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8. Multimeric single-domain antibody complexes protect against bunyavirus infections

Author

Schreur, P.J.W., Water, S. (Steven) van de, Harmsen, M., Bermudez-Mendez, E., Drabek, D.D. (Dubravka), Grosveld, F.G. (Frank), Wernike, K., Beer, M. (Martin), Aebischer, A., Daramola, O. (Olufunmilayo), Conde, S.R., Brennan, K., Kozub, D., Kristiansen, M.S., Mistry, K.K., Deng, Z.Y., Hellert, J., Guardado-Calvo, P., Rey, F.A., van Keulen, L., Kortekaas, J., Schreur, P.J.W., Water, S. (Steven) van de, Harmsen, M., Bermudez-Mendez, E., Drabek, D.D. (Dubravka), Grosveld, F.G. (Frank), Wernike, K., Beer, M. (Martin), Aebischer, A., Daramola, O. (Olufunmilayo), Conde, S.R., Brennan, K., Kozub, D., Kristiansen, M.S., Mistry, K.K., Deng, Z.Y., Hellert, J., Guardado-Calvo, P., Rey, F.A., van Keulen, L., and Kortekaas, J.

Abstract

The World Health Organization has included three bunyaviruses posing an increasing threat to human health on the Blueprint list of viruses likely to cause major epidemics and for which no, or insufficient countermeasures exist. Here, we describe a broadly applicable strategy, based on llama-derived single-domain antibodies (VHHs), for the development of bunyavirus biotherapeutics. The method was validated using the zoonotic Rift Valley fever virus (RVFV) and Schmallenberg virus (SBV), an emerging pathogen of ruminants, as model pathogens. VHH building blocks were assembled into highly potent neutralizing complexes using bacterial superglue technology. The multimeric complexes were shown to reduce and prevent virus-induced morbidity and mortality in mice upon prophylactic administration. Bispecific molecules engineered to present two different VHHs fused to an Fc domain were further shown to be effective upon therapeutic administration. The presented VHH-based technology holds great promise for the development of bunyavirus antiviral therapies.

Published
2020
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9. Multimeric single-domain antibody complexes protect against bunyavirus infections

Author

Wichgers Schreur, Paul J., Water, S van de, Harmsen, M, Bermúdez-Méndez, E, Drabek, Dubravka, Grosveld, Frank, Wernike, K, Beer, M, Aebischer, A, Daramola, O, Rodriguez Conde, S, Brennan, K, Kozub, D, Kristiansen, SM, Mistry, KK, Deng, Z, Hellert, J, Guardado-Calvo, P, Rey, FA, van Keulen, L, Kortekaas, J, Wichgers Schreur, Paul J., Water, S van de, Harmsen, M, Bermúdez-Méndez, E, Drabek, Dubravka, Grosveld, Frank, Wernike, K, Beer, M, Aebischer, A, Daramola, O, Rodriguez Conde, S, Brennan, K, Kozub, D, Kristiansen, SM, Mistry, KK, Deng, Z, Hellert, J, Guardado-Calvo, P, Rey, FA, van Keulen, L, and Kortekaas, J

Abstract

The World Health Organization has included three bunyaviruses posing an increasing threat to human health on the Blueprint list of viruses likely to cause major epidemics and for which no, or insufficient countermeasures exist. Here, we describe a broadly applicable strategy, based on llama-derived single-domain antibodies (VHHs), for the development of bunyavirus biotherapeutics. The method was validated using the zoonotic Rift Valley fever virus (RVFV) and Schmallenberg virus (SBV), an emerging pathogen of ruminants, as model pathogens. VHH building blocks were assembled into highly potent neutralizing complexes using bacterial superglue technology. The multimeric complexes were shown to reduce and prevent virus-induced morbidity and mortality in mice upon prophylactic administration. Bispecific molecules engineered to present two different VHHs fused to an Fc domain were further shown to be effective upon therapeutic administration. The presented VHH-based technology holds great promise for the development of bunyavirus antiviral therapies.

Published
2020

12. Bunyamwera Virus Glycoprotein Gc Head Domain

Author

Hellert, J., primary, Aebischer, A., additional, Wernike, K., additional, Haouz, A., additional, Brocchi, E., additional, Reiche, S., additional, Guardado-Calvo, P., additional, Beer, M., additional, and Rey, F.A., additional

Published
2019
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14. La Crosse Virus Glycoprotein Gc Head Domain

Author

Hellert, J., primary, Aebischer, A., additional, Wernike, K., additional, Haouz, A., additional, Brocchi, E., additional, Reiche, S., additional, Guardado-Calvo, P., additional, Beer, M., additional, and Rey, F.A., additional

Published
2019
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15. Oropouche Virus Glycoprotein Gc Head Domain

Author

Hellert, J., primary, Aebischer, A., additional, Wernike, K., additional, Haouz, A., additional, Brocchi, E., additional, Reiche, S., additional, Guardado-Calvo, P., additional, Beer, M., additional, and Rey, F.A., additional

Published
2019
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16. Schmallenberg virus infection

Author

Wernike, K., Elbers, A.R.W., and Beer, M.

Subjects
Europe, Orthobunyavirus, Culicoides midge, Diagnostiek & Crisisorganisatie, Ruminant, Bunyaviridae, Teratogenic, Diagnostics & Crisis Organization
Abstract

Since Schmallenberg virus, an orthobunyavirus of the Simbu serogroup, was identified near the German-Dutch border for the first time in late 2011 it has spread extremely quickly and caused a large epidemic in European livestock. The virus, which is transmitted by Culicoides biting midges, infects domestic and wild ruminants. Adult animals show only mild clinical symptoms or none at all, whereas an infection during a critical period of gestation can lead to abortion, stillbirth or the birth of severely malformed offspring. The impact of the disease is usually greater in sheep than in cattle. Vaccination could be an important aspect of disease control

Published
2015

20. Circulation of a Simbu Serogroup Virus, Causing Schmallenberg Virus-Like Clinical Signs in Northern Jordan.

Author

Abutarbush, S. M., La Rocca, A., Wernike, K., Beer, M., AL Zuraikat, K., Al Sheyab, O. M., Talafha, A. Q., and Steinbach, F.

Subjects
SIMBU virus, SCHMALLENBERG virus, NEUTRALIZATION (Chemistry)
Abstract

Schmallenberg virus (SBV)-like clinical cases of abortions in northern Jordan in early 2013, together with the emergence of SBV in Europe in 2011, its rapid spread within the following years and the detection of this virus in Turkey, raised questions about the distribution of SBV or related orthobunyaviruses. To evaluate the occurrence of SBV or related members of the Simbu serogroup of orthobunyaviruses in Jordan, bulk milk (cattle) and serum samples (cattle, sheep and goat) collected in northern Jordan in 2013 were first tested by commercially available SBV antibody ELISAs. Indeed, 3 of 47 bulk milk samples and 57 of 115 serum samples provided positive results, but SBV specificity of the ELISA results could not be confirmed by virus neutralization assays. Instead, subsequent cross-neutralization tests were able to further investigate the specificity of these antibodies. Here, a significant inhibition of Aino virus was observed. Thus, the causative agent was most likely a Simbu serogroup virus closely related to Aino virus. Consequently, these results confirm that members of this group of virus are not only present in Europe, Africa or Australia, but also in the Middle East. [ABSTRACT FROM AUTHOR]

Published
2017
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21. A Step Forward in Molecular Diagnostics of Lyssaviruses – Results of a Ring Trial among European Laboratories

Author

Fischer, M., Wernike, K., Freuling, C.M., Müller, T., Aylan, O., Brochier, B., Cliquet, F., Vázquez-Morón, S., Hostnik, P., Huovilainen, A., Isaksson, M., Kooi, E.A., Fischer, M., Wernike, K., Freuling, C.M., Müller, T., Aylan, O., Brochier, B., Cliquet, F., Vázquez-Morón, S., Hostnik, P., Huovilainen, A., Isaksson, M., and Kooi, E.A.

Abstract

Rabies is a lethal and notifiable zoonotic disease for which diagnostics have to meet the highest standards. In recent years, an evolution was especially seen in molecular diagnostics with a wide variety of different detection methods published. Therefore, a first international ring trial specifically designed on the use of reverse transcription polymerase chain reaction (RT-PCR) for detection of lyssavirus genomic RNA was organized. The trial focussed on assessment and comparison of the performance of conventional and real-time assays. In total, 16 European laboratories participated. All participants were asked to investigate a panel of defined lyssavirus RNAs, consisting of Rabies virus (RABV) and European bat lyssavirus 1 and 2 (EBLV-1 and -2) RNA samples, with systems available in their laboratory. The ring trial allowed the important conclusion that conventional RT-PCR assays were really robust assays tested with a high concordance between different laboratories and assays. The real-time RT-PCR system by Wakeley et al. (2005) in combination with an intercalating dye, and the combined version by Hoffmann and co-workers (2010) showed good sensitivity for the detection of all RABV samples included in this test panel. Furthermore, all used EBLV-specific assays, real-time RT-PCRs as well as conventional RT-PCR systems, were shown to be suitable for a reliable detection of EBLVs. It has to be mentioned that differences were seen in the performance between both the individual RT-PCR systems and the laboratories. Laboratories which used more than one molecular assay for testing the sample panel always concluded a correct sample result. Due to the markedly high genetic diversity of lyssaviruses, the application of different assays in diagnostics is needed to achieve a maximum of diagnostic accuracy. To improve the knowledge about the diagnostic performance proficiency testing at an international level is recommended before using lyssavirus molecular diagnostics e.g. for

Published
2013

23. Schmallenberg virus challenge models in cattle: infectious serum or culture-grown virus?

Author

Wernike Kerstin, Eschbaumer Michael, Breithaupt Angele, Hoffmann Bernd, and Beer Martin

Subjects
Veterinary medicine, SF600-1100
Abstract

Abstract Schmallenberg virus (SBV), discovered in Europe in 2011, causes mild transient disease in adult ruminants, but fetal infection can lead to severe malformation in cattle, sheep and goats. To elucidate the pathogenesis of this novel orthobunyavirus, considerable efforts are required. A reliable and standardized infection model is essential for in vivo studies. In the present study, two groups of four cattle were inoculated with either serum passaged in cattle only or cell culture-grown virus. The replication of culture-grown SBV in cattle was reduced compared to virus inoculated via infectious serum. In a second experiment, the infectious serum was titrated in calves; the tested batch contained 102.83 infectious doses per mL. Hence, serum-borne virus that was only passaged in the natural host is a suitable option for a standardized SBV infection model.

Published
2012
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24. Extensive Schmallenberg virus circulation in Germany, 2023.

Author

Wernike K, Fischer L, Twietmeyer S, and Beer M

Subjects
Animals, Germany epidemiology, Seroepidemiologic Studies, Ruminants virology, Ceratopogonidae virology, Ceratopogonidae physiology, Seasons, Antibodies, Viral blood, Orthobunyavirus physiology, Bunyaviridae Infections veterinary, Bunyaviridae Infections epidemiology, Bunyaviridae Infections virology
Abstract

Schmallenberg virus (SBV) and bluetongue virus (BTV) are both transmitted by Culicoides biting midges and infect predominantly ruminants. To investigate the extent of virus spread in the 2022 and 2023 vector seasons, we serologically tested wild ruminants from western Germany. While antibodies against BTV were not detected in any animal, regardless of age or sampling time, numerous wild ruminants tested positive for antibodies to SBV. In 2022, a low seroprevalence of 4.92% was measured. In sharp contrast, 40.15% of the animals tested positive in 2023. Of the young animals, about 31.82% were seropositive, clearly indicating large-scale SBV circulation in summer and autumn 2023., (© 2024. The Author(s).)

Published
2024
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25. SARS-CoV-2 and Other Coronaviruses in Rats, Berlin, Germany, 2023.

Author

Wernike K, Mehl C, Aebischer A, Ulrich L, Heising M, Ulrich RG, and Beer M

Subjects
Animals, Rats, Berlin epidemiology, Antibodies, Viral blood, Antibodies, Viral immunology, Humans, Germany epidemiology, Coronavirus genetics, Coronavirus classification, Zoonoses virology, SARS-CoV-2 genetics, COVID-19 epidemiology, COVID-19 virology
Abstract

We tested 130 rats captured in Berlin for coronaviruses. SARS-CoV-2 antibodies were detected in 1 rat, but all animals were negative by reverse transcription PCR, suggesting SARS-CoV-2 was not circulating in the rat population. However, alphacoronaviruses were found. Monitoring rodent populations helps to determine coronavirus occurrence, transmission, and zoonotic potential.

Published
2024
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26. Investigations on the Potential Role of Free-Ranging Wildlife as a Reservoir of SARS-CoV-2 in Switzerland.

Author

Kuhn J, Marti I, Ryser-Degiorgis MP, Wernike K, Jones S, Tyson G, Delalay G, Scherrer P, Borel S, Hosie MJ, Kipar A, Kuhlmeier E, Chan T, Hofmann-Lehmann R, and Meli ML

Subjects
Animals, Switzerland epidemiology, Foxes virology, Antibodies, Neutralizing blood, Antibodies, Neutralizing immunology, Neutralization Tests, Viral Load, Humans, Lynx virology, Animals, Wild virology, COVID-19 veterinary, COVID-19 epidemiology, COVID-19 virology, COVID-19 transmission, SARS-CoV-2 immunology, SARS-CoV-2 genetics, Disease Reservoirs virology, Disease Reservoirs veterinary, Antibodies, Viral blood
Abstract

Amid the SARS-CoV-2 pandemic, concerns surfaced regarding the spread of the virus to wildlife. Switzerland lacked data concerning the exposure of free-ranging animals to SARS-CoV-2 during this period. This study aimed to investigate the potential exposure of Swiss free-ranging wildlife to SARS-CoV-2. From 2020 to 2023, opportunistically collected samples from 712 shot or found dead wild mustelids (64 European stone and pine martens, 13 European badgers, 10 European polecats), canids (449 red foxes, 41 gray wolves, one golden jackal) and felids (56 Eurasian lynx, 18 European wildcats), as well as from 45 captured animals (39 Eurasian lynx, 6 European wildcats) were tested. A multi-step serological approach detecting antibodies to the spike protein receptor binding domain (RBD) and N-terminal S1 subunit followed by surrogate virus neutralization (sVNT) and pseudotype-based virus neutralization assays against different SARS-CoV-2 variants was performed. Additionally, viral RNA loads were quantified in lung tissues and in oronasal, oropharyngeal, and rectal swabs by reverse transcription polymerase chain reactions (RT-qPCRs). Serologically, SARS-CoV-2 exposure was confirmed in 14 free-ranging Swiss red foxes (prevalence 3.1%, 95% CI: 1.9-5.2%), two Eurasian lynx (2.2%, 95% CI: 0.6-7.7%), and one European wildcat (4.2%, 95% CI: 0.2-20.2%). Two positive foxes exhibited neutralization activity against the BA.2 and BA.1 Omicron variants. No active infection (viral RNA) was detected in any animal tested. This is the first report of SARS-CoV-2 antibodies in free-ranging red foxes, Eurasian lynx, and European wildcats worldwide. It confirms the spread of SARS-CoV-2 to free-ranging wildlife in Switzerland but does not provide evidence of reservoir formation. Our results underscore the susceptibility of wildlife populations to SARS-CoV-2 and the importance of understanding diseases in a One Health Concept.

Published
2024
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27. No evidence of spread of Linda pestivirus in the wild boar population in Southern Germany.

Author

Schulz D, Aebischer A, Wernike K, and Beer M

Subjects
Animals, Germany epidemiology, Swine, Neutralization Tests, Pestivirus Infections veterinary, Pestivirus Infections epidemiology, Pestivirus Infections virology, Sus scrofa virology, Antibodies, Viral blood, Pestivirus genetics, Pestivirus isolation & purification, Swine Diseases virology, Swine Diseases epidemiology, Antibodies, Neutralizing blood
Abstract

Lateral-shaking inducing neuro-degenerative agent virus (LindaV) is a novel member of the highly diverse genus Pestivirus within the family Flaviviridae. LindaV was first detected in Austria in 2015 and was associated with congenital tremor in piglets. Since then, the virus or specific antibodies have been found in a few further pig farms in Austria. However, the actual spatial distribution and the existence of reservoir hosts is largely unknown. Since other pestiviruses of pigs such as classical swine fever virus or atypical porcine pestivirus can also infect wild boar, the question arises whether LindaV is likewise present in the wild boar population. Therefore, we investigated the presence of neutralizing antibodies against LindaV in 200 wild boar samples collected in Southern Germany, which borders Austria. To establish a serological test system, we made use of the interchangeability of the surface glycoproteins and created a chimeric pestivirus using Bungowannah virus (species Pestivirus australiaense) as synthetic backbone. The E1 and E2 glycoproteins were replaced by the heterologous E1 and E2 of LindaV resulting in the chimera BV_E1E2_LV. Viable virus could be rescued and was subsequently applied in a neutralization test. A specific positive control serum generated against the E2 protein of LindaV gave a strong positive result, thereby confirming the functionality of the test system. All wild boar samples, however, tested negative. Hence, there is no evidence that LindaV has become highly prevalent in the wild boar population in Southern Germany., (© 2024. The Author(s).)

Published
2024
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28. Novel Pestiviruses Detected in Cattle Interfere with Bovine Viral Diarrhea Virus Diagnostics.

Author

Köster J, Schneider K, Höper D, Salditt A, Beer M, Miller T, and Wernike K

Subjects
Animals, Cattle, Germany epidemiology, Phylogeny, Seroepidemiologic Studies, Antibodies, Viral blood, Pestivirus Infections veterinary, Pestivirus Infections virology, Pestivirus Infections diagnosis, Genome, Viral, Sheep, Cross Reactions, Bovine Virus Diarrhea-Mucosal Disease diagnosis, Bovine Virus Diarrhea-Mucosal Disease virology, Diarrhea Viruses, Bovine Viral genetics, Diarrhea Viruses, Bovine Viral isolation & purification, Pestivirus genetics, Pestivirus isolation & purification, Pestivirus classification
Abstract

Since the start of the mandatory nationwide bovine viral diarrhea (BVD) eradication program in Germany in 2011, the number of persistently infected (PI) animals has decreased considerably, resulting in a continuous decrease in seroprevalence. The increasingly BVD-naive cattle population could facilitate spillover infections with non-BVDV ruminant pestiviruses. Here, we report two cases in which novel pestiviruses were isolated from cattle; in both cases, the whole genome sequence showed the highest level of identity to strain "Pestivirus reindeer-1". Both novel viruses gave positive results in BVDV diagnostic test systems, confirming that cross-reactivity is an important issue in pestivirus diagnostics. In the first case, the pestivirus was probably transmitted from sheep kept with the affected cattle, suggesting that the co-housing of small ruminants and cattle is a risk factor. The source of infection could not be determined in the second case. The occurrence of these two cases in independent cattle holdings within a relatively short time frame suggests that it would be useful to determine the presence of pestiviruses in small ruminants or even wild ruminants to better assess risk factors, especially for BVDV-free populations.

Published
2024
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29. Bluetongue Virus Serotype 3 and Schmallenberg Virus in Culicoides Biting Midges, Western Germany, 2023.

Author

Voigt A, Kampen H, Heuser E, Zeiske S, Hoffmann B, Höper D, Holsteg M, Sick F, Ziegler S, Wernike K, Beer M, and Werner D

Subjects
Animals, Germany epidemiology, Ceratopogonidae virology, Ceratopogonidae classification, Bluetongue virus classification, Bluetongue virus isolation & purification, Orthobunyavirus classification, Orthobunyavirus genetics, Orthobunyavirus isolation & purification, Serogroup, Bluetongue virology, Bluetongue epidemiology, Bluetongue transmission, Bunyaviridae Infections veterinary, Bunyaviridae Infections virology, Bunyaviridae Infections transmission, Bunyaviridae Infections epidemiology, Insect Vectors virology
Abstract

In October 2023, bluetongue virus serotype 3 (BTV-3) emerged in Germany, where Schmallenberg virus is enzootic. We detected BTV-3 in 1 pool of Culicoides biting midges collected at the time ruminant infections were reported. Schmallenberg virus was found in many vector pools. Vector trapping and analysis could elucidate viral spread.

Published
2024
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30. Characterization of a natural 'dead-end' variant of Schmallenberg virus.

Author

Sick F, Zeiske S, Beer M, and Wernike K

Subjects
Animals, Cricetinae, Cell Line, Virus Replication, Point Mutation, Cattle, Sheep, Phylogeny, RNA, Viral genetics, Orthobunyavirus genetics, Orthobunyavirus classification, Orthobunyavirus isolation & purification, Bunyaviridae Infections virology, Bunyaviridae Infections veterinary, Ceratopogonidae virology, Genome, Viral
Abstract

Schmallenberg virus (SBV) belongs to the Simbu serogroup within the family Peribunyaviridae , genus Orthobunyavirus and is transmitted by Culicoides biting midges. Infection of naïve ruminants in a critical phase of gestation may lead to severe congenital malformations. Sequence analysis from viremic animals revealed a very high genome stability. In contrast, sequence variations are frequently described for SBV from malformed fetuses. In addition to S segment mutations, especially within the M segment encoding the major immunogen Gc, point mutations or genomic deletions are also observed. Analysis of the SBV_D281/12 isolate from a malformed fetus revealed multiple point mutations in all three genome segments. It also has a large genomic deletion in the antigenic domain encoded by the M segment compared to the original SBV reference strain 'BH80/11' isolated from viremic blood in 2011. Interestingly, SBV_D281/12 showed a marked replication deficiency in vitro in Culicoides sonorensis cells (KC cells), but not in standard baby hamster kidney cells (BHK-21). We therefore generated a set of chimeric viruses of rSBV_D281/12 and wild-type rSBV_BH80/11 by reverse genetics, which were characterized in both KC and BHK-21 cells. It could be shown that the S segment of SBV_D281/12 is responsible for the replication deficit and that it acts independently from the large deletion within Gc. In addition, a single point mutation at position 111 (S to N) of the nucleoprotein was identified as the critical mutation. Our results suggest that virus variants found in malformed fetuses and carrying characteristic genomic mutations may have a clear 'loss of fitness' for their insect hosts in vitro . It can also be concluded that such mutations lead to virus variants that are no longer part of the natural transmission cycle between mammalian and insect hosts. Interestingly, analysis of a series of SBV sequences confirmed the S111N mutation exclusively in samples of malformed fetuses and not in blood from viremic animals. The characterization of these changes will allow the definition of protein functions that are critical for only one group of hosts.

Published
2024
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31. SARS-CoV and SARS-CoV -2 cross-reactive antibodies in domestic animals and wildlife in Nigeria suggest circulation of sarbecoviruses.

Author

Agusi ER, Schön J, Allendorf V, Eze EA, Asala O, Shittu I, Balkema-Buschmann A, Wernike K, Tekki I, Ofua M, Adefegha O, Olubade O, Ogunmolawa O, Dietze K, Globig A, Hoffmann D, and Meseko CA

Abstract

Anthropogenic exposure of domestic animals, as well as wildlife, can result in zoonotic transmission events with known and unknown pathogens including sarbecoviruses. During the COVID-19 pandemic, SARS-CoV-2 infections in animals, most likely resulting from spill-over from humans, have been documented worldwide. However, only limited information is available for Africa. The anthropozoonotic transmission from humans to animals, followed by further inter- and intraspecies propagation may contribute to viral evolution, and thereby subsequently alter the epidemiological patterns of transmission. To shed light on the possible role of domestic animals and wildlife in the ecology and epidemiology of sarbecoviruses in Nigeria, and to analyze the possible circulation of other, undiscovered, but potentially zoonotic sarbecoviruses in animals, we tested 504 serum samples from dogs, rabbits, bats, and pangolins collected between December 2020 and April 2022. The samples were analyzed using an indirect multi-species enzyme-linked immunosorbent assay (ELISA) based on the receptor binding domain (RBD) of SARS-CoV and SARS-CoV -2, respectively. ELISA reactive sera were further analyzed by highly specific virus neutralization test and indirect immunofluorescence assay for confirmation of the presence of antibodies. In this study, we found SARS-CoV reactive antibodies in 16 (11.5%) dogs, 7 (2.97%) rabbits, 2 (7.7%) pangolins and SARS-CoV-2 reactive antibodies in 20 (13.4%) dogs, 6 (2.5%) rabbits and 2 (7.7%) pangolins, respectively. Interestingly, 2 (2.3%) bat samples were positive only for SARS-CoV RBD reactive antibodies. These serological findings of SARS-CoV and/or SARS-CoV-2 infections in both domestic animals and wildlife indicates exposure to sarbecoviruses and requires further One Health-oriented research on the potential reservoir role that different species might play in the ecology and epidemiology of coronaviruses at the human-animal interface., Competing Interests: The authors declare no competing interest., (© 2024 The Authors.)

Published
2024
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32. Comparison of bovine viral diarrhea virus detection methods: Results of an international proficiency trial.

Author

Wernike K and Beer M

Subjects
Animals, Cattle, Antibodies, Viral, Diarrhea veterinary, Enzyme-Linked Immunosorbent Assay veterinary, Enzyme-Linked Immunosorbent Assay methods, Sheep, Sheep, Domestic, Border disease virus, Bovine Virus Diarrhea-Mucosal Disease, Cattle Diseases, Diarrhea Virus 1, Bovine Viral, Diarrhea Viruses, Bovine Viral, Pestivirus, Sheep Diseases
Abstract

Bovine viral diarrhea virus (BVDV), one of the most important infectious cattle diseases globally, is being combated in multiple countries. The main source for virus transmission within herds and especially to unaffected cattle farms are life-long persistently infected (PI), immunotolerant animals. Therefore, the early identification of PI calves is a major pillar of disease control programs. In addition, rapid and reliable virus identification is necessary to confirm the causative agent in acute clinical cases. Here, we initiated an international interlaboratory proficiency trial in order to evaluate BVDV detection methods. Four ear notch samples and four sera were provided to the participating veterinary diagnostic laboratories (n = 40). Two of the ear notches and two sera contained BVDV and two ear notches and one serum were negative for pestiviruses. The remaining serum was positive for the ovine border disease virus (BDV). The sample panel was analyzed by an E RNS -based ELISA for antigen detection, diverse real-time RT-PCR (RT-qPCR) assays and/or virus isolation. Occasionally, additional typing of the virus strains was performed by sequencing or specific antibody staining of the obtained cell culture isolates. While the antigen ELISA allowed reliable BVDV diagnostics, infectious virus could be isolated only in just under half of the attempts (43.33%). RT-qPCR enabled the sensitive detection of pestiviruses, though an impact of the extraction method on the resulting quantification cycle values was observed. In general, subsequent typing of the detected virus strains is required to differentiate BVDV from BDV infections. In conclusion, for BVDV identification in clinical cases or in the context of disease control, RT-qPCR methods or E RNS antigen ELISAs should be preferentially used., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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33. Serological and Molecular Investigation of SARS-CoV-2 in Horses and Cattle in Switzerland from 2020 to 2022.

Author

Hüttl J, Reitt K, Meli ML, Meili T, Bönzli E, Pineroli B, Ginders J, Schoster A, Jones S, Tyson GB, Hosie MJ, Pusterla N, Wernike K, and Hofmann-Lehmann R

Subjects
Animals, Cattle, Horses, Switzerland epidemiology, RNA, Viral, Antibodies, Neutralizing, Antibodies, Viral, SARS-CoV-2 genetics, COVID-19 diagnosis, COVID-19 epidemiology, COVID-19 veterinary
Abstract

Horses and cattle have shown low susceptibility to SARS-CoV-2, and there is no evidence of experimental intraspecies transmission. Nonetheless, seropositive horses in the US and seropositive cattle in Germany and Italy have been reported. The current study investigated the prevalence of antibodies against SARS-CoV-2 in horses and cattle in Switzerland. In total, 1940 serum and plasma samples from 1110 horses and 830 cattle were screened with a species-specific ELISA based on the SARS-CoV-2 receptor-binding domain (RBD) and, in the case of suspect positive results, a surrogate virus neutralization test (sVNT) was used to demonstrate the neutralizing activity of the antibodies. Further confirmation of suspect positive samples was performed using either a pseudotype-based virus neutralization assay (PVNA; horses) or an indirect immunofluorescence test (IFA; cattle). The animals were sampled between February 2020 and December 2022. Additionally, in total, 486 bronchoalveolar lavage (BAL), oropharyngeal, nasal and rectal swab samples from horses and cattle were analyzed for the presence of SARS-CoV-2 RNA via reverse transcriptase quantitative polymerase chain reaction (RT-qPCR). Six horses (0.5%; 95% CI: 0.2-1.2%) were suspect positive via RBD-ELISA, and neutralizing antibodies were detected in two of them via confirmatory sVNT and PVNA tests. In the PVNA, the highest titers were measured against the Alpha and Delta SARS-CoV-2 variants. Fifteen cattle (1.8%; 95% CI: 1.0-3.0%) were suspect positive in RBD-ELISA; 3 of them had SARS-CoV-2-specific neutralizing antibodies in sVNT and 4 of the 15 were confirmed to be positive via IFA. All tested samples were RT-qPCR-negative. The results support the hypotheses that the prevalence of SARS-CoV-2 infections in horses and cattle in Switzerland was low up to the end of 2022.

Published
2024
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34. "Fading out" - genomic epidemiology of the last persistently infected BVDV cattle in Germany.

Author

Wernike K, Pfaff F, and Beer M

Abstract

Bovine viral diarrhea virus (BVDV) is one of the most important cattle pathogens worldwide, causing major economic losses and animal welfare issues. Disease eradication programs have been implemented in several countries, including Germany where an obligatory nationwide control program is in force since 2011. As molecular epidemiology has become an essential tool to understand the transmission dynamics and evolution of BVDV, 5' untranslated region (UTR) sequences are generated from viruses present in persistently infected animals since the beginning of the BVDV control program. Here, we report the results of the sequence-based subtyping of BVDV strains found from 2018 through 2022 in calves born in Germany. In 2018, 2019 and 2020, BVDV-1d and-1b were the dominant subtypes and cases were spread throughout the area that was not yet officially declared BVDV-free at that time. In addition, BVDV-1a, -1e, -1f and -1h could rarely be detected. From 2021 onwards, subtype 1d clearly took over the dominance, while the other subtypes could be gradually nearly eliminated from the cattle population. The eradication success not only results in a drastic reduction of cases, but also in a marked reduction of strain diversity. Interestingly, before vaccination has been banned in regions and farms with a disease-free status, two live-vaccine virus strains were repeatedly detected in ear tissue samples of newborn calves ( n  = 14) whose mothers were immunized during gestation. The field-virus sequences are an important basis for molecular tracing and identification of potential relationships between the last outbreaks in the final phase of the German BVDV eradication program, thereby supporting classic epidemiological investigations. Furthermore, the monitoring of the composition of virus subtypes in the cattle population helps to maintain effective diagnostic methods and control measures and is an early warning system for the introduction of new pestiviruses in the naïve cattle population., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Wernike, Pfaff and Beer.)

Published
2024
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35. More than a decade of research on Schmallenberg virus-Knowns and unknowns.

Author

Wernike K and Beer M

Subjects
Animals, Insect Vectors virology, Ruminants virology, Bunyaviridae Infections virology, Bunyaviridae Infections veterinary, Bunyaviridae Infections transmission, Ceratopogonidae virology, Orthobunyavirus genetics, Orthobunyavirus pathogenicity
Abstract

Schmallenberg virus, an arbovirus of the Orthobunyavirus genus that primarily infects ruminants, emerged in 2011 near the Dutch-German border region and subsequently caused a large number of abortions and the births of severely malformed newborns in the European livestock population. Immediate intensive research led to the development of reliable diagnostic tests, the identification of competent Culicoides vector species, and the elucidation of the pathogenesis in infected vertebrate hosts. In addition, the structure of the major antigenic domain has been elucidated in great detail, leading to the development of effective marker vaccine candidates. The knowledge gained over the last decade on the biology and pathogenesis of SBV and the experience acquired in its control will be of great value in the future for the control of any similar emerging pathogen of veterinary or public health importance such as Shuni or Oropouche virus. However, some important knowledge gaps remain, for example, the factors contributing to the highly variable transmission rate from dam to fetus or the viral factors responsible for the vector competence of Culicoides midges are largely unknown. Thus, questions still remain for the next decade of research on SBV and related viruses., (Copyright © 2024 Elsevier Inc. All rights are reserved, including those for text and data mining, AI training, and similar technologies.)

Published
2024
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36. Characterization of young and aged ferrets as animal models for SARS-CoV-2 infection with focus on neutrophil extracellular traps.

Author

Pilchová V, Gerhauser I, Armando F, Wirz K, Schreiner T, de Buhr N, Gabriel G, Wernike K, Hoffmann D, Beer M, Baumgärtner W, von Köckritz-Blickwede M, and Schulz C

Subjects
Animals, Female, SARS-CoV-2, Ferrets, Disease Models, Animal, Deoxyribonucleases, COVID-19, Extracellular Traps, Cell-Free Nucleic Acids
Abstract

Neutrophil extracellular traps (NETs) are net-like structures released by activated neutrophils upon infection [e.g., severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)] as part of the innate immune response that have protective effects by pathogen entrapment and immobilization or result in detrimental consequences for the host due to the massive release of NETs and their impaired degradation by nucleases like DNase-1. Higher amounts of NETs are associated with coronavirus disease 2019 (COVID-19) severity and are a risk factor for severe disease outcome. The objective of our study was to investigate NET formation in young versus aged ferrets to evaluate their value as translational model for SARS-CoV-2-infection and to correlate different NET markers and virological parameters. In each of the two groups (young and aged), nine female ferrets were intratracheally infected with 1 mL of 10 6 TCID 50 /mL SARS-CoV-2 (BavPat1/2020) and euthanized at 4, 7, or 21 days post-infection. Three animals per group served as negative controls. Significantly more infectious virus and viral RNA was found in the upper respiratory tract of aged ferrets. Interestingly, cell-free DNA and DNase-1 activity was generally higher in bronchoalveolar lavage fluid (BALF) but significantly lower in serum of aged compared to young ferrets. In accordance with these data, immunofluorescence microscopy revealed significantly more NETs in lungs of aged compared to young infected ferrets. The association of SARS-CoV-2-antigen in the respiratory mucosa and NET markers in the nasal conchae, but the absence of virus antigen in the lungs, confirms the nasal epithelium as the major location for virus replication as described for young ferrets. Furthermore, a strong positive correlation was found between virus shedding and cell-free DNA or the level of DNAse-1 activity in aged ferrets. Despite the increased NET formation in infected lungs of aged ferrets, the animals did not show a strong NET phenotype and correlation among tested NET markers. Therefore, ferrets are of limited use to study SARS-CoV-2 pathogenesis associated with NET formation. Nevertheless, the mild to moderate clinical signs, virus shedding pattern, and the lung pathology of aged ferrets confirm those animals as a relevant model to study age-dependent COVID-19 pathogenesis., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Pilchová, Gerhauser, Armando, Wirz, Schreiner, de Buhr, Gabriel, Wernike, Hoffmann, Beer, Baumgärtner, von Köckritz-Blickwede and Schulz.)

Published
2023
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37. Animals Experimentally Infected with SARS-CoV-2 Generate Functional Autoantibodies against G-Protein-Coupled Receptors.

Author

Wallukat G, Wernike K, Bachamanda Somesh D, Mettenleiter TC, and Müller J

Abstract

(1) Background: SARS-CoV-2 infection has been linked to diverse clinical manifestations in humans, including cardiovascular complications. Functional autoantibodies targeting G-protein-coupled receptors have emerged as potential contributors to these effects. This study sought to investigate the production and activity of functional autoantibodies targeting G-protein-coupled receptors after SARS-CoV-2 infection of selected animal species. (2) Methods: The presence of functional autoantibodies such as 2-adrenoceptor, angiotensin II AT1 receptor, muscarinic M2 receptor, and angiotensin 1-7 MAS receptor was assessed in cattle and ferrets experimentally infected with SARS-CoV-2. Bioassays were conducted to evaluate the positive or negative chronotropic responses induced by these autoantibodies. Further experiments identified the extracellular domains to which the functional autoantibodies bind, and receptor antagonists were employed to block the induced responses. (3) Results: Only two out of six cattle that were inoculated with SARS-CoV-2 displayed viral replication and tested positive for functional autoantibodies against G-protein-coupled receptors. These functional autoantibodies specifically recognized β2-adrenoceptor, angiotensin II AT1 receptor, muscarinic M2 receptor, and angiotensin 1-7 MAS receptor and induced distinct positive and negative chronotropic effects in the bioassay. Infected ferrets generated functional autoantibodies against β2-adrenoceptor and muscarinic M2 receptor and presented bioactivity similar to that in cattle. (4) Conclusions: This study uncovers functional autoantibodies targeting G-protein-coupled receptors in cattle and ferrets post-SARS-CoV-2 infection, with implications for cardiovascular function.

Published
2023
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38. Hefer valley virus: a novel ephemerovirus detected in the blood of a cow with severe clinical signs in Israel in 2022.

Author

Golender N, Klement E, Ofer L, Hoffmann B, Wernike K, Beer M, and Pfaff F

Subjects
Female, Cattle, Animals, Israel epidemiology, Environment, Ephemerovirus
Abstract

A novel ephemerovirus was identified in a Holstein-Friesian cow in the Hefer Valley, Israel, that showed severe and fatal clinical signs resembling an arboviral infection. A sample taken during the acute phase tested negative for important endemic arboviral infectious cattle diseases. However, sequencing from blood revealed the full genome sequence of Hefer Valley virus, which is likely to represent a new species within the genus Ephemerovirus, family Rhabdoviridae. Archived samples from cattle with comparable clinical signs collected in Israel in 2021 and 2022 tested negative for the novel virus, and therefore, the actual distribution of the virus is unknown. As this is a recently identified new viral infection, the viral vector and the prevalence of the virus in the cattle population are still unknown but will be the subject of future investigations., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published
2023
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39. First evidence of schmallenberg virus infection in southern Italy.

Author

Ferrara G, Wernike K, Iovane G, Pagnini U, and Montagnaro S

Subjects
Cattle, Animals, Buffaloes, Seroepidemiologic Studies, Antibodies, Viral, Orthobunyavirus, Bunyaviridae Infections epidemiology, Bunyaviridae Infections veterinary, Cattle Diseases epidemiology, Virus Diseases veterinary, Ceratopogonidae
Abstract

Background: Schmallenberg virus (SBV) is a vector-borne pathogen that mainly affects ruminants. Schmallenberg disease has never been described in southern Italy, although this geographic area displays climatic features suitable for Culicoides biting midges, which transmit the pathogen. An observational study was carried out in the Campania region in 2020 to evaluate the seroprevalence in cattle and water buffalo as well as to identify the risk factors involved in the distribution of SBV., Results: Relatively high seroprevalences of 38.2% (cattle) and 43% (water buffalo) were found by using a commercial SBV ELISA, which is comparable to the prevalence obtained in other countries under post-epidemic conditions. A virus neutralization assay performed on positive samples showed high titers in a large percentage of animals which is assumed to indicate recent exposure. Bivariate analysis of several variables revealed some environmental factors associated with higher seroprevalence, such as mean annual temperature, distance from the coast, and altitude. Multivariate logistic regression confirmed the statistical association only for mean annual temperature, that was found to be the main factor responsible for the distribution of the virus in southern Italy. In addition, molecular diagnosis attempts were performed on serum samples and resulted in the detection of SBV RNA in two herds and six animals., Conclusions: In this work we have demonstrated the circulation of SBV in southern Italy using both molecular and serological assays. This study emphasized the essential role of monitoring in preventing the re-emergence of vector-borne diseases in ruminants., (© 2023. The Author(s).)

Published
2023
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40. Characterization of experimental Shuni virus infection in the mouse.

Author

Breithaupt A, Sick F, Golender N, Beer M, and Wernike K

Subjects
Cattle, Animals, Female, Mice, Horses, Ruminants, RNA, Bunyaviridae Infections diagnosis, Bunyaviridae Infections veterinary, Orthobunyavirus genetics, Horse Diseases
Abstract

Shuni virus (SHUV), an orthobunyavirus of the Simbu serogroup, was initially isolated in Nigeria in the 1960s, further detected in other African countries and in the Middle East, and is now endemic in Israel. Transmitted by blood-sucking insects, SHUV infection is associated with neurological disease in cattle and horses, and with abortion, stillbirth, or the birth of malformed offspring in ruminants. Surveillance studies also indicated a zoonotic potential. This study aimed to test the susceptibility of the well-characterized interferon (IFN)-α/β receptor knock-out mouse model ( Ifnar -/- ), to identify target cells, and to describe the neuropathological features. Ifnar -/- mice were subcutaneously infected with two different SHUV strains, including a strain isolated from the brain of a heifer showing neurological signs. The second strain represented a natural deletion mutant exhibiting a loss of function of the S-segment-encoded nonstructural protein NSs, which counteracts the host's IFN response. Here it is shown that Ifnar -/- mice are susceptible to both SHUV strains and can develop fatal disease. Histological examination confirmed meningoencephalomyelitis in mice as described in cattle with natural and experimental infections. RNA in situ hybridization was applied using RNA Scope™ for SHUV detection. Target cells identified included neurons and astrocytes, as well as macrophages in the spleen and gut-associated lymphoid tissue. Thus, this mouse model is particularly beneficial for the evaluation of virulence determinants in the pathogenesis of SHUV infection in animals.

Published
2023
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41. SARS-CoV-2 Infection and Clinical Signs in Cats and Dogs from Confirmed Positive Households in Germany.

Author

Michelitsch A, Allendorf V, Conraths FJ, Gethmann J, Schulz J, Wernike K, and Denzin N

Subjects
Animals, Cats, Dogs, Humans, SARS-CoV-2, Antibodies, Viral, Risk Factors, Germany epidemiology, COVID-19 diagnosis, COVID-19 epidemiology, COVID-19 veterinary, Cat Diseases diagnosis, Cat Diseases epidemiology
Abstract

On a global scale, the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) poses a serious threat to the health of the human population. Not only humans can be infected, but also their companion animals. The antibody status of 115 cats and 170 dogs, originating from 177 German households known to have been SARS-CoV-2 positive, was determined by enzyme-linked immunosorbent assay (ELISA), and the results were combined with information gathered from a questionnaire that was completed by the owner(s) of the animals. The true seroprevalences of SARS-CoV-2 among cats and dogs were 42.5% (95% CI 33.5-51.9) and 56.8% (95% CI 49.1-64.4), respectively. In a multivariable logistic regression accounting for data clustered in households, for cats, the number of infected humans in the household and an above-average contact intensity turned out to be significant risk factors; contact with humans outside the household was a protective factor. For dogs, on the contrary, contact outside the household was a risk factor, and reduced contact, once the human infection was known, was a significant protective factor. No significant association was found between reported clinical signs in animals and their antibody status, and no spatial clustering of positive test results was identified.

Published
2023
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42. No indication for SARS-CoV-2 transmission to pet ferrets, in five cities in Poland, 2021 - antibody testing among ferrets living with owners infected with SARS-CoV-2 or free of infection.

Author

Kaczorek-Łukowska E, Wernike K, Beer M, Blank A, Małaczewska J, Blank M, Jałonicka A, and Siwicki AK

Subjects
Humans, Animals, Cats, Dogs, SARS-CoV-2, Poland epidemiology, Cities, Ferrets, Antibodies, Viral, COVID-19 Testing veterinary, COVID-19 veterinary, Cat Diseases, Dog Diseases
Abstract

The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) was first identified in China by the end of 2019 and was responsible for a pandemic in the human population that resulted in millions of deaths worldwide. Since the beginning of the pandemic, the role of animals as spill-over or reservoir hosts was discussed. In addition to cats and dogs, ferrets are becoming increasingly popular as companion animals. Under experimental conditions, ferrets are susceptible to SARS-CoV-2 and it appears that they can also be infected through contact with a SARS-CoV-2 positive owner. However, there is still little information available regarding these natural infections. Here, we serologically tested samples collected from pet ferrets (n = 45) from Poland between June and September 2021. Of the ferrets that were included in the study, 29% (13/45) had contact with owners with confirmed SARS-CoV-2 infections. Nevertheless, SARS-CoV-2-specific antibodies could not be detected in any of the animals, independent of the infection status of the owner. The obtained results suggest that ferrets cannot be readily infected with SARS-CoV-2 under natural conditions, even after prolonged contact with infected humans. However, due to the rapid mutation rate of this virus, it is important to include ferrets in future monitoring studies., (© 2023. The Author(s).)

Published
2023
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43. Efficacy of an unmodified bivalent mRNA vaccine against SARS-CoV-2 variants in female small animal models.

Author

Corleis B, Hoffmann D, Rauch S, Fricke C, Roth N, Gergen J, Kovacikova K, Schlottau K, Halwe NJ, Ulrich L, Schön J, Wernike K, Widera M, Ciesek S, Mueller SO, Mettenleiter TC, Maione D, Petsch B, Beer M, and Dorhoi A

Subjects
Animals, Female, Mice, Rats, Antibodies, Neutralizing, Antibodies, Viral, CD8-Positive T-Lymphocytes, Mice, Transgenic, Models, Animal, mRNA Vaccines immunology, Rats, Wistar, Spike Glycoprotein, Coronavirus genetics, Vaccines, Combined immunology, COVID-19 prevention & control, COVID-19 Vaccines immunology, SARS-CoV-2 genetics
Abstract

Combining optimized spike (S) protein-encoding mRNA vaccines to target multiple SARS-CoV-2 variants could improve control of the COVID-19 pandemic. We compare monovalent and bivalent mRNA vaccines encoding B.1.351 (Beta) and/or B.1.617.2 (Delta) SARS-CoV-2 S-protein in a transgenic mouse and a Wistar rat model. The blended low-dose bivalent mRNA vaccine contains half the mRNA of each respective monovalent vaccine, but induces comparable neutralizing antibody titres, enrichment of lung-resident memory CD8 + T cells, antigen-specific CD4 + and CD8 + responses, and protects transgenic female mice from SARS-CoV-2 lethality. The bivalent mRNA vaccine significantly reduces viral replication in both Beta- and Delta-challenged mice. Sera from bivalent mRNA vaccine immunized female Wistar rats also contain neutralizing antibodies against the B.1.1.529 (Omicron BA.1 and BA.5) variants. These data suggest that low-dose and fit-for-purpose multivalent mRNA vaccines encoding distinct S-proteins are feasible approaches for extending the coverage of vaccines for emerging and co-circulating SARS-CoV-2 variants., (© 2023. The Author(s).)

Published
2023
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45. The spike gene is a major determinant for the SARS-CoV-2 Omicron-BA.1 phenotype.

Author

Barut GT, Halwe NJ, Taddeo A, Kelly JN, Schön J, Ebert N, Ulrich L, Devisme C, Steiner S, Trüeb BS, Hoffmann B, Veiga IB, Leborgne NGF, Moreira EA, Breithaupt A, Wylezich C, Höper D, Wernike K, Godel A, Thomann L, Flück V, Stalder H, Brügger M, Esteves BIO, Zumkehr B, Beilleau G, Kratzel A, Schmied K, Ochsenbein S, Lang RM, Wider M, Machahua C, Dorn P, Marti TM, Funke-Chambour M, Rauch A, Widera M, Ciesek S, Dijkman R, Hoffmann D, Alves MP, Benarafa C, Beer M, and Thiel V

Subjects
Animals, Cricetinae, Ferrets, Humans, Melphalan, Mice, Phenotype, RNA, Messenger, Spike Glycoprotein, Coronavirus genetics, gamma-Globulins, COVID-19, SARS-CoV-2 genetics
Abstract

Variant of concern (VOC) Omicron-BA.1 has achieved global predominance in early 2022. Therefore, surveillance and comprehensive characterization of Omicron-BA.1 in advanced primary cell culture systems and animal models are urgently needed. Here, we characterize Omicron-BA.1 and recombinant Omicron-BA.1 spike gene mutants in comparison with VOC Delta in well-differentiated primary human nasal and bronchial epithelial cells in vitro, followed by in vivo fitness characterization in hamsters, ferrets and hACE2-expressing mice, and immunized hACE2-mice. We demonstrate a spike-mediated enhancement of early replication of Omicron-BA.1 in nasal epithelial cultures, but limited replication in bronchial epithelial cultures. In hamsters, Delta shows dominance over Omicron-BA.1, and in ferrets Omicron-BA.1 infection is abortive. In hACE2-knock-in mice, Delta and a Delta spike clone also show dominance over Omicron-BA.1 and an Omicron-BA.1 spike clone, respectively. Interestingly, in naïve K18-hACE2 mice, we observe Delta spike-mediated increased replication and pathogenicity and Omicron-BA.1 spike-mediated reduced replication and pathogenicity, suggesting that the spike gene is a major determinant of replication and pathogenicity. Finally, the Omicron-BA.1 spike clone is less well-controlled by mRNA-vaccination in K18-hACE2-mice and becomes more competitive compared to the progenitor and Delta spike clones, suggesting that spike gene-mediated immune evasion is another important factor that led to Omicron-BA.1 dominance., (© 2022. The Author(s).)

Published
2022
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46. No Evidence for the Presence of SARS-CoV-2 in Bank Voles and Other Rodents in Germany, 2020-2022.

Author

Wernike K, Drewes S, Mehl C, Hesse C, Imholt C, Jacob J, Ulrich RG, and Beer M

Abstract

Rodentia is the most speciose mammalian order, found across the globe, with some species occurring in close proximity to humans. Furthermore, rodents are known hosts for a variety of zoonotic pathogens. Among other animal species, rodents came into focus when the severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2) spread through human populations across the globe, initially as laboratory animals to study the viral pathogenesis and to test countermeasures. Under experimental conditions, some rodent species including several cricetid species are susceptible to SARS-CoV-2 infection and a few of them can transmit the virus to conspecifics. To investigate whether SARS-CoV-2 is also spreading in wild rodent populations in Germany, we serologically tested samples of free-ranging bank voles ( Myodes glareolus , n = 694), common voles ( Microtus arvalis , n = 2), house mice ( Mus musculus , n = 27), brown or Norway rats ( Rattus norvegicus , n = 97) and Apodemus species (n = 8) for antibodies against the virus. The samples were collected from 2020 to 2022 in seven German federal states. All but one sample tested negative by a multispecies ELISA based on the receptor-binding domain (RBD) of SARS-CoV-2. The remaining sample, from a common vole collected in 2021, was within the inconclusive range of the RBD-ELISA, but this result could not be confirmed by a surrogate virus neutralization test as the sample gave a negative result in this test. These results indicate that SARS-CoV-2 has not become highly prevalent in wild rodent populations in Germany.

Published
2022
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47. Serological screening in wild ruminants in Germany, 2021/2022: No evidence of SARS-CoV-2, bluetongue virus or pestivirus spread but high seroprevalences against Schmallenberg virus.

Author

Wernike K, Fischer L, Holsteg M, Aebischer A, Petrov A, Marquart K, Schotte U, Schön J, Hoffmann D, Hechinger S, Neubauer-Juric A, Blicke J, Mettenleiter TC, and Beer M

Subjects
Animals, Animals, Wild, Antibodies, Viral, Humans, Ruminants, SARS-CoV-2, Seroepidemiologic Studies, Sheep, Sheep, Domestic, Bison, Bluetongue, Bluetongue virus, COVID-19 epidemiology, COVID-19 veterinary, Deer, Pestivirus, Sheep Diseases
Abstract

Wildlife animals may be susceptible to multiple infectious agents of public health or veterinary relevance, thereby potentially forming a reservoir that bears the constant risk of re-introduction into the human or livestock population. Here, we serologically investigated 493 wild ruminant samples collected in the 2021/2022 hunting season in Germany for the presence of antibodies against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and four viruses pathogenic to domestic ruminants, namely, the orthobunyavirus Schmallenberg virus (SBV), the reovirus bluetongue virus (BTV) and ruminant pestiviruses like bovine viral diarrhoea virus or border disease virus. The animal species comprised fallow deer, red deer, roe deer, mouflon and wisent. For coronavirus serology, additional 307 fallow, roe and red deer samples collected between 2017 and 2020 at three military training areas were included. While antibodies against SBV could be detected in about 13.6% of the samples collected in 2021/2022, only one fallow deer of unknown age tested positive for anti-BTV antibodies, and all samples reacted negative for antibodies against ruminant pestiviruses. In an ELISA based on the receptor-binding domain (RBD) of SARS-CoV-2, 25 out of 493 (5.1%) samples collected in autumn and winter 2021/2022 scored positive. This sero-reactivity could not be confirmed by the highly specific virus neutralisation test, occurred also in 2017, 2018 and 2019, that is, prior to the human SARS-CoV-2 pandemic, and was likewise observed against the RBD of the related SARS-CoV-1. Therefore, the SARS-CoV-2 sero-reactivity was most likely induced by another hitherto unknown deer virus belonging to the subgenus Sarbecovirus of betacoronaviruses., (© 2022 The Authors. Transboundary and Emerging Diseases published by Wiley-VCH GmbH.)

Published
2022
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48. Antibodies against SARS-CoV-2 Suggestive of Single Events of Spillover to Cattle, Germany.

Author

Wernike K, Böttcher J, Amelung S, Albrecht K, Gärtner T, Donat K, and Beer M

Subjects
Animals, Cattle, Germany epidemiology, Humans, COVID-19 epidemiology, COVID-19 veterinary, SARS-CoV-2
Abstract

Human infection with SARS-CoV-2 poses a risk for transmission to animals. To characterize the risk for cattle, we serologically investigated 1,000 samples collected from cattle in Germany in late 2021. Eleven antibody-positive samples indicated that cattle may be occasionally infected by contact with SARS-CoV-2-positive keepers, but we found no indication of further spread.

Published
2022
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49. Occurrence of malformed calves in April-May 2021 indicates an unnoticed 2020 emergence of Schmallenberg virus in Denmark.

Author

Agerholm JS and Wernike K

Subjects
Animals, Cattle, Cesarean Section veterinary, Denmark epidemiology, Female, Pregnancy, RNA, Viral genetics, Ruminants, Seroepidemiologic Studies, Arthrogryposis veterinary, Bunyaviridae Infections epidemiology, Bunyaviridae Infections veterinary, Cattle Diseases epidemiology, Orthobunyavirus genetics
Abstract

During the European emergence of Schmallenberg virus (SBV) in 2011, examination of Culicoides spp. showed that SBV-infected midges were present across Denmark. However, SBV-associated malformations in ruminant species have not been reported in Denmark. In April 2021, seven calves with severe congenital generalized arthrogryposis and reduced body weight originating from a narrow region of the Jutlandic peninsula were submitted for examination. Analysis of fetal brain tissue for SBV viral RNA and pleural effusion for fetal anti-SBV antibodies identified SBV as the cause of the congenital syndrome. Backwards calculation from the calving dates indicated the occurrence of an unnoticed emergence of SBV in Denmark from early August 2020 and during the late summer and autumn. As SBV-associated malformations may lead to severe dystocia requiring fetotomy or caesarean section, veterinarians performing obstetric intervention are first-line personnel in recognition of SBV emergence in domestic ruminants., (© 2021 Wiley-VCH GmbH.)

Published
2022
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50. Vaccine development against Schmallenberg virus: from classical inactivated to modified-live to scaffold particle vaccines.

Author

Wernike K, Aebischer A, Audonnet JC, and Beer M

Abstract

Background: Subsequent to its first detection in 2011, the insect-transmitted bunyavirus Schmallenberg virus (SBV; genus Orthobunyavirus) caused a large-scale epizootic of fetal malformation in the European ruminant population. By now, SBV established an enzootic status in Central Europe with regular wave-like re-emergence, which has prompted intensive research efforts in order to elucidate the pathogenesis and to develop countermeasures. Since different orthobunyaviruses share a very similar structural organization, SBV has become an important model virus to study orthobunyaviruses in general and for the development of vaccines. In this review article, we summarize which vaccine formulations have been tested to prevent SBV infections in livestock animals. MAIN: In a first step, inactivated SBV candidate vaccines were developed, which efficiently protected against an experimental SBV infection. Due to the inability to differentiate infected from vaccinated animals (= DIVA capability), a series of further approaches ranging from modified live, live-vectored, subunit and DNA-mediated vaccine delivery to multimeric antigen-presentation on scaffold particles was developed and evaluated. In short, it was repeatedly demonstrated that the N-terminal half of the glycoprotein Gc, composed of the Gc head and the head-stalk, is highly immunogenic, with a superior immunogenicity of the complete head-stalk domain compared to the Gc head only. Furthermore, in all Gc protein-based vaccine candidates, immunized animals can be readily discriminated from animals infected with the field virus by the absence of antibodies against the viral N-protein., Conclusions: Using SBV as a model virus, several vaccination-challenge studies in target species underscored the superior performance of antigenic domains compared to linear epitopes regarding their immunogenicity. In addition, it could be shown that holistic approaches combining immunization-challenge infection studies with structural analyses provide essential knowledge required for an improved vaccine design., (© 2022. The Author(s).)

Published
2022
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