27-NS4 is substituted by BTV8-NS4 in the region encompassing residue 22 to 55. We also demonstrated that WTAP silencing reduces viral titers and the expression of viral proteins, suggesting that BTV-NS4 targets a cellular function of WTAP to increase its viral replication. [ABSTRACT FROM AUTHOR]

Published

2022

199. Development and Validation of an ELISA for the Detection of Bluetongue Virus Serotype 4-Specific Antibodies.

Author

Bréard, Emmanuel, Turpaud, Mathilde, Beaud, Georges, Postic, Lydie, Fablet, Aurore, Beer, Martin, Sailleau, Corinne, Caignard, Grégory, Viarouge, Cyril, Hoffmann, Bernd, Vitour, Damien, and Zientara, Stéphan

Subjects

*BLUETONGUE virus, *VIRAL antibodies, *ENZYME-linked immunosorbent assay, *IMMUNOGLOBULINS, *RECOMBINANT proteins, *VACCINIA, *SENSITIVITY & specificity (Statistics)

Abstract

In this article, we describe the development and evaluation of a double antigen sandwich enzyme-linked immunosorbent assay (ELISA) able to detect serotype 4-specific antibodies from BTV-4 infected or vaccinated animals using a recombinant BTV-4 VP2 protein. The coding sequence of VP2 was inserted into a pVote plasmid by recombination in the Gateway® cloning system. Vaccinia virus (VacV) was used as a vector for the expression of the recombinant VP2. After production in BSR cells, recombinant VP2 was purified by immunoprecipitation using a FLAG tag and then used both as the coated ELISA antigen and as the HRP-tagged conjugate. The performance of the ELISA was evaluated with 1186 samples collected from BTV negative, infected or vaccinated animals. The specificity and sensitivity of the BTV-4 ELISA were above the expected standards for the detection of anti-BTV-4 VP2 antibodies in animals reared in Europe or in the Mediterranean basin. Cross-reactions were observed with reference sera for serotypes 10 and 20, and to a lesser extent with serotypes 12, 17 and 24, due to their genetic proximity to serotype 4. Nevertheless, these serotypes have never been detected in Europe and the Mediterranean area. This ELISA, which requires only the production of a recombinant protein, can be used to detect BTV serotype 4-specific antibodies and is therefore an attractive alternative diagnostic method to serum neutralization. [ABSTRACT FROM AUTHOR]

Published

2021

200. The VP3 Protein of Bluetongue Virus Associates with the MAVS Complex and Interferes with the RIG-I-Signaling Pathway.

Author

Pourcelot, Marie, Amaral Moraes, Rayane, Fablet, Aurore, Bréard, Emmanuel, Sailleau, Corinne, Viarouge, Cyril, Postic, Lydie, Zientara, Stéphan, Caignard, Grégory, Vitour, Damien, and Saegerman, Claude

Subjects

*BLUETONGUE virus, *VIRAL proteins, *CYTOSKELETAL proteins, *MITOCHONDRIAL proteins, *CERATOPOGONIDAE, *LUCIFERASES, *TYPE I interferons

Abstract

Bluetongue virus (BTV), an arbovirus transmitted by Culicoides biting midges, is a major concern of wild and domestic ruminants. While BTV induces type I interferon (alpha/beta interferon [IFN-α/β]) production in infected cells, several reports have described evasion strategies elaborated by this virus to dampen this intrinsic, innate response. In the present study, we suggest that BTV VP3 is a new viral antagonist of the IFN-β synthesis. Indeed, using split luciferase and coprecipitation assays, we report an interaction between VP3 and both the mitochondrial adapter protein MAVS and the IRF3-kinase IKKε. Overall, this study describes a putative role for the BTV structural protein VP3 in the control of the antiviral response. [ABSTRACT FROM AUTHOR]

Published

2021