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58. Emerging Influenza D virus infection in European livestock as determined in serology studies: Are we underestimating its spread over the continent?

Author

Gaudino, Maria, primary, Moreno, Ana, additional, Snoeck, Chantal J., additional, Zohari, Siamak, additional, Saegerman, Claude, additional, O’Donovan, Tom, additional, Ryan, Eoin, additional, Zanni, Irene, additional, Foni, Emanuela, additional, Sausy, Aurelie, additional, Hübschen, Judith M., additional, Meyer, Gilles, additional, Chiapponi, Chiara, additional, and Ducatez, Mariette F., additional

Published
2020
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59. Authors’ response

Author

Alvarez, Ignacio J, primary, Fort, Marcelo, additional, Pasucci, Juan, additional, Moreno, Fabiana, additional, Gimenez, Hugo, additional, Näslund, Katarina, additional, Hägglund, Sara, additional, Zohari, Siamak, additional, and Valarcher, Jean François, additional

Published
2020
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60. Seroprevalence of influenza D virus in bulls in Argentina

Author

Alvarez, Ignacio J., primary, Fort, Marcelo, additional, Pasucci, Juan, additional, Moreno, Fabiana, additional, Gimenez, Hugo, additional, Näslund, Katarina, additional, Hägglund, Sara, additional, Zohari, Siamak, additional, and Valarcher, Jean François, additional

Published
2020
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61. Risk assessment for influenza D in Europe

Author

VP pathologie, dPB I&I, Chiapponi, Chiara, Ducatez, Mariette, Faccini, Silvia, Foni, Emmanuela, Gaudino, Maria, Hägglund, Sara, Luppi, Andrea, Meyer, Gilles, Moreno, Ana, Näslund, Katarina, Nemanichvili, Nika, Oliva, Justine, Prosperi, Alice, Rosignoli, Carlo, Renault, Véronique, Saegerman, Claude, Sausy, Aurélie, Snoeck, Chantal, Valarcher, Jean‐Francois, Verheije, Helene, Zohari, Siamak, VP pathologie, dPB I&I, Chiapponi, Chiara, Ducatez, Mariette, Faccini, Silvia, Foni, Emmanuela, Gaudino, Maria, Hägglund, Sara, Luppi, Andrea, Meyer, Gilles, Moreno, Ana, Näslund, Katarina, Nemanichvili, Nika, Oliva, Justine, Prosperi, Alice, Rosignoli, Carlo, Renault, Véronique, Saegerman, Claude, Sausy, Aurélie, Snoeck, Chantal, Valarcher, Jean‐Francois, Verheije, Helene, and Zohari, Siamak

Published
2020

62. Genetic characterization of Peste des Petits ruminants virus, Sierra Leone

Author

Munir, Muhammad, Zohari, Siamak, Suluku, Roland, LeBlanc, Neil, Kanu, Saidu, Sankoh, Francis A.-R., Berg, Mikael, Barrie, Mohamed L., and Stahl, Karl

Subjects
Genetic aspects, Research, Health aspects, Measles virus -- Genetic aspects -- Health aspects -- Research
Abstract

To the Editor: Peste des petits ruminants (PPR) is a highly infectious disease of small ruminants, characterized by high rates of illness and death and caused by a single-stranded RNA [...]

Published
2012
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63. Spatiotemporal Analysis of the Genetic Diversity of Seal Influenza A(H10N7) Virus, Northwestern Europe

Author

Bodewes, Rogier, Zohari, Siamak, Krog, Jesper S, Hall, Matthew D, Harder, Timm C, Bestebroer, Theo M, van de Bildt, Marco W G, Spronken, Monique I, Larsen, Lars E, Siebert, Ursula, Wohlsein, Peter, Puff, Christina, Seehusen, Frauke, Baumgärtner, Wolfgang, Härkönen, Tero, Smits, Saskia L, Herfst, Sander, Osterhaus, Albert D M E, Fouchier, Ron A M, Koopmans, Marion P, Kuiken, Thijs, LS GZ Landbouwhuisdieren, Bedrijfsvoering, dFAH I&I, Virology, Schultz-Cherry, S., LS GZ Landbouwhuisdieren, Bedrijfsvoering, and dFAH I&I

Subjects
0301 basic medicine, viruses, Immunology, Hemagglutinin (influenza), Hemagglutinin Glycoproteins, Influenza Virus, Genome, Viral, Phoca, Biology, medicine.disease_cause, Microbiology, H5N1 genetic structure, Virus, 03 medical and health sciences, Spatio-Temporal Analysis, Orthomyxoviridae Infections, Virology, Influenza A virus, medicine, Animals, 14. Life underwater, Influenza A Virus, H10N7 Subtype, Phylogeny, Host (biology), Computational Biology, Genetic Variation, High-Throughput Nucleotide Sequencing, Outbreak, Influenza A virus subtype H5N1, 3. Good health, Europe, Phylogeography, 030104 developmental biology, Amino Acid Substitution, Genetic Diversity and Evolution, Insect Science, biology.protein, Neuraminidase
Abstract

Influenza A viruses are major pathogens for humans, domestic animals, and wildlife, and these viruses occasionally cross the species barrier. In spring 2014, increased mortality of harbor seals ( Phoca vitulina ), associated with infection with an influenza A(H10N7) virus, was reported in Sweden and Denmark. Within a few months, this virus spread to seals of the coastal waters of Germany and the Netherlands, causing the death of thousands of animals. Genetic analysis of the hemagglutinin (HA) and neuraminidase (NA) genes of this seal influenza A(H10N7) virus revealed that it was most closely related to various avian influenza A(H10N7) viruses. The collection of samples from infected seals during the course of the outbreak provided a unique opportunity to follow the adaptation of the avian virus to its new seal host. Sequence data for samples collected from 41 different seals from four different countries between April 2014 and January 2015 were obtained by Sanger sequencing and next-generation sequencing to describe the molecular epidemiology of the seal influenza A(H10N7) virus. The majority of sequence variation occurred in the HA gene, and some mutations corresponded to amino acid changes not found in H10 viruses isolated from Eurasian birds. Also, sequence variation in the HA gene was greater at the beginning than at the end of the epidemic, when a number of the mutations observed earlier had been fixed. These results imply that when an avian influenza virus jumps the species barrier from birds to seals, amino acid changes in HA may occur rapidly and are important for virus adaptation to its new mammalian host. IMPORTANCE Influenza A viruses are major pathogens for humans, domestic animals, and wildlife. In addition to the continuous circulation of influenza A viruses among various host species, cross-species transmission of influenza A viruses occurs occasionally. Wild waterfowl and shorebirds are the main reservoir for most influenza A virus subtypes, and spillover of influenza A viruses from birds to humans or other mammalian species may result in major outbreaks. In the present study, various sequencing methods were used to elucidate the genetic changes that occurred after the introduction and subsequent spread of an avian influenza A(H10N7) virus among harbor seals of northwestern Europe by use of various samples collected during the outbreak. Such detailed knowledge of genetic changes necessary for introduction and adaptation of avian influenza A viruses to mammalian hosts is important for a rapid risk assessment of such viruses soon after they cross the species barrier.

Published
2016
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64. First expert elicitation of knowledge on drivers of emergence of influenza D in Europe.

Author

Saegerman, Claude, Bianchini, Juana, Snoeck, Chantal J., Moreno, Ana, Chiapponi, Chiara, Zohari, Siamak, and Ducatez, Mariette F.

Subjects
SENDAI virus, SCIENTIFIC knowledge, DECISION making, MULTIPLE criteria decision making, SPECIES specificity, INFLUENZA
Abstract

The influenza D virus (IDV) was first identified and characterized in 2011. Considering the virus' zoonotic potential, its genome nature (segmented RNA virus), its worldwide circulation in livestock and its role in bovine respiratory disease, an increased interest is given to IDV. However, few data are available on drivers of emergence of IDV. We first listed fifty possible drivers of emergence of IDV in ruminants and swine. As recently carried out for COVID‐19 in pets (Transboundary and Emerging Diseases, 2020), a scoring system was developed per driver and scientific experts (N = 28) were elicited to (a) allocate a score to each driver, (b) weight the drivers' scores within each domain and (c) weight the different domains among themselves. An overall weighted score was calculated per driver, and drivers were ranked in decreasing order. Drivers with comparable likelihoods to play a role in the emergence of IDV in ruminants and swine in Europe were grouped using a regression tree analysis. Finally, the robustness of the expert elicitation was verified. Eight drivers were ranked with the highest probability to play a key role in the emergence of IDV: current species specificity of the causing agent of the disease; influence of (il)legal movements of live animals (ruminants, swine) from neighbouring/European Union member states and from third countries for the disease to (re‐)emerge in a given country; detection of emergence; current knowledge of the pathogen; vaccine availability; animal density; and transport vehicles of live animals. As there is still limited scientific knowledge on the topic, expert elicitation of knowledge and multi‐criteria decision analysis, in addition to clustering and sensitivity analyses, are very important to prioritize future studies, starting from the top eight drivers. The present methodology could be applied to other emerging animal diseases. [ABSTRACT FROM AUTHOR]

Published
2021
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65. Genomic and biological characterization of a velogenic Newcastle disease virus isolated from a healthy backyard poultry flock in 2010

Author

Munir Muhammad, Abbas Muhammad, Khan Muhammad, Zohari Siamak, and Berg Mikael

Subjects
Newcastle disease, Rural poultry, DNA sequencing, Genome characterization, Pakistan, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Newcastle disease virus (NDV) causes severe and economically important disease in poultry around the globe. None of NDV strains in Pakistan have been completely characterized and the role of rural poultry in harbouring NDV is unclear. Since they have a very important role for long-term circulation of the virus, samples were collected from apparently healthy backyard poultry (BYP) flocks. These samples were biologically analyzed using mean death time (MDT) and intracerebral pathogenicity index (ICPI), whereas genotypically characterized by the real-time PCRs coupled with sequencing of the complete genome. Findings Despite of being non-pathogenic for BYP, the isolate exhibited MDT of 49.6 h in embryonated chicken eggs and an ICPI value of 1.5. The F gene based real-time PCR was positive, whereas M-gene based was negative due to substantial changes in the probe-binding site. The entire genome of the isolate was found to be 15192 nucleotides long and encodes for six genes with an order of 3'-NP-P-M-F-HN-L-5'. The F protein cleavage site, an indicative of pathogenicity, was 112RRQKRF117. Complete genome comparison indicated that the RNA dependent RNA polymerase gene was the most and the phosphoprotein was least conserved gene, among all the genes. The isolate showed an Y526Q substitution in the HN protein, which determines neuraminidase receptor binding and fusion activity of NDV. Phylogenetic analysis, based on F and HN genes, classified this isolate into genotype VII, a predominant genotype responsible for ND outbreaks in Asian countries. However, it clustered well apart from other isolates in this genotype to be considered a new subgenotype (VII-f). Conclusions These results revealed that this isolate was similar to virulent strains of NDV and was avirulent in BYP either due to resistance of local breeds or due to other factors such as substantial mutations in the HN protein. Furthermore, we have characterized the first isolate of NDV, which could act as domestic reference strain and could help in development and selection of appropriate strain of NDV for vaccine in the country.

Published
2012
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68. Pathogenesis, Host Innate Immune Response, and Aerosol Transmission of Influenza D Virus in Cattle

Author

Salem, Elias, primary, Hägglund, Sara, additional, Cassard, Hervé, additional, Corre, Tifenn, additional, Näslund, Katarina, additional, Foret, Charlotte, additional, Gauthier, David, additional, Pinard, Anne, additional, Delverdier, Maxence, additional, Zohari, Siamak, additional, Valarcher, Jean-François, additional, Ducatez, Mariette, additional, and Meyer, Gilles, additional

Published
2019
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69. Non-structural protein 1 of avian influenza A viruses differentially inhibit NF-κB promoter activation

Author

Zohari Siamak, Munir Muhammad, and Berg Mikael

Subjects
NS1 protein, avian influenza virus, NF-κB, allele A, allele B, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Influenza virus infection activates NF-κB and is a general prerequisite for a productive influenza virus infection. On the other hand, non-structural protein 1 (NS1) suppresses this viral activated NF-κB, presumably to prevent expression of NF-κB mediated anti-viral response. NS1 proteins of influenza A viruses are divided into two groups, known as allele A and allele B. The possible functional relevance of this NS1 division to viral pathogenicity is lacking. Findings The ability of NS1 protein from two avian influenza subtypes, H6N8 and H4N6, to inhibit NF-κB promoter activation was assessed. Further, efforts were made to characterize the genetic basis of this inhibition. We found that allele A NS1 proteins of H6N8 and H4N6 are significantly better in preventing dsRNA induced NF-κB promoter activation compared to allele B of corresponding subtypes, in a species independent manner. Furthermore, the ability to suppress NF-κB promoter activation was mapped to the effector domain while the RNA binding domain alone was unable to suppress this activation. Chimeric NS1 proteins containing either RNA binding domain of allele A and effector domain of allele B or vice versa, were equally potent in preventing NF-κB promoter activation compared to their wt. NS1 protein of allele A and B from both subtypes expressed efficiently as detected by Western blotting and predominantly localized in the nucleus in both A549 and MiLu cells as shown by in situ PLA. Conclusions Here, we present another aspect of NS1 protein in inhibiting dsRNA induced NF-κB activation in an allele dependent manner. This suggests a possible correlation with the virus's pathogenic potential.

Published
2011
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70. Differences in the ability to suppress interferon β production between allele A and allele B NS1 proteins from H10 influenza A viruses

Author

Zohari Siamak, Munir Muhammad, Metreveli Giorgi, Belák Sándor, and Berg Mikael

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background In our previous study concerning the genetic relationship among H10 avian influenza viruses with different pathogenicity in mink (Mustela vison), we found that these differences were related to amino acid variations in the NS1 protein. In this study, we extend our previous work to further investigate the effect of the NS1 from different gene pools on type I IFN promoter activity, the production of IFN-β, as well as the expression of the IFN-β mRNA in response to poly I:C. Results Using a model system, we first demonstrated that NS1 from A/mink/Sweden/84 (H10N4) (allele A) could suppress an interferon-stimulated response element (ISRE) reporter system to about 85%. The other NS1 (allele B), from A/chicken/Germany/N/49 (H10N7), was also able to suppress the reporter system, but only to about 20%. The differences in the abilities of the two NS1s from different alleles to suppress the ISRE reporter system were clearly reflected by the protein and mRNA expressions of IFN-β as shown by ELISA and RT-PCR assays. Conclusions These studies reveal that different non-structural protein 1 (NS1) of influenza viruses, one from allele A and another from allele B, show different abilities to suppress the type I interferon β expression. It has been hypothesised that some of the differences in the different abilities of the alleles to suppress ISRE were because of the interactions and inhibitions at later stages from the IFN receptor, such as the JAK/STAT pathway. This might reflect the additional effects of the immune evasion potential of different NS1s.

Published
2010
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71. Full genome comparison and characterization of avian H10 viruses with different pathogenicity in Mink (Mustela vison) reveals genetic and functional differences in the non-structural gene

Author

Belák Sándor, Kiss István, Metreveli Giorgi, Zohari Siamak, and Berg Mikael

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background The unique property of some avian H10 viruses, particularly the ability to cause severe disease in mink without prior adaptation, enabled our study. Coupled with previous experimental data and genetic characterization here we tried to investigate the possible influence of different genes on the virulence of these H10 avian influenza viruses in mink. Results Phylogenetic analysis revealed a close relationship between the viruses studied. Our study also showed that there are no genetic differences in receptor specificity or the cleavability of the haemagglutinin proteins of these viruses regardless of whether they are of low or high pathogenicity in mink. In poly I:C stimulated mink lung cells the NS1 protein of influenza A virus showing high pathogenicity in mink down regulated the type I interferon promoter activity to a greater extent than the NS1 protein of the virus showing low pathogenicity in mink. Conclusions Differences in pathogenicity and virulence in mink between these strains could be related to clear amino acid differences in the non structural 1 (NS1) protein. The NS gene of mink/84 appears to have contributed to the virulence of the virus in mink by helping the virus evade the innate immune responses.

Published
2010
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72. The first Swedish H1N2 swine influenza virus isolate represents an uncommon reassortant

Author

Renström Lena HM, Isaksson Mats, Berg Mikael, Zohari Siamak, Widén Frederik, Metreveli Giorgi, Bálint Ádám, Wallgren Per, Belák Sándor, Segall Thomas, and Kiss István

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract The European swine influenza viruses (SIVs) show considerable diversity comprising different types of H1N1, H3N2, and H1N2 strains. The intensifying full genome sequencing efforts reveal further reassortants within these subtypes. Here we report the identification of an uncommon reassortant variant of H1N2 subtype influenza virus isolated from a pig in a multisite herd where H1N2 swine influenza was diagnosed for the first time in Sweden during the winter of 2008-2009. The majority of the European H1N2 swine influenza viruses described so far possess haemagglutinin (HA) of the human-like H1N2 SIV viruses and the neuraminidase (NA) of either the European H1N2 or H3N2 SIV-like viruses. The Swedish isolate has an avian-like SIV HA and a H3N2 SIV-like NA, which is phylogenetically more closely related to H3N2 SIV NAs from isolates collected in the early '80s than to the NA of H3N2 origin of the H1N2 viruses isolated during the last decade, as depicted by some German strains, indicative of independent acquisition of the NA genes for these two types of reassortants. The internal genes proved to be entirely of avian-like SIV H1N1 origin. The prevalence of this SIV variant in pig populations needs to be determined, as well as the suitability of the routinely used laboratory reagents to analyze this strain. The description of this H1N2 SIV adds further information to influenza epidemiology and supports the necessity of surveillance for influenza viruses in pigs.

Published
2009
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73. Phylogenetic analysis of the non-structural (NS) gene of influenza A viruses isolated from mallards in Northern Europe in 2005

Author

Olsen Björn, Waldenström Jonas, Belák Sándor, Czifra György, Thorén Peter, Ehrenberg Maria, Ejdersund Anneli, Berglöf Ulla, Gyarmati Péter, Zohari Siamak, and Berg Mikael

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Although the important role of the non-structural 1 (NS) gene of influenza A in virulence of the virus is well established, our knowledge about the extent of variation in the NS gene pool of influenza A viruses in their natural reservoirs in Europe is incomplete. In this study we determined the subtypes and prevalence of influenza A viruses present in mallards in Northern Europe and further analysed the NS gene of these isolates in order to obtain a more detailed knowledge about the genetic variation of NS gene of influenza A virus in their natural hosts. Results A total number of 45 influenza A viruses of different subtypes were studied. Eleven haemagglutinin- and nine neuraminidase subtypes in twelve combinations were found among the isolated viruses. Each NS gene reported here consisted of 890 nucleotides; there were no deletions or insertions. Phylogenetic analysis clearly shows that two distinct gene pools, corresponding to both NS allele A and B, were present at the same time in the same geographic location in the mallard populations in Northern Europe. A comparison of nucleotide sequences of isolated viruses revealed a substantial number of silent mutations, which results in high degree of homology in amino acid sequences. The degree of variation within the alleles is very low. In our study allele A viruses displays a maximum of 5% amino acid divergence while allele B viruses display only 2% amino acid divergence. All the viruses isolated from mallards in Northern Europe possessed the typical avian ESEV amino acid sequence at the C-terminal end of the NS1 protein. Conclusion Our finding indicates the existence of a large reservoir of different influenza A viruses in mallards population in Northern Europe. Although our phylogenetic analysis clearly shows that two distinct gene pools, corresponding to both NS allele A and B, were present in the mallards populations in Northern Europe, allele B viruses appear to be less common in natural host species than allele A, comprising only about 13% of the isolates sequenced in this study.

Published
2008
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74. Molecular characterization of highly pathogenic H5N1 avian influenza viruses isolated in Sweden in 2006

Author

Berg Mikael, Thorén Peter, Nemirov Kirill, Lundkvist Ake, Stivers Marielle, Lindström Sofia, Weiss Elisabeth, Brytting Maria, Metreveli Giorgi, Ramsay Karin, Zohari Siamak, Gyarmati Péter, Kiss István, Czifra György, and Belák Sándor

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background The analysis of the nonstructural (NS) gene of the highly pathogenic (HP) H5N1 avian influenza viruses (AIV) isolated in Sweden early 2006 indicated the co-circulation of two sub-lineages of these viruses at that time. In order to complete the information on their genetic features and relation to other HP H5N1 AIVs the seven additional genes of twelve Swedish isolates were amplified in full length, sequenced, and characterized. Results The presence of two sub-lineages of HP H5N1 AIVs in Sweden in 2006 was further confirmed by the phylogenetic analysis of approximately the 95% of the genome of twelve isolates that were selected on the base of differences in geographic location, timing and animal species of origin. Ten of the analyzed viruses belonged to sub-clade 2.2.2. and grouped together with German and Danish isolates, while two 2.2.1. sub-clade viruses formed a cluster with isolates of Egyptian, Italian, Slovenian, and Nigerian origin. The revealed amino acid differences between the two sub-groups of Swedish viruses affected the predicted antigenicity of the surface glycoproteins, haemagglutinin and neuraminidase, rather than the nucleoprotein, polymerase basic protein 2, and polymerase acidic protein, the main targets of the cellular immune responses. The distinctive characteristics between members of the two subgroups were identified and described. Conclusion The comprehensive genetic characterization of HP H5N1 AIVs isolated in Sweden during the spring of 2006 is reported. Our data support previous findings on the coincidental spread of multiple sub-lineage H5N1 HPAIVs via migrating aquatic birds to large distance from their origin. The detection of 2.2.1. sub-clade viruses in Sweden adds further data regarding their spread in the North of Europe in 2006. The close genetic relationship of Swedish isolates sub-clade 2.2.2. to the contemporary German and Danish isolates supports the proposition of the introduction and spread of a single variant of 2.2.2. sub-clade H5N1 avian influenza viruses in the Baltic region. The presented findings underline the importance of whole genome analysis.

Published
2008
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75. Global patterns of avian influenza A (H7) : virus evolution and zoonotic threats

Author

Naguib, Mahmoud, Verhagen, Josanne H., Mostafa, Ahmed, Wille, Michelle, Li, Ruiyun, Graaf, Annika, Järhult, Josef D., Ellström, Patrik, Zohari, Siamak, Lundkvist, Åke, Olsen, Björn, Naguib, Mahmoud, Verhagen, Josanne H., Mostafa, Ahmed, Wille, Michelle, Li, Ruiyun, Graaf, Annika, Järhult, Josef D., Ellström, Patrik, Zohari, Siamak, Lundkvist, Åke, and Olsen, Björn

Abstract

Avian influenza viruses (AIVs) continue to impose a negative impact on animal and human health worldwide. In particular, the emergence of highly pathogenic AIV H5 and, more recently, the emergence of low pathogenic AIV H7N9 have led to enormous socioeconomical losses in the poultry industry and resulted in fatal human infections. While H5N1 remains infamous, the number of zoonotic infections with H7N9 has far surpassed those attributed to H5. Despite the clear public health concerns posed by AIV H7, it is unclear why specifically this virus subtype became endemic in poultry and emerged in humans. In this review, we bring together data on global patterns of H7 circulation, evolution and emergence in humans. Specifically, we discuss data from the wild bird reservoir, expansion and epidemiology in poultry, significant increase in their zoonotic potential since 2013 and genesis of highly pathogenic H7. In addition, we analysed available sequence data from an evolutionary perspective, demonstrating patterns of introductions into distinct geographic regions and reassortment dynamics. The integration of all aspects is crucial in the optimisation of surveillance efforts in wild birds, poultry and humans, and we emphasise the need for a One Health approach in controlling emerging viruses such as AIV H7.

Published
2019
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76. Peste des petits ruminants virus surveillance in domestic small ruminants, Mozambique (2015 and 2017)

Author

Mapaco, Lourenço, Monjane, Iolanda, Fafetine, José, Arone, Dercília, Caron, Alexandre, Chilundo, Abel, Quembo, Carlos, Do Carmo Carrilho, Maria, Nhabomba, Virginia, Zohari, Siamak, Achá, Sara, Mapaco, Lourenço, Monjane, Iolanda, Fafetine, José, Arone, Dercília, Caron, Alexandre, Chilundo, Abel, Quembo, Carlos, Do Carmo Carrilho, Maria, Nhabomba, Virginia, Zohari, Siamak, and Achá, Sara

Abstract

Peste des Petits Ruminants (PPR), a transboundary animal disease affecting mainly goats and sheep is caused by a morbillivirus and threatens food security and livelihoods as morbidity and mortality rates can reach 90%. There are no records of PPR in Mozambique, but the disease situation in Tanzania and the ability of PPR virus to rapidly spread across countries constitute a high risk for about 4.7 million goats and sheep in Mozambique. A total of 4,995 goats and sheep were sampled in several provinces during 2015 and 2017 to assess the status of PPR virus (PPRV) in Mozambique and to contribute to surveillance along the border with Tanzania. The sera were screened for anti-PPRV antibodies using a commercial PPR competition ELISA (c-ELISA) and the haemagglutinin based PPR blocking ELISA (HPPR-bELISA). The swabs were tested using one-step RT-PCR for detection of PPRV RNA. The overall percentage of animals with anti-PPRV antibodies by c-ELISA, was 0.46% [0.30–0.70]. However, all the sera positive on c-ELISA were confirmed to be negative by the HPPR-bELISA. Considering that all the swabs were negative for detection of PPRV, no clinical cases were observed during passive surveillance and active sampling, and no symptoms were reported, these results suggest that PPRV is not present in Mozambique.

Published
2019

77. Emerging Influenza D virus infection in European livestock as determined in serology studies: Are we underestimating its spread over the continent?

Author

Gaudino, Maria, Moreno, Ana, Snoeck, Chantal J., Zohari, Siamak, Saegerman, Claude, O'Donovan, Tom, Ryan, Eoin, Zanni, Irene, Foni, Emanuela, Sausy, Aurelie, Hübschen, Judith M., Meyer, Gilles, Chiapponi, Chiara, and Ducatez, Mariette F.

Subjects
SENDAI virus, VIRUS diseases, LIVESTOCK, VIRAL shedding, VIRAL transmission, FERAL swine, WILD horses
Abstract

Influenza D virus (IDV) is a novel orthomyxovirus that was first isolated in 2011 in the United States from a swine exhibiting influenza‐like disease. To date, its detection is extended to all continents and in a broad host range: IDV is circulating in cattle, swine, feral swine, camelids, small ruminants and horses. Evidence also suggests a possible species jump to humans, underlining the issue of zoonotic potential. In Europe, serological investigations in cattle have partially allowed the understanding of the virus diffusion in different countries such as Italy, France, Luxembourg and Ireland. The infection is widespread in cattle but limited in other investigated species, consolidating the assumption of cattle as IDV primary host. We hypothesize that commercial livestock trade could play a role in the observed differences in IDV seroprevalence among these areas. Indeed, the overall level of exposure in cattle and swine in destination countries (e.g. Italy) is higher than in origin countries (e.g. France), leading to the hypothesis of a viral shedding following the transportation of young cattle abroad and thus contributing to larger diffusion at countries of destination. IDV large geographic circulation in cattle from Northern to more Southern European countries also supports the hypothesis of a viral spread through livestock trade. This review summarizes available data on IDV seroprevalence in Europe collected so far and integrates unpublished data from IDV European surveillance framework of the last decade. In addition, the possible role of livestock trade and biosecurity measures in this pathogen's spread is discussed. [ABSTRACT FROM AUTHOR]

Published
2021
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78. Towards a better understanding of the pathogenesis and transmission of Influenza D virus

Author

SALEM, Elias, Cassard, Hervé, Hagglund, Sara, Zohari, Siamak, Boulesteix, Olivier, Gauthier, David, Pinard, Anne, Näslund, K, Guitton, Edouard, Sarradin, Pierre, Valarcher, Jean-Francois, Ducatez, Mariette, Meyer, Gilles, Interactions hôtes-agents pathogènes [Toulouse] (IHAP), Institut National de la Recherche Agronomique (INRA)-Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Swedish University of Agricultural Sciences (SLU), Department of Virology Immunobiology and Parasitology, National Veterinary Institute, Plateforme d'Infectiologie Expérimentale (PFIE), Institut National de la Recherche Agronomique (INRA), FLUD’ ANR grant, and Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES). FRA.

Subjects
[SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, ComputingMilieux_MISCELLANEOUS
Abstract

National audience

Published
2017

79. Towards a better understanding of the pathogenesis and transmission of Influenza D virus

Author

Cassard, Hervé, Hägglund, Sara, Zohari, Siamak, Boulesteix, Olivier, Gauthier, David, Pinard, Anne, Näslund, K, Guitton, Edouard, Sarradin, Pierre, Valarcher, Jean-François, Ducatez, Mariette, Meyer, Gilles, and Salem, Elias

Subjects
orthomyxoviridae, Médecine vétérinaire et santé animal, infection expérimentale, réplication virale, administration intra nasal, Virologie, Virology, veau, poumon, réponse immunitaire, Veterinary medicine and animal Health, nébulisation, virus grippal
Published
2017

80. Spatiotemporal analysis of the genetic diversity of seal influenza A(H10N7) virus, Northwestern Europe

Author

LS GZ Landbouwhuisdieren, Bedrijfsvoering, dFAH I&I, Bodewes, Rogier, Zohari, Siamak, Krog, Jesper S, Hall, Matthew D, Harder, Timm C, Bestebroer, Theo M, van de Bildt, Marco W G, Spronken, Monique I, Larsen, Lars E, Siebert, Ursula, Wohlsein, Peter, Puff, Christina, Seehusen, Frauke, Baumgärtner, Wolfgang, Härkönen, Tero, Smits, Saskia L, Herfst, Sander, Osterhaus, Albert D M E, Fouchier, Ron A M, Koopmans, Marion P, Kuiken, Thijs, LS GZ Landbouwhuisdieren, Bedrijfsvoering, dFAH I&I, Bodewes, Rogier, Zohari, Siamak, Krog, Jesper S, Hall, Matthew D, Harder, Timm C, Bestebroer, Theo M, van de Bildt, Marco W G, Spronken, Monique I, Larsen, Lars E, Siebert, Ursula, Wohlsein, Peter, Puff, Christina, Seehusen, Frauke, Baumgärtner, Wolfgang, Härkönen, Tero, Smits, Saskia L, Herfst, Sander, Osterhaus, Albert D M E, Fouchier, Ron A M, Koopmans, Marion P, and Kuiken, Thijs

Published
2016

81. Role for migratory wild birds in the global spread of avian influenza H5N8

Author

Lycett, Samantha S.J., Chen, Hualan, Dán, Ádám, DeLiberto, Thomas Jude, Diep, Nguyen, Gilbert, Marius, Hill, Sarah Catherine, Ip, Hon H.S., Ke, Chang Wen, Kida, Hiroshi, Killian, Mary Lea, Bodewes, Rogier, Koopmans, Marion Pg G M.P., Kwon, Jung Hoon, Lee, Dong Hun, Lee, Youn Jeong, Lu, Lu, Monne, Isabella, Pasick, John, Pybus, Oliver George, Rambaut, Andrew, Robinson, Timothy P., Pohlmann, Anne, Sakoda, Yoshihiro, Zohari, Siamak, Song, Chang Seon, Swayne, David D.E., Torchetti, Mia Kim, Tsai, Hsiang Jung, Fouchier, Ron A M, Beer, Martin, Woolhouse, Mark Ej, Kuiken, Thijs, Banks, Jill, Bányai, Krisztián, Boni, Maciej M.F., Bouwstra, Ruth, Breed, Andrew A.C., Brown, Ian H., Lycett, Samantha S.J., Chen, Hualan, Dán, Ádám, DeLiberto, Thomas Jude, Diep, Nguyen, Gilbert, Marius, Hill, Sarah Catherine, Ip, Hon H.S., Ke, Chang Wen, Kida, Hiroshi, Killian, Mary Lea, Bodewes, Rogier, Koopmans, Marion Pg G M.P., Kwon, Jung Hoon, Lee, Dong Hun, Lee, Youn Jeong, Lu, Lu, Monne, Isabella, Pasick, John, Pybus, Oliver George, Rambaut, Andrew, Robinson, Timothy P., Pohlmann, Anne, Sakoda, Yoshihiro, Zohari, Siamak, Song, Chang Seon, Swayne, David D.E., Torchetti, Mia Kim, Tsai, Hsiang Jung, Fouchier, Ron A M, Beer, Martin, Woolhouse, Mark Ej, Kuiken, Thijs, Banks, Jill, Bányai, Krisztián, Boni, Maciej M.F., Bouwstra, Ruth, Breed, Andrew A.C., and Brown, Ian H.

Abstract

Avian influenza viruses affect both poultry production and public health. A subtype H5N8 (clade 2.3.4.4) virus, following an outbreak in poultry in South Korea in January 2014, rapidly spread worldwide in 2014-2015. Our analysis of H5N8 viral sequences, epidemiological investigations, waterfowl migration, and poultry trade showed that long-distance migratory birds can play a major role in the global spread of avian influenza viruses. Further, we found that the hemagglutinin of clade 2.3.4.4 virus was remarkably promiscuous, creating reassortants with multiple neuraminidase subtypes. Improving our understanding of the circumpolar circulation of avian influenza viruses in migratory waterfowl will help to provide early warning of threats from avian influenza to poultry, and potentially human, health., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2016

82. Spatiotemporal Analysis of the Genetic Diversity of Seal Influenza A(H10N7) Virus, Northwestern Europe

Author

Schultz-Cherry, S., Bodewes, Rogier, Zohari, Siamak, Krog, Jesper Schak, Hall, Matthew D, Harder, Timm C, Bestebroer, Theo M, van de Bildt, Marco W G, Spronken, Monique I, Larsen, L. E., Siebert, Ursula, Wohlsein, Peter, Puff, Christina, Seehusen, Frauke, Baumgärtner, Wolfgang, Härkönen, Tero, Smits, Saskia L, Herfst, Sander, Osterhaus, Albert D M E, Fouchier, Ron A M, Koopmans, Marion P, Kuiken, Thijs, Schultz-Cherry, S., Bodewes, Rogier, Zohari, Siamak, Krog, Jesper Schak, Hall, Matthew D, Harder, Timm C, Bestebroer, Theo M, van de Bildt, Marco W G, Spronken, Monique I, Larsen, L. E., Siebert, Ursula, Wohlsein, Peter, Puff, Christina, Seehusen, Frauke, Baumgärtner, Wolfgang, Härkönen, Tero, Smits, Saskia L, Herfst, Sander, Osterhaus, Albert D M E, Fouchier, Ron A M, Koopmans, Marion P, and Kuiken, Thijs

Abstract

Influenza A viruses are major pathogens for humans, domestic animals, and wildlife, and these viruses occasionally cross the species barrier. In spring 2014, increased mortality of harbor seals (Phoca vitulina), associated with infection with an influenza A(H10N7) virus, was reported in Sweden and Denmark. Within a few months, this virus spread to seals of the coastal waters of Germany and the Netherlands, causing the death of thousands of animals. Genetic analysis of the hemagglutinin (HA) and neuraminidase (NA) genes of this seal influenza A(H10N7) virus revealed that it was most closely related to various avian influenza A(H10N7) viruses. The collection of samples from infected seals during the course of the outbreak provided a unique opportunity to follow the adaptation of the avian virus to its new seal host. Sequence data for samples collected from 41 different seals from four different countries between April 2014 and January 2015 were obtained by Sanger sequencing and next-generation sequencing to describe the molecular epidemiology of the seal influenza A(H10N7) virus. The majority of sequence variation occurred in the HA gene, and some mutations corresponded to amino acid changes not found in H10 viruses isolated from Eurasian birds. Also, sequence variation in the HA gene was greater at the beginning than at the end of the epidemic, when a number of the mutations observed earlier had been fixed. These results imply that when an avian influenza virus jumps the species barrier from birds to seals, amino acid changes in HA may occur rapidly and are important for virus adaptation to its new mammalian host. Influenza A viruses are major pathogens for humans, domestic animals, and wildlife. In addition to the continuous circulation of influenza A viruses among various host species, cross-species transmission of influenza A viruses occurs occasionally. Wild waterfowl and shorebirds are the main reservoir for most influenza A virus subtypes, and spillover of infl

Published
2016

83. Highly pathogenic avian influenza A(H5N8) outbreaks: protection and management of exposed people in Europe, 2014/15 and 2016

Author

Adlhoch, Cornelia, primary, Brown, Ian H., additional, Angelova, Svetla G., additional, Bálint, Ádám, additional, Bouwstra, Ruth, additional, Buda, Silke, additional, Castrucci, Maria R., additional, Dabrera, Gavin, additional, Dán, Ádám, additional, Grund, Christian, additional, Harder, Timm, additional, van der Hoek, Wim, additional, Krisztalovics, Katalin, additional, Parry-Ford, Frances, additional, Popescu, Rodica, additional, Wallensten, Anders, additional, Zdravkova, Anna, additional, Zohari, Siamak, additional, Tsolova, Svetla, additional, and Penttinen, Pasi, additional

Published
2016
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85. Development and evaluation of a DIVA subunit vaccine against Bluetongue virus serotype 8 in cattle

Author

Anderson, Jenna, Hagglund, Sara, Bréard, Emmanuel, Riou, Mickaël, Zohari, Siamak, Comtet, Loic, Gelineau, Robert, Martin, Guillaume, Olofson, Ann-Sofie, Pringle, John, Blomqvist, Gunilla, Zientara, Stephan, Valarcher, Jean-Francois, Swedish University of Agricultural Sciences (SLU), Virologie UMR1161 (VIRO), Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES)-Institut National de la Recherche Agronomique (INRA)-École nationale vétérinaire d'Alfort (ENVA), Plateforme d'Infectiologie Expérimentale (PFIE - INRA UE 1277), Institut National de la Recherche Agronomique (INRA), Statens Veterinarmedicinska Anstalt (SVA), IDvet, École nationale vétérinaire d'Alfort (ENVA)-Institut National de la Recherche Agronomique (INRA)-Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES), Plateforme d'Infectiologie Expérimentale (PFIE), IDvet [Grabels], and EPIZONE European Research Group (ERG). BEL.

Subjects
[SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, cattle, vaccine, efficacy, [SDV.MP.VIR]Life Sciences [q-bio]/Microbiology and Parasitology/Virology, DIVA, bluetongue
Abstract

Session 3 : Antivirals & Vaccines; The incursion and circulation of more than nine different serotypes of Bluetongue virus (BTV) in central and northern Europe over the past fifteen years has resulted in decreased animal welfare and production losses. Vaccination is crucial for controlling BTV since conventional biosecurity measures have limited impact on vector-borne diseases. However, as current vaccines have no accepted characteristic allowing for the differentiation of infected from vaccinated animals (DIVA), the use of these products impairs sero-epidemiological surveillance and thus a quick return to BTV-free status as well as serological monitoring of vaccine efficacy in the field. Small ruminants show the most severe clinical signs following BTV infection, but cattle are the virus’s main amplifying host and when infected with certain BTV strains, such as BTV-8, they can also display clinical signs. However, protective bovine immune responses against BTV are poorly characterized and there is limited information available about the ability of commercial and experimental vaccines to induce clinical and virological protection against BTV infection in cattle. Our objective was to develop and evaluate the efficacy of a novel DIVA subunit vaccine against BTV-8 in cattle, that later may be developed into a multi-serotype vaccine. We produced recombinant VP2 of BTV-8 and NS1 and NS2 of BTV-2 and formulated the vaccine with the purified proteins and an ISCOM-based adjuvant (SubV). The DIVA characteristic of this vaccine is based on the detection of VP7 antibodies in infected animals, thereby enabling the detection of BTV infection of any serotype. In the first study, we evaluated the immunogenicity of SubV in comparison with a commercial inactivated vaccine against BTV-8. Cows were subcutaneously immunized twice at a 3-weeks interval with SubV (n=5), the commercial vaccine (n=5), or with placebo (n=5). Humoral and cell-mediated immune responses were monitored before each vaccination as well as at 3 and 6 weeks after the second immunization. Both vaccines induced similar serum neutralizing antibody titers and the specific IgG1 antibody responses detected against VP2, NS1, and NS2 were strongest in cows immunized with SubV. Furthermore, serotype cross-reactive humoral and cell-mediated immunological responses to BTV-8 were detected to NS2 and NS1 of BTV-2, respectively. In the second study, calves were immunized twice at a 3-weeks interval with either SubV (n=6) or placebo (n=6), then challenged with BTV-8 three weeks later in a Biosecurity level 3 facility. Whereas controls developed strong viremia and clinical signs of Bluetongue disease including fever, mucosal congestion, and stiffness, vaccinated calves did not show any of these signs and were strongly protected against BTV infection. Preliminary data indicate that vaccinated animals developed very strong serum neutralizing antibody responses following vaccination. Humoral and cellular immunological analyses are ongoing and clinical, virological, and immunological results of both studies will be presented during the meeting. Taken together, these data indicate that our novel subunit DIVA vaccine composed of only three BTV proteins is very effective against BTV-8 infection in cattle, and will also enable serological monitoring of any BTV serotype in circulation in vaccinated populations. Furthermore, the serotype cross-reactivity of NS1 and NS2 suggests that this vaccine may be expanded in the future to target multiple BTV serotypes through the addition of purified recombinant VP2 of other serotypes.

Published
2013

87. Complete genome sequences of lineage III peste des petits ruminants viruses from the Middle East and East Africa

Author

Muniraju, Murali, Munir, Muhammad, Banyard, Ashley C., Ayebazibwe, Chrisostom, Wensman, Jonas, Zohari, Siamak, Berg, Mikael, Parthiban, AravindhBabu R., Mahapatra, Mana, Libeau, Geneviève, Batten, Carrie, Parida, Satya, Muniraju, Murali, Munir, Muhammad, Banyard, Ashley C., Ayebazibwe, Chrisostom, Wensman, Jonas, Zohari, Siamak, Berg, Mikael, Parthiban, AravindhBabu R., Mahapatra, Mana, Libeau, Geneviève, Batten, Carrie, and Parida, Satya

Published
2014

88. Complete Genome Sequences of Lineage III Peste des Petits Ruminants Viruses from the Middle East and East Africa

Author

Muniraju, Murali, primary, Munir, Muhammad, additional, Banyard, Ashley C., additional, Ayebazibwe, Chrisostom, additional, Wensman, Jonas, additional, Zohari, Siamak, additional, Berg, Mikael, additional, Parthiban, AravindhBabu R., additional, Mahapatra, Mana, additional, Libeau, Geneviève, additional, Batten, Carrie, additional, and Parida, Satya, additional

Published
2014
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90. Genetic diversity of Newcastle disease virus in Pakistan:A countrywide perspective

Author

Shabbir, Muhammad Zubair, Zohari, Siamak, Yaqub, Tahir, Nazir, Jawad, Shabbir, Muhammad Abu Bakr, Mukhtar, Nadia, Shafee, Muhammad, Sajid, Muhammad, Anees, Muhammad, Abbas, Muhammad, Khan, Muhammad Tanveer, Ali, Asad Amanat, Ghafoor, Aamir, Ahad, Abdul, Channa, Aijaz Ali, Anjum, Aftab Ahmad, Hussain, Nazeer, Ahmad, Arfan, Goraya, Mohsan Ullah, Iqbal, Zahid, Khan, Sohail Ahmad, Aslam, Hassan Bin, Zehra, Kiran, Sohail, Muhammad Umer, Yaqub, Waseem, Ahmad, Nisar, Berg, Mikael, Munir, Muhammad, Shabbir, Muhammad Zubair, Zohari, Siamak, Yaqub, Tahir, Nazir, Jawad, Shabbir, Muhammad Abu Bakr, Mukhtar, Nadia, Shafee, Muhammad, Sajid, Muhammad, Anees, Muhammad, Abbas, Muhammad, Khan, Muhammad Tanveer, Ali, Asad Amanat, Ghafoor, Aamir, Ahad, Abdul, Channa, Aijaz Ali, Anjum, Aftab Ahmad, Hussain, Nazeer, Ahmad, Arfan, Goraya, Mohsan Ullah, Iqbal, Zahid, Khan, Sohail Ahmad, Aslam, Hassan Bin, Zehra, Kiran, Sohail, Muhammad Umer, Yaqub, Waseem, Ahmad, Nisar, Berg, Mikael, and Munir, Muhammad

Abstract

Background: Newcastle disease (ND) is one of the most deadly diseases of poultry around the globe. The disease is endemic in Pakistan and recurrent outbreaks are being reported regularly in wild captive, rural and commercial poultry flocks. Though, efforts have been made to characterize the causative agent in some of parts of the country, the genetic nature of strains circulating throughout Pakistan is currently lacking. Material and methods. To ascertain the genetics of NDV, 452 blood samples were collected from 113 flocks, originating from all the provinces of Pakistan, showing high mortality (30-80%). The samples represented domesticated poultry (broiler, layer and rural) as well as wild captive birds (pigeons, turkeys, pheasants and peacock). Samples were screened with real-time PCR for both matrix and fusion genes (1792 bp), positive samples were subjected to amplification of full fusion gene and subsequent sequencing and phylogenetic analysis. Results: The deduced amino acid sequence of the fusion protein cleavage site indicated the presence of motif ( 112RK/RQRR↓F117) typical for velogenic strains of NDV. Phylogenetic analysis of hypervariable region of the fusion gene indicated that all the isolates belong to lineage 5 of NDV except isolates collected from Khyber Pakhtunkhwa (KPK) province. A higher resolution of the phylogenetic analysis of lineage 5 showed the distribution of Pakistani NDV strains to 5b. However, the isolates from KPK belonged to lineage 4c; the first report of such lineage from this province. Conclusions: Taken together, data indicated the prevalence of multiple lineages of NDV in different poultry population including wild captive birds. Such understanding is crucial to underpin the nature of circulating strains of NDV, their potential for interspecies transmission and disease diagnosis and control strategies.

Published
2013

91. Genetic diversity of Newcastle disease virus in Pakistan : A countrywide perspective

Author

Shabbir, Muhammad Zubair, Zohari, Siamak, Yaqub, Tahir, Nazir, Jawad, Shabbir, Muhammad Abu Bakr, Mukhtar, Nadia, Shafee, Muhammad, Sajid, Muhammad, Anees, Muhammad, Abbas, Muhammad, Khan, Muhammad Tanveer, Ali, Asad Amanat, Ghafoor, Aamir, Ahad, Abdul, Channa, Aijaz Ali, Anjum, Aftab Ahmad, Hussain, Nazeer, Ahmad, Arfan, Goraya, Mohsan Ullah, Iqbal, Zahid, Khan, Sohail Ahmad, Aslam, Hassan Bin, Zehra, Kiran, Sohail, Muhammad Umer, Yaqub, Waseem, Ahmad, Nisar, Berg, Mikael, Munir, Muhammad, Shabbir, Muhammad Zubair, Zohari, Siamak, Yaqub, Tahir, Nazir, Jawad, Shabbir, Muhammad Abu Bakr, Mukhtar, Nadia, Shafee, Muhammad, Sajid, Muhammad, Anees, Muhammad, Abbas, Muhammad, Khan, Muhammad Tanveer, Ali, Asad Amanat, Ghafoor, Aamir, Ahad, Abdul, Channa, Aijaz Ali, Anjum, Aftab Ahmad, Hussain, Nazeer, Ahmad, Arfan, Goraya, Mohsan Ullah, Iqbal, Zahid, Khan, Sohail Ahmad, Aslam, Hassan Bin, Zehra, Kiran, Sohail, Muhammad Umer, Yaqub, Waseem, Ahmad, Nisar, Berg, Mikael, and Munir, Muhammad

Abstract

Background: Newcastle disease (ND) is one of the most deadly diseases of poultry around the globe. The disease is endemic in Pakistan and recurrent outbreaks are being reported regularly in wild captive, rural and commercial poultry flocks. Though, efforts have been made to characterize the causative agent in some of parts of the country, the genetic nature of strains circulating throughout Pakistan is currently lacking. Material and methods. To ascertain the genetics of NDV, 452 blood samples were collected from 113 flocks, originating from all the provinces of Pakistan, showing high mortality (30-80%). The samples represented domesticated poultry (broiler, layer and rural) as well as wild captive birds (pigeons, turkeys, pheasants and peacock). Samples were screened with real-time PCR for both matrix and fusion genes (1792 bp), positive samples were subjected to amplification of full fusion gene and subsequent sequencing and phylogenetic analysis. Results: The deduced amino acid sequence of the fusion protein cleavage site indicated the presence of motif ( 112RK/RQRR↓F117) typical for velogenic strains of NDV. Phylogenetic analysis of hypervariable region of the fusion gene indicated that all the isolates belong to lineage 5 of NDV except isolates collected from Khyber Pakhtunkhwa (KPK) province. A higher resolution of the phylogenetic analysis of lineage 5 showed the distribution of Pakistani NDV strains to 5b. However, the isolates from KPK belonged to lineage 4c; the first report of such lineage from this province. Conclusions: Taken together, data indicated the prevalence of multiple lineages of NDV in different poultry population including wild captive birds. Such understanding is crucial to underpin the nature of circulating strains of NDV, their potential for interspecies transmission and disease diagnosis and control strategies.

Published
2013

92. Prevalence of avian paramyxovirus type 1 in Mallards during autumn migration in the western Baltic Sea region

Author

Tolf, Conny, Wille, Michelle, Haidar, Ann-Katrin, Avril, Alexis, Zohari, Siamak, Waldenström, Jonas, Tolf, Conny, Wille, Michelle, Haidar, Ann-Katrin, Avril, Alexis, Zohari, Siamak, and Waldenström, Jonas

Abstract

Background: Newcastle disease virus (NDV) is the causative agent of the Newcastle disease, a severe disease in birds associated with substantial economic losses to the poultry industry worldwide. Sweden is situated along the Western European waterfowl flyway and applies a non-vaccination policy combined with directives of immediate euthanisation of NDV infected flocks. During the last decades there have been several outbreaks with NDV in poultry in Sweden. However, less is known about the virus prevalence in the wild bird population including waterfowl, a well-established reservoir of avian paramyxovirus type 1 (APMV-1), the paramyxovirus serotype that include pathogenic NDV. Methods: The survey constituted of 2332 samples from Mallards (Anas platyrhynchos), trapped in the southern part of Sweden during autumn migration in 2010. These samples were screened for APMV-1 by real-time reverse transcription PCR, and viral strains from positive samples were isolated and characterized by sequence analysis of the fusion gene and by phylogenetic analysis. Conclusions: Twenty of these samples were positive for APMV-1, hence a virus prevalence of 0.9% (95% Confidence Interval [95% CI]=0.54%, 1.35%). The highest APMV-1 prevalence was detected in juvenile Mallards sampled in November (n=887, prevalence 1.24% ([95% CI])=0.67%, 2.24%). Sequence analysis and evaluation of phylogenetic relatedness indicated that isolated APMV-1 strains were lentogenic, and phylogenetically most closely related to genotype Ib strains within the clade of class II viruses. The sampling system employed enabled us to follow APMV-1 infections and the shedding of one particular viral strain in one individual bird over several days. Furthermore, combining previous screening results with the APMV-1 detections in this study showed that more than 50% of Mallards that tested positive for APMV-1 RNA were co-infected with influenza A virus.

Published
2013
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93. Double-stranded RNA-induced activation of activating protein-1 promoter is differentially regulated by the non-structural protein 1 of avian influenza A viruses

Author

Munir, Muhammad, Zohari, Siamak, Belák, Sándor, Berg, Mikael, Munir, Muhammad, Zohari, Siamak, Belák, Sándor, and Berg, Mikael

Abstract

Non-structural protein 1 (NS1) of influenza A viruses is a multifunctional protein that antagonizes the host immune response by interfering with several host signaling pathways. Based on putative amino acid sequences, NS1 proteins are categorized into two gene pools, allele A and allele B. Here we identified that allele A NS1 proteins of H6N8 and H4N6 are able to inhibit double-stranded RNA (dsRNA)-induced activating protein-1 (AP-1) promoter in cultured cell lines (human A549 and mink lung cells). Allele B NS1 proteins from corresponding subtypes of influenza A viruses are weak in this inhibition, despite significant levels of expression of each NS1 protein in human A549 cells. Furthermore, the capability to inhibit AP-1 promoter was mapped in the effector domain, since RNA binding domain alone lost its ability to inhibit this promoter activation. Chimeric forms of NS1 protein, composed of either RNA binding domain of allele A or B and effector domain of allele A or B, showed comparable inhibition to that of their wild-type NS1 proteins, or to the effector domain of corresponding NS1 proteins. Both alleles A and B NS1 proteins of H6N8 and H4N6 were expressed to significant levels, and were localized predominantly in the nucleus of human A549 cells. These results underscore the importance of the effector domain in inhibiting AP-1 promoter activation, and the biological function of the effector domain in stabilizing the RNA binding domain. Further, we revealed the versatile nature of NS1 in inhibiting the AP-1 transcription factor, in a manner dependent on allele type. Comprehensive studies, focusing on the molecular mechanisms behind this differential inhibition, may facilitate exploration of the zoonotic and pathogenic potential of influenza A viruses.

Published
2012

94. Genomic and biological characterization of a velogenic Newcastle disease virus isolated from a healthy backyard poultry flock in 2010

Author

Munir, Muhammad, Abbas, Muhammad, Khan, Muhammad, Zohari, Siamak, Berg, Mikael, Munir, Muhammad, Abbas, Muhammad, Khan, Muhammad, Zohari, Siamak, and Berg, Mikael

Abstract

Background: Newcastle disease virus (NDV) causes severe and economically important disease in poultry around the globe. None of NDV strains in Pakistan have been completely characterized and the role of rural poultry in harbouring NDV is unclear. Since they have a very important role for long-term circulation of the virus, samples were collected from apparently healthy backyard poultry (BYP) flocks. These samples were biologically analyzed using mean death time (MDT) and intracerebral pathogenicity index (ICPI), whereas genotypically characterized by the real-time PCRs coupled with sequencing of the complete genome. Findings. Despite of being non-pathogenic for BYP, the isolate exhibited MDT of 49.6 h in embryonated chicken eggs and an ICPI value of 1.5. The F gene based real-time PCR was positive, whereas M-gene based was negative due to substantial changes in the probe-binding site. The entire genome of the isolate was found to be 15192 nucleotides long and encodes for six genes with an order of 3'-NP-P-M-F-HN-L-5'. The F protein cleavage site, an indicative of pathogenicity, was 112RRQKRF 117. Complete genome comparison indicated that the RNA dependent RNA polymerase gene was the most and the phosphoprotein was least conserved gene, among all the genes. The isolate showed an Y526Q substitution in the HN protein, which determines neuraminidase receptor binding and fusion activity of NDV. Phylogenetic analysis, based on F and HN genes, classified this isolate into genotype VII, a predominant genotype responsible for ND outbreaks in Asian countries. However, it clustered well apart from other isolates in this genotype to be considered a new subgenotype (VII-f). Conclusions: These results revealed that this isolate was similar to virulent strains of NDV and was avirulent in BYP either due to resistance of local breeds or due to other factors such as substantial mutations in the HN protein. Furthermore, we have characterized the first isolate of NDV, which could act a

Published
2012

95. Genetic data from avian influenza and avian paramyxoviruses generated by the European network of excellence (EPIZONE) between 2006 and 2011--review and recommendations for surveillance

Author

Dundon, William G, Heidari, Alireza, Fusaro, Alice, Monne, Isabella, Beato, Maria Serena, Cattoli, Giovanni, Koch, Guus, Starick, Elke, Brown, Ian H, Aldous, Elisabeth W, Briand, François-Xavier, Le Gall-Reculé, Ghislaine, Jestin, Véronique, Jørgensen, Poul H, Berg, Mikael, Zohari, Siamak, Metreveli, Giorgi, Munir, Muhammad, Ståhl, Karl, Albina, Emmanuel, Hammoumi, Saliha, Gil, Patricia, de Almeida, Renata Servan, Smietanka, Krzysztof, Domańska-Blicharz, Katarzyna, Minta, Zenon, Van Borm, Steven, van den Berg, Thierry, Martin, Ana Moreno, Barbieri, Ilaria, Capua, Ilaria, EPIZONE Network of Excellence Molecular Epidemiology of AI, Dundon, William G, Heidari, Alireza, Fusaro, Alice, Monne, Isabella, Beato, Maria Serena, Cattoli, Giovanni, Koch, Guus, Starick, Elke, Brown, Ian H, Aldous, Elisabeth W, Briand, François-Xavier, Le Gall-Reculé, Ghislaine, Jestin, Véronique, Jørgensen, Poul H, Berg, Mikael, Zohari, Siamak, Metreveli, Giorgi, Munir, Muhammad, Ståhl, Karl, Albina, Emmanuel, Hammoumi, Saliha, Gil, Patricia, de Almeida, Renata Servan, Smietanka, Krzysztof, Domańska-Blicharz, Katarzyna, Minta, Zenon, Van Borm, Steven, van den Berg, Thierry, Martin, Ana Moreno, Barbieri, Ilaria, Capua, Ilaria, and EPIZONE Network of Excellence Molecular Epidemiology of AI

Abstract

Since 2006, the members of the molecular epidemiological working group of the European "EPIZONE" network of excellence have been generating sequence data on avian influenza and avian paramyxoviruses from both European and African sources in an attempt to more fully understand the circulation and impact of these viruses. This review presents a timely update on the epidemiological situation of these viruses based on sequence data generated during the lifetime of this project in addition to data produced by other groups during the same period. Based on this information and putting it all into a European context, recommendations for continued surveillance of these important viruses within Europe are presented.

Published
2012

99. Simultaneous genotyping of all hemagglutinin and neuraminidase subtypes of avian influenza viruses by use of padlock probes

Author

Gyarmati, Péter, Conze, Tim, Zohari, Siamak, LeBlanc, Neil, Nilsson, Mats, Landegren, Ulf, Banér, Johan, Belák, Sándor, Gyarmati, Péter, Conze, Tim, Zohari, Siamak, LeBlanc, Neil, Nilsson, Mats, Landegren, Ulf, Banér, Johan, and Belák, Sándor

Abstract

A subtyping assay for both the hemagglutinin (HA) and neuraminidase (NA) surface antigens of the avian influenza virus (AIV) has been developed. The method uses padlock probe chemistry combined with a microarray output for detection. The outstanding feature of this assay is its capability to designate both the HA and the NA of an AIV sample from a single reaction mixture. A panel of 77 influenza virus strains was tested representing the entire assortment of the two antigens. One hundred percent (77/77) of the samples tested were identified as AIV, and 97% (75/77) were subtyped correctly in accordance with previous examinations performed by classical diagnostic methods. Testing of heterologous pathogens verified the specificity of the assay. This assay is a convenient and practical tool for the study of AIVs, providing important HA and NA data more rapidly than conventional methods.

Published
2008
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100. Phylogenetic analysis of the non-structural (NS) gene of influenza A viruses isolated from mallards in Northern Europe in 2005

Author

Zohari, Siamak, Gyarmati, Péter, Ejdersund, Anneli, Berglöf, Ulla, Thorén, Peter, Ehrenberg, Maria, Czifra, György, Belák, Sándor, Waldenström, Jonas, Olsen, Björn, Berg, Mikael, Zohari, Siamak, Gyarmati, Péter, Ejdersund, Anneli, Berglöf, Ulla, Thorén, Peter, Ehrenberg, Maria, Czifra, György, Belák, Sándor, Waldenström, Jonas, Olsen, Björn, and Berg, Mikael

Abstract

BACKGROUND: Although the important role of the non-structural 1 (NS) gene of influenza A in virulence of the virus is well established, our knowledge about the extent of variation in the NS gene pool of influenza A viruses in their natural reservoirs in Europe is incomplete. In this study we determined the subtypes and prevalence of influenza A viruses present in mallards in Northern Europe and further analysed the NS gene of these isolates in order to obtain a more detailed knowledge about the genetic variation of NS gene of influenza A virus in their natural hosts. RESULTS: A total number of 45 influenza A viruses of different subtypes were studied. Eleven haemagglutinin- and nine neuraminidase subtypes in twelve combinations were found among the isolated viruses. Each NS gene reported here consisted of 890 nucleotides; there were no deletions or insertions. Phylogenetic analysis clearly shows that two distinct gene pools, corresponding to both NS allele A and B, were present at the same time in the same geographic location in the mallard populations in Northern Europe. A comparison of nucleotide sequences of isolated viruses revealed a substantial number of silent mutations, which results in high degree of homology in amino acid sequences. The degree of variation within the alleles is very low. In our study allele A viruses displays a maximum of 5% amino acid divergence while allele B viruses display only 2% amino acid divergence. All the viruses isolated from mallards in Northern Europe possessed the typical avian ESEV amino acid sequence at the C-terminal end of the NS1 protein. CONCLUSION: Our finding indicates the existence of a large reservoir of different influenza A viruses in mallards population in Northern Europe. Although our phylogenetic analysis clearly shows that two distinct gene pools, corresponding to both NS allele A and B, were present in the mallards populations in Northern Europe, allele B viruses appear to be less common in natural host speci

Published
2008
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