Your search keyword '"Orthobunyavirus"' showing total 682 results

1. A Genome-Wide CRISPR-Cas9 Screen Reveals the Requirement of Host Cell Sulfation for Schmallenberg Virus Infection.

Author

Thamamongood, Thiprampai, Aebischer, Andrea, Wagner, Valentina, Chang, Max, Elling, Roland, Benner, Christopher, García-Sastre, Adolfo, Kochs, Georg, Beer, Martin, and Schwemmle, Martin

Subjects

CRISPR-Cas, Schmallenberg virus, host entry factor, orthobunyavirus, Animals, Bunyaviridae, Bunyaviridae Infections, CRISPR-Cas Systems, Chlorocebus aethiops, Clustered Regularly Interspaced Short Palindromic Repeats, Europe, Gene Knockout Techniques, HEK293 Cells, Heparitin Sulfate, Humans, Livestock, Membrane Glycoproteins, Orthobunyavirus, Rift Valley fever virus, Sulfate Transporters, Sulfotransferases, Vero Cells, Virus Attachment

Abstract

Schmallenberg virus (SBV) is an insect-transmitted orthobunyavirus that can cause abortions and congenital malformations in the offspring of ruminants. Even though the two viral surface glycoproteins Gn and Gc are involved in host cell entry, the specific cellular receptors of SBV are currently unknown. Using genome-wide CRISPR-Cas9 forward screening, we identified 3-phosphoadenosine 5-phosphosulfate (PAPS) transporter 1 (PAPST1) as an essential factor for SBV infection. PAPST1 is a sulfotransferase involved in heparan sulfate proteoglycan synthesis encoded by the solute carrier family 35 member B2 gene (SLC35B2). SBV cell surface attachment and entry were largely reduced upon the knockout of SLC35B2, whereas the reconstitution of SLC35B2 in these cells fully restored their susceptibility to SBV infection. Furthermore, treatment of cells with heparinase diminished infection with SBV, confirming that heparan sulfate plays an important role in cell attachment and entry, although to various degrees, heparan sulfate was also found to be important to initiate infection by two other bunyaviruses, La Crosse virus and Rift Valley fever virus. Thus, PAPST1-triggered synthesis of cell surface heparan sulfate is required for the efficient replication of SBV and other bunyaviruses.IMPORTANCE SBV is a newly emerging orthobunyavirus (family Peribunyaviridae) that has spread rapidly across Europe since 2011, resulting in substantial economic losses in livestock farming. In this study, we performed unbiased genome-wide CRISPR-Cas9 screening and identified PAPST1, a sulfotransferase encoded by SLC35B2, as a host entry factor for SBV. Consistent with its role in the synthesis of heparan sulfate, we show that this activity is required for efficient infection by SBV. A comparable dependency on heparan sulfate was also observed for La Crosse virus and Rift Valley fever virus, highlighting the importance of heparan sulfate for host cell infection by bunyaviruses. Thus, the present work provides crucial insights into virus-host interactions of important animal and human pathogens.

Published

2020

2. Molecular epidemiology of Akabane virus in Taiwan

Author

Hau‐You Tzeng, Cheng‐Lung Tsai, Lu‐Jen Ting, Kuei‐Min Liao, and Wu‐Chun Tu

Subjects

Molecular Epidemiology, Orthobunyavirus, General Veterinary, Taiwan, Animals, Cattle Diseases, Cattle, Arboviruses, Phylogeny

Abstract

Akabane virus (AKAV) is a teratogenic and neuropathogenic arbovirus that infects livestock and wild animals. AKAVs are endemic arboviruses from dairy farms in Taiwan in 1989, and the first sequence was detected in cattle with nonsuppurative encephalitis in 1992.This study aims to understand the epidemiological relationships of the akabane viruses between Taiwan and nearby places.In this study, 17 specimens were identified or isolated from vector insects, and ruminant fetuses collected from 1992 to 2015 were sequenced and analysed.Sequence analyses revealed all Taiwanese AKAVs belonged to genogroup Ia but diverged into two clusters in the phylogenetic trees, implying that at least two invasive events of AKAV may have occurred in Taiwan.The two clusters of AKAVs could still be identified in Taiwan in 2015, and a reassortment event was observed, indicating that the two clusters of AKAVs are already endemic in Taiwan.

Published

2022

3. A Patient with Severe Fever with Thrombocytopenia Syndrome (SFTS) Infected from a Sick Dog with SFTS Virus Infection

Author

Hiroaki, Oshima, Hironobu, Okumura, Ken, Maeda, Keita, Ishijima, Tomoki, Yoshikawa, Takeshi, Kurosu, Shuetsu, Fukushi, Masayuki, Shimojima, and Masayuki, Saijo

Subjects

Male, Phlebovirus, Microbiology (medical), Orthobunyavirus, Severe Fever with Thrombocytopenia Syndrome, General Medicine, Bunyaviridae Infections, Thrombocytopenia, Dogs, Ticks, Infectious Diseases, Tick-Borne Diseases, Child, Preschool, Animals, Humans

Abstract

Severe fever with thrombocytopenia syndrome (SFTS) caused by Dabie bandavirus (formerly SFTS virus, SFTSV), which belongs to the Bandavirus genus (formerly Phlebovirus genus) of the Phenuiviridae family (formerly Bunyaviridae family), is a tick-borne novel bunyavirus infection with high rates of mortality. SFTSV infection was diagnosed virologically in a 4-year-old dog with symptoms of lethargy and anorexia in western Japan in June 2017. The dog's owner, a man in his 40s, had taken care of the sick dog and became sick 10 days after disease onset in the dog, showing symptoms, such as fever, arthralgia, headache, nausea, and vomiting. Total blood cell counts revealed leukocytopenia and thrombocytopenia. He was treated as an outpatient. He had no scars suggesting that he had not been bitten by ticks. He was diagnosed as having SFTS via the detection of IgM and neutralizing antibodies to SFTSV. The patient was directly infected with SFTSV from the SFTSV-infected dog. In conclusion, humans can be at a risk of SFTSV infection through direct contact with sick dogs infected with SFTSV.

Published

2022

4. Prevalance of Schmallenberg orthobunyavirus (SBV) infection in sampled ruminants in Turkey's Eastern Mediterranean region between 2015 and 2017

Author

Firat Dogan, Bilal Dik, Seval Bilge-Dagalp, Touraj Aligholipour Farzani, Veysel Soydal Ataseven, Gülizar Acar, İlker Şahinkesen, and Aykut Özkul

Subjects

Male, Goat Diseases, Orthobunyavirus, Sheep, Turkey, General Veterinary, Mediterranean Region, Cattle Diseases, Sheep Diseases, Ruminants, Antibodies, Viral, Bunyaviridae Infections, Pregnancy, Seroepidemiologic Studies, Animals, Cattle, Female

Abstract

Schmallenberg orthobunyavirus (SBV), first discovered in 2011, belongs to the Orthobunyavirus genus of the Peribunyaviridae family. SBV, which predominantly infects ruminants, can cause severe fetal malformations when pregnant animals are infected during a critical phase of gestation. In this study, 1590 blood serum samples from cattle, sheep, and goats were obtained for serological investigation and 1604 specimens for virological investigation (including 1414 whole blood with EDTA, 165 vaginal swab samples from aborting animals, and tissue samples from 25 dead and/or aborted fetuses) in private and family-type ruminant establishments in Turkey's Eastern Mediterranean region. All the blood serum samples were tested for the presence of antibodies using ELISA, which showed SBV antibodies in 29.11% (95% CI: 26.89%-31.35%). The virological samples were tested using real-time RT-PCR for SBV nucleic acid presence, which showed 3.17% (95% CI:2.32%-4.04%) were positive. Finally, 10 different Culicoides species (a total of 29,156 Culicoides, including 16,005 females and 13,151 males) were tested to identify the vectors thought to carry infections in the region. However, no SBV nucleic acid was detected in the Culicoides pools.

Published

2022

5. Severe Fever with Thrombocytopenia Syndrome, a Viral Hemorrhagic Fever, Endemic to Japan: Achievements in and Directions for Medical Research

Author

Masayuki, Saijo

Subjects

Phlebovirus, Microbiology (medical), Biomedical Research, Hemorrhagic Fevers, Viral, Orthobunyavirus, Severe Fever with Thrombocytopenia Syndrome, General Medicine, Bunyaviridae Infections, Dogs, Ticks, Infectious Diseases, Japan, Cats, Animals, Humans

Abstract

Severe fever with thrombocytopenia syndrome (SFTS), a novel infectious disease caused by a novel bunyavirus and with a high case fatality rate (CFR), was reported by Chinese scientists in 2011. The causative virus, Dabie bandavirus also known as the SFTS virus (SFTSV), belongs to the genus Bandavirus (formerly named Phlebovirus) of the family Phenuiviridae (formerly named Bunyaviridae). SFTS was also reported to be endemic in South Korea and Japan in 2013. SFTSV circulates between some species of ticks and animals in nature. Humans are infected with SFTSV through bites from ticks such as Haemaphysalis longicornis and Amblyomma testidinarium. Domesticated animals, such as cats and dogs, are also infected with SFTSV and shown SFTS-like symptoms with a high CFR, likely having been infected through tick bites in the living environment. Furthermore, there have been cases of patients with SFTS who were infected with SFTSV through close contact with sick cats or dogs. The CFR in patients with SFTS is approximately 30% in Japan. There is always a risk of SFTSV infection in human populations living in endemic areas. Therefore, the development of specific therapies and vaccines is urgently needed to reduce the number of fatal SFTS cases.

Published

2022

6. Discovery of a widespread presence bunyavirus that may have symbiont‐like relationships with different species of aphids

Author

Xin An, Wei Zhang, Chao Ye, Guy Smagghe, Jin‐Jun Wang, and Jinzhi Niu

Subjects

Mammals, Orthobunyavirus, Aphids, Insect Science, Animals, RNA Viruses, Symbiosis, Agronomy and Crop Science, General Biochemistry, Genetics and Molecular Biology, Ecology, Evolution, Behavior and Systematics, Plant Viruses

Abstract

Aphids are important agricultural pests, vectors of many plant viruses and have sophisticated relationships with symbiotic microorganisms. Abundant asymptomatic RNA viruses have been reported in aphids due to the application of RNA-seq, but aphid-virus interactions remain unclear. Bunyavirales is the most abundant RNA virus order, which can infect mammals, arthropods, and plants. However, many bunyaviruses have specific hosts, such as insects. Here, we discovered 18 viruses from 10 aphid species by RNA-seq. Importantly, a widespread presence bunyavirus, Aphid bunyavirus 1 (ABV-1), was determined to have a wide host range, infecting and replicating in all 10 tested aphid species. ABV-1 may be transmitted horizontally during feeding on plant leaves and vertically through reproduction. In a comparison of the physiological parameters of ABV-1

Published

2022

7. An abnormal birth in bovine suspected of being caused by Peaton virus first occurred in Shikoku region, Japan

Author

Nobuki YOSHIZAWA, Michiko SHINOTO, Akiho KATAYAMA, Riko BEKKU, and Kenichi INATANI

Subjects

Orthobunyavirus, Japan, General Veterinary, Animals, Cattle Diseases, Cattle, Arboviruses

Abstract

Peaton virus (PEAV) is a type of arthropod-borne virus (arbovirus) belonging to the genus Orthobunyavirus, much like Akabane virus and Aino virus. These arboviruses cause stillbirth and congenital malformations of fetuses in ruminants. In Japan, abnormal birth in bovine caused by PEAV were reported in Okinawa, Kyushu, and Chugoku regions, but it has never been reported in Shikoku region. The abnormal birth occurred in 2020 in Ehime Prefecture (Shikoku region) and suspected of being caused by PEAV from results of clinical signs, pathological findings, and virus neutralization test using PEAV. However, PEAV was not detected and isolated. This report describes the case of abnormal birth in bovine suspected of being caused by PEAV first occurred in Shikoku region, Japan.

Published

2022

8. Potential Mosquito Vectors for Shuni Virus, South Africa, 2014–2018

Author

Basil D. Brooke, T. Johnson, Marietjie Venter, Sontaga Cris Manyana, Maarten Schrama, Caitlin MacIntyre, Megan A. Riddin, A Paulo G Almeida, Thopisang P. Motlou, Milehna M. Guarido, and Erin E. Gorsich

Subjects

Microbiology (medical), Orthobunyavirus, Epidemiology, Culex, viruses, Zoology, Mosquito Vectors, Infectious and parasitic diseases, RC109-216, Virus, South Africa, Potential Mosquito Vectors for Shuni Virus, South Africa, 2014–2018, Aedes, vector-borne diseases, parasitic diseases, Animals, Humans, Shuni virus, mosquitoes, biology, fungi, Anopheles, Dispatch, Outbreak, biology.organism_classification, QR, Infectious Diseases, disease vector, Medicine, Mansonia

Abstract

Shuni virus is associated with neurologic and febrile illness in animals and humans. To determine potential vectors, we collected mosquitoes in South Africa and detected the virus in species of the genera Mansonia, Culex, Aedes, and Anopheles. These mosquitoes may be associated with Shuni virus outbreaks in Africa and emergence in other regions.

Published

2021

9. Evidence of circulation of Orthobunyaviruses in diverse mosquito species in Kwale County, Kenya

Author

Samson Konongoi, Francis Mulwa, Fredrick Eyase, Samuel Owaka, Edith Koskei, Albert Nyunja, James Mutisya, Victor Ofula, Joel Lutomiah, Rosemary Sang, Hellen Koka, and Solomon Langat

Subjects

Veterinary medicine, Orthobunyavirus, Culex, Mosquito Vectors, Infectious and parasitic diseases, RC109-216, Biology, Vanga, medicine.disease_cause, Arbovirus, Mosquitoes, Nyando virus, Bunyamwera virus, Aedes, Virology, Chlorocebus aethiops, medicine, Animals, Orthobunyaviruses, Vero Cells, Larva, Inoculation, Research, Outbreak, biology.organism_classification, medicine.disease, Kenya, Infectious Diseases

Abstract

Background Arbovirus surveillance and recurrence of outbreaks in Kenya continues to reveal the re-emergence of viruses of public health importance. This calls for sustained efforts in early detection and characterization of these agents to avert future potential outbreaks. Methods A larval survey was carried out in three different sites in Kwale County, Vanga, Jego and Lunga Lunga. All containers in every accessible household and compound were sampled for immature mosquitoes. In addition, adult mosquitoes were also sampled using CO2-baited CDC light traps and BG-Sentinel traps in the three sites and also in Tsuini. The mosquitoes were knocked down using trimethylamine and stored in a liquid nitrogen shipper for transportation to the laboratory where they were identified to species, pooled and homogenized ready for testing. Results A total of 366 houses and 1730 containers were inspected. The House Index (HI), Container Index (CI) and Breateau Index (BI) for Vanga Island were (3%: 0.66: 3.66) respectively. In Jego, a rural site, the HI, CI and BI were (2.4%: 0.48: 2.4) respectively. In Lunga Lunga, a site in an urban area, the HI, CI and BI were (22.03%: 3.97: 29.7) respectively. The indices suggest that this region is at risk of arbovirus transmission given they were above the WHO threshold (CI > 1, HI > 1% and BI > 5). The most productive containers were the concrete tanks (44.4%), plastic tank (22.2%), claypot (13.3%), plastic drums (8.9%), plastic basins (4%), jerricans (1.2%) and buckets (0.3%). Over 20,200 adult mosquitoes were collected using CDC light traps, and over 9,200 using BG- sentinel traps. These mosquitoes were screened for viruses by inoculating in Vero cells. Eleven Orthobunyavirus isolates were obtained from pools of Ae. pembaensis (4), Ae. tricholabis (1), Cx. quinquefasciatus (3), Culex spp. (1) and Cx. zombaensis (2). Five of the Orthobunyaviruses were sequenced and four of these were determined to be Bunyamwera viruses while one isolate was found to be Nyando virus. One isolate remained unidentified. Conclusions These results indicate circulation of Orthobunyaviruses known to cause diverse grades of febrile illness with rash in humans in this region and highlights the need for continued monitoring and surveillance to avert outbreaks.

Published

2021

10. Ethanol inactivation of orthonairoviruses in ixodid ticks

Author

Martin H. Groschup, Albert Eisenbarth, K. Methling, M. Lalk, Ansgar Schulz, and M. Keller

Subjects

Orthobunyavirus, Ixodidae, Biology, Tick, Article, Inactivation, Virus, Microbiology, chemistry.chemical_compound, Ticks, Amblyomma, parasitic diseases, Animals, Bioassay, Quantitative 1H-NMR spectroscopy, Infectivity, Tick-borne pathogens, Ethanol, Ecology, General Medicine, biology.organism_classification, chemistry, Animal ecology, Insect Science, Hemorrhagic Fever Virus, Crimean-Congo, Hemorrhagic Fever, Crimean, Titration

Abstract

Ixodid ticks represent vectors and reservoirs for a broad range of zoonotic pathogens. Collected ticks from field studies are therefore usually stored in ethanol, which in higher concentrations effectively inactivates most of the known tick-borne pathogens. Although commonly practiced as gold standard for inactivation, hardly any scientific data demonstrate that ethanol sufficiently penetrates the comparatively thick cuticula of ticks. Therefore, Amblyomma hebraeum tick pools were stored for 21 days in ethanol (96%). Afterwards, the ethanol was removed and the ticks were homogenized. Quantitative 1H-NMR spectroscopic analysis was applied to determine the residual concentration of ethanol inside the ticks. 1H-NMR spectroscopic analysis revealed that ethanol constituted 28.3–42.6 mg of the total weight of three ticks in the pools (89.9–121.5 mg). In addition, the low-pathogenic Hazara orthonairovirus (HAZV) was used as a cell culture model for this study. The virus was exposed to ethanol concentrations between 0 and 60% and incubated under various temperature conditions for four time periods. Afterwards, the residual virus infectivity was determined by titration. Following ethanol exposure, HAZV did not grow in cells after 9 h of exposure to an ethanol concentration of 25%. These results demonstrate an extremely low ethanol resistance of the virus, which was generally in line with previously reported ethanol inactivation data for Crimean-Congo hemorrhagic fever orthonairovirus (CCHFV). After prolonged storage and impregnation, comparable ethanol concentrations are achieved in the ticks, indicating the suitability of this inactivation method also for Bunyaviruses in ticks. At the very least, a massive virus inactivation can be assumed. Definitive proof of virus inactivation would require a bioassay of ethanol-treated infected ticks under appropriate biosafety conditions.

Published

2021

11. Design and evaluation of neutralizing and fusion inhibitory peptides to Crimean-Congo hemorrhagic fever virus

Author

Megan C. Mears, Sergio E. Rodriguez, Katharina S. Schmitz, Angel Padilla, Sudipta Biswas, Maria N.B. Cajimat, Chad E. Mire, Stephen R. Welch, Éric Bergeron, Christopher A. Alabi, Matteo Porotto, Dennis A. Bente, Virology, Mears, Megan C, Rodriguez, Sergio E, Schmitz, Katharina S, Padilla, Angel, Biswas, Sudipta, Cajimat, Maria N B, Mire, Chad E, Welch, Stephen R, Bergeron, Éric, Alabi, Christopher A, Porotto, Matteo, and Bente, Dennis A

Subjects

Crimean-Congo hemorrhagic Fever viru, Orthobunyavirus, CCHFV glycoprotein, Polyethylene Glycol, Antiviral Agents, Mammal, Polyethylene Glycols, Neutralization, SDG 3 - Good Health and Well-being, Virology, Animals, Humans, Cholesterol-conjugated peptide, Sterol, Fusion inhibitor, Antiviral Agent, Pharmacology, Mammals, Animal, Nairovirus fusion assay, Sterols, Peptide, Hemorrhagic Fever Virus, Crimean-Congo, Hemorrhagic Fever, Crimean, Peptides, Human

Abstract

Crimean-Congo hemorrhagic fever (CCHF) is a medically relevant tick-borne viral disease caused by the Bunyavirus, Crimean-Congo hemorrhagic fever virus (CCHFV). CCHFV is endemic to Asia, the Middle East, South-eastern Europe, and Africa and is transmitted in enzootic cycles among ticks, mammals, and birds. Human infections are mostly subclinical or limited to mild febrile illness. Severe disease may develop, resulting in multi-organ failure, hemorrhagic manifestations, and case-fatality rates up to 30%. Despite the widespread distribution and life-threatening potential, no treatments have been approved for CCHF. Antiviral inhibitory peptides, which antagonize viral entry, are licensed for clinical use in certain viral infections and have been experimentally designed against human pathogenic bunyaviruses, with in vitro and in vivo efficacies. We designed inhibitory peptides against CCHFV with and without conjugation to various polyethylene glycol and sterol groups. These additions have been shown to enhance both cellular uptake and antiviral activity. Peptides were evaluated against pseudotyped and wild-type CCHFV via neutralization tests, Nairovirus fusion assays, and cytotoxicity profiling. Four peptides neutralized CCHFV with two of these peptides shown to inhibit viral fusion. This work represents the development of experimental countermeasures for CCHF, describes a nairovirus immunofluorescence fusion assay, and illustrates the utility of pseudotyped CCHFV for the screening of entry antagonists at low containment settings for CCHF.

Published

2022

12. An Overview of the Infectious Cycle of Bunyaviruses

Author

Hani Boshra

Subjects

Orthobunyavirus, Infectious Diseases, Bunyaviridae, Virology, Animals, RNA Viruses, Virus Replication, Antiviral Agents, virology

Abstract

Bunyaviruses represent the largest group of RNA viruses and are the causative agent of a variety of febrile and hemorrhagic illnesses. Originally characterized as a single serotype in Africa, the number of described bunyaviruses now exceeds over 500, with its presence detected around the world. These predominantly tri-segmented, single-stranded RNA viruses are transmitted primarily through arthropod and rodent vectors and can infect a wide variety of animals and plants. Although encoding for a small number of proteins, these viruses can inflict potentially fatal disease outcomes and have even developed strategies to suppress the innate antiviral immune mechanisms of the infected host. This short review will attempt to provide an overall description of the order Bunyavirales, describing the mechanisms behind their infection, replication, and their evasion of the host immune response. Furthermore, the historical context of these viruses will be presented, starting from their original discovery almost 80 years ago to the most recent research pertaining to viral replication and host immune response.

Published

2022

13. Endoplasmic Stress Affects the Coinfection of Leishmania Amazonensis and the Phlebovirus (Bunyaviridae) Icoaraci

Author

José V. dos Santos, Patricia F. Freixo, Áislan de C. Vivarini, Jorge M. Medina, Lucio A. Caldas, Marcia Attias, Karina L. Dias Teixeira, Teresa Cristina C. Silva, and Ulisses G. Lopes

Subjects

Leishmania, Phlebovirus, Infectious Diseases, Orthobunyavirus, Coinfection, ER stress, Virology, Endoribonucleases, Animals, Humans, Protein Serine-Threonine Kinases, Leishmaniasis

Abstract

Viral coinfections can modulate the severity of parasitic diseases, such as human cutaneous leishmaniasis. Leishmania parasites infect thousands of people worldwide and cause from single cutaneous self-healing lesions to massive mucosal destructive lesions. The transmission to vertebrates requires the bite of Phlebotomine sandflies, which can also transmit Phlebovirus. We have demonstrated that Leishmania infection requires and triggers the Endoplasmic stress (ER stress) response in infected macrophages. In the present paper, we tested the hypothesis that ER stress is increased and required for the aggravation of Leishmania infection due to coinfection with Phlebovirus. We demonstrated that Phlebovirus Icoaraci induces the ER stress program in macrophages mediated by the branches IRE/XBP1 and PERK/ATF4. The coinfection with L. amazonensis potentiates and sustains the ER stress, and the inhibition of IRE1α or PERK results in poor viral replication and decreased parasite load in macrophages. Importantly, we observed an increase in viral replication during the coinfection with Leishmania. Our results demonstrated the role of ER stress branches IRE1/XBP1 and PERK/ATF4 in the synergic effect on the Leishmania increased load during Phlebovirus coinfection and suggests that Leishmania infection can also increase the replication of Phlebovirus in macrophages.

Published

2022

14. Novel murine models for studying Cache Valley virus pathogenesis and in utero transmission

Author

Orchid M. Allicock, Sarah N. Wilson, Manette Tanelus, John A. Muller, Sheryl Coutermash-Ott, William B. Stone, Albert J. Auguste, Dawn I. Auguste, Krisangel López, Sally L. Paulson, Danielle L. Porier, and Jesse H. Erasmus

Subjects

Epidemiology, Cache-Valley virus, Immunology, Mosquito Vectors, Biology, Bunyaviridae Infections, Microbiology, Orthobunyavirus, law.invention, murine model, Pathogenesis, Human health, Emerging pathogen, orthobunyavirus, Mice, law, Pregnancy, Virology, Drug Discovery, Animals, Bunyamwera virus, business.industry, pathogenesis, food and beverages, General Medicine, biology.organism_classification, animal models, Infectious Disease Transmission, Vertical, Disease Models, Animal, Infectious Diseases, Transmission (mechanics), Murine model, Cache Valley virus, Parasitology, Livestock, Female, business, Research Article

Abstract

Cache Valley virus (CVV) is a prevalent emerging pathogen of significant importance to agricultural and human health in North America. Emergence in livestock can result in substantial agroeconomic losses resulting from the severe embryonic lethality associated with infection during pregnancy. Although CVV pathogenesis has been well described in ruminants, small animal models are still unavailable, which limits our ability to study its pathogenesis and perform preclinical testing of therapeutics. Herein, we explored CVV pathogenesis, tissue tropism, and disease outcomes in a variety of murine models, including immune -competent and -compromised animals. Our results show that development of CVV disease in mice is dependent on innate immune responses, and type I interferon signalling is essential for preventing infection in mice. IFN-αβR-/- mice infected with CVV present with significant disease and lethal infections, with minimal differences in age-dependent pathogenesis, suggesting this model is appropriate for pathogenesis-related, and short- and long-term therapeutic studies. We also developed a novel CVV in utero transmission model that showed high rates of transmission, spontaneous abortions, and congenital malformations during infection. CVV infection presents a wide tissue tropism, with significant amplification in liver, spleen, and placenta tissues. Immune-competent mice are generally resistant to infection, and only show disease in an age dependent manner. Given the high seropositivity rates in regions of North America, and the continuing geographic expansion of competent mosquito vectors, the risk of epidemic and epizootic emergence of CVV is high, and interventions are needed for this important pathogen.

Published

2021

15. Genomic Detection of Schmallenberg Virus, Israel

Author

Tzvika Benor, Asael Rot, Jacob Brenner, Adi Behar, Mario Yankilevich, Omer Izhaki, and Monica Leszkowicz-Mazuz

Subjects

Microbiology (medical), Asia, Orthobunyavirus, Epidemiology, vector-borne infections, Infectious and parasitic diseases, RC109-216, Bunyaviridae Infections, Ceratopogonidae, Genomic Detection of Schmallenberg Virus, Israel, Bridge (interpersonal), Animals, viruses, Israel, biology, Dispatch, Culicoides, Schmallenberg virus, Genomics, biology.organism_classification, Virology, Insect Vectors, Infectious Diseases, genomic detection, Medicine

Abstract

We discuss genomic detection of Schmallenberg virus in both Culicoides midges and affected ruminants during June 2018–December 2019, demonstrating its circulation in Israel. This region is a geographic bridge between 3 continents and may serve as an epidemiologic bridge for potential Schmallenberg virus spread into Asia.

Published

2021

16. Virome of Giant Panda-Infesting Ticks Reveals Novel Bunyaviruses and Other Viruses That Are Genetically Close to Those from Giant Pandas

Author

Rui Ma, Min Zhao, Haoning Wang, Rong Hou, Kailin Qin, Yu Qian, Han Zhang, Yanshan Zhou, Wei Wu, Jiang Gu, Xiaochun Wang, Quan Shen, Songrui Liu, Jiabin Liu, Wenlei Bi, Xiang Yu, Shixing Yang, Feifei Feng, Zusheng Li, Long Zhang, Guanwei Lan, Chao Chen, Fei Xue, Yan Wang, Huang Chong, Yang Hong, Likai Ji, Yuwei Liu, Dunwu Qi, Tongling Shan, and Wen Zhang

Subjects

Microbiology (medical), Orthobunyavirus, General Immunology and Microbiology, Ecology, Virome, Physiology, Cell Biology, Ticks, Infectious Diseases, Viruses, Genetics, Animals, Ecosystem, Ursidae

Abstract

Tick infestations have been reported as one of the factors threatening the health of giant pandas, but studies of viral pathogens carried by ticks feeding on the blood of giant pandas are limited. To assess whether blood-sucking ticks of giant pandas can carry viral pathogens and if so, whether the viruses in ticks are associated with those previously detected in giant panda hosts, we determined the viromes of ticks detached from giant pandas in a field stocking area in Sichuan Province, southwest China. Using viral metagenomics we identified 32 viral species in ticks, half of which (including anellovirus [

Published

2022

17. Identification of cap-dependent endonuclease inhibitors with broad-spectrum activity against bunyaviruses

Author

Shinsuke Toba, Akihiko Sato, Makoto Kawai, Yoshiyuki Taoda, Yuto Unoh, Shinji Kusakabe, Haruaki Nobori, Shota Uehara, Kentaro Uemura, Keiichi Taniguchi, Masanori Kobayashi, Takeshi Noshi, Ryu Yoshida, Akira Naito, Takao Shishido, Junki Maruyama, Slobodan Paessler, Michael J. Carr, William W. Hall, Kumiko Yoshimatsu, Jiro Arikawa, Keita Matsuno, Yoshihiro Sakoda, Michihito Sasaki, Yasuko Orba, Hirofumi Sawa, and Hiroshi Kida

Subjects

Multidisciplinary, Orthobunyavirus, Cap-dependent endonuclease, Drug Evaluation, Preclinical, Endonucleases, Virus Replication, Antiviral Agents, Mice, Drug Resistance, Viral, Bunyavirus, Animals, Humans, Antiviral compounds

Abstract

Viral hemorrhagic fevers caused by members of the order Bunyavirales comprise endemic and emerging human infections that are significant public health concerns. Despite the disease severity, there are few therapeutic options available, and therefore effective antiviral drugs are urgently needed to reduce disease burdens. Bunyaviruses, like influenza viruses (IFVs), possess a cap-dependent endonuclease (CEN) that mediates the critical cap-snatching step of viral RNA transcription. We screened compounds from our CEN inhibitor (CENi) library and identified specific structural compounds that are 100 to 1,000 times more active in vitro than ribavirin against bunyaviruses, including Lassa virus, lymphocytic choriomeningitis virus (LCMV), and Junin virus. To investigate their inhibitory mechanism of action, drug-resistant viruses were selected in culture. Whole-genome sequencing revealed that amino acid substitutions in the CEN region of drug-resistant viruses were located in similar positions as those of the CEN α3-helix loop of IFVs derived under drug selection. Thus, our studies suggest that CENi compounds inhibit both bunyavirus and IFV replication in a mechanistically similar manner. Structural analysis revealed that the side chain of the carboxyl group at the seventh position of the main structure of the compound was essential for the high antiviral activity against bunyaviruses. In LCMV-infected mice, the compounds significantly decreased blood viral load, suppressed symptoms such as thrombocytopenia and hepatic dysfunction, and improved survival rates. These data suggest a potential broad-spectrum clinical utility of CENis for the treatment of both severe influenza and hemorrhagic diseases caused by bunyaviruses.

Published

2022

18. Oropouche orthobunyavirus infection is mediated by the cellular host factor Lrp1

Author

Madeline M. Schwarz, David A. Price, Safder S. Ganaie, Annie Feng, Nawneet Mishra, Ryan M. Hoehl, Farheen Fatma, Sarah H. Stubbs, Sean P.J. Whelan, Xiaoxia Cui, Takeshi Egawa, Daisy W. Leung, Gaya K. Amarasinghe, and Amy L. Hartman

Subjects

Gene Knockout Techniques, Mice, Orthobunyavirus, Multidisciplinary, Animals, Humans, South America, Virus Internalization, Bunyaviridae Infections, Low Density Lipoprotein Receptor-Related Protein-1

Abstract

Oropouche orthobunyavirus (OROV; Peribunyaviridae ) is a mosquito-transmitted virus that causes widespread human febrile illness in South America, with occasional progression to neurologic effects. Host factors mediating the cellular entry of OROV are undefined. Here, we show that OROV uses the host protein low-density lipoprotein–related protein 1 (Lrp1) for efficient cellular infection. Cells from evolutionarily distinct species lacking Lrp1 were less permissive to OROV infection than cells with Lrp1. Treatment of cells with either the high-affinity Lrp1 ligand receptor-associated protein (RAP) or recombinant ectodomain truncations of Lrp1 significantly reduced OROV infection. In addition, chimeric vesicular stomatitis virus (VSV) expressing OROV glycoproteins (VSV-OROV) bound to the Lrp1 ectodomain in vitro. Furthermore, we demonstrate the biological relevance of the OROV-Lrp1 interaction in a proof-of-concept mouse study in which treatment of mice with RAP at the time of infection reduced tissue viral load and promoted survival from an otherwise lethal infection. These results with OROV, along with the recent finding of Lrp1 as an entry factor for Rift Valley fever virus, highlight the broader significance of Lrp1 in cellular infection by diverse bunyaviruses. Shared strategies for entry, such as the critical function of Lrp1 defined here, provide a foundation for the development of pan-bunyaviral therapeutics.

Published

2022

19. Targeted Mutations in the Fusion Peptide Region of La Crosse Virus Attenuate Neuroinvasion and Confer Protection against Encephalitis

Author

Bradley S. Hollidge, Mary-Virginia Salzano, John M. Ibrahim, Jonathan W. Fraser, Valentina Wagner, Nicole E. Leitner, Susan R. Weiss, Friedemann Weber, Francisco González-Scarano, and Samantha S. Soldan

Subjects

United States, La Crosse virus, fusion peptide, viral encephalitis, neuroinvasion, orthobunyavirus, Bunyavirales, Rats, Mice, Viral Proteins, Infectious Diseases, Encephalitis, California, Virology, Mutation, Mutagenesis, Site-Directed, Animals, Humans, Peptides

Abstract

La Crosse virus (LACV) is a major cause of pediatric encephalitis and aseptic meningitis in the Midwestern, Mid-Atlantic, and Southern United States, where it is an emerging pathogen. The LACV Gc glycoprotein plays a critical role in the neuropathogenesis of LACV encephalitis as the putative virus attachment protein. Previously, we identified and experimentally confirmed the location of the LACV fusion peptide within Gc and generated a panel of recombinant LACVs (rLACVs) containing mutations in the fusion peptide as well as the wild-type sequence. These rLACVs retained their ability to cause neuronal death in a primary embryonic rat neuronal culture system, despite decreased replication and fusion phenotypes. To test the role of the fusion peptide in vivo, we tested rLACVs in an age-dependent murine model of LACV encephalitis. When inoculated directly into the CNS of young adult mice (P28), the rLACV fusion peptide mutants were as neurovirulent as the rLACV engineered with a wild-type sequence, confirming the results obtained in tissue culture. In contrast, the fusion peptide mutant rLACVs were less neuroinvasive when suckling (P3) or weanling (P21) mice were inoculated peripherally, demonstrating that the LACV fusion peptide is a determinant of neuroinvasion, but not of neurovirulence. In a challenge experiment, we found that peripheral challenge of weanling (P21) mice with fusion peptide mutant rLACVs protected from a subsequent WT-LACV challenge, suggesting that mutations in the fusion peptide are an attractive target for generating live-attenuated virus vaccines. Importantly, the high degree of conservation of the fusion peptide amongst the Bunyavirales and, structurally, other arboviruses suggests that these findings are broadly applicable to viruses that use a class II fusion mechanism and cause neurologic disease.

Published

2022

20. A Review of Omics Studies on Arboviruses: Alphavirus, Orthobunyavirus and Phlebovirus

Author

Raphael Eberle, Monika Coronado, Raghuvir Arni, and Rafaela Peinado

Subjects

ddc:050, Phlebovirus, Infectious Diseases, Orthobunyavirus, Virology, Animals, Humans, Alphavirus, Antiviral Agents, Arboviruses

Abstract

Since the intricate and complex steps in pathogenesis and host-viral interactions of arthropod-borne viruses or arboviruses are not completely understood, the multi-omics approaches, which encompass proteomics, transcriptomics, genomics and metabolomics network analysis, are of great importance. We have reviewed the omics studies on mosquito-borne viruses of the Togaviridae, Peribuyaviridae and Phenuiviridae families, specifically for Chikungunya, Mayaro, Oropouche and Rift Valley Fever viruses. Omics studies can potentially provide a new perspective on the pathophysiology of arboviruses, contributing to a better comprehension of these diseases and their effects and, hence, provide novel insights for the development of new antiviral drugs or therapies.

Published

2022

21. Serologic Survey of Mosquito-Borne Viruses in Hunter-Harvested White-Tailed Deer (Odocoileus virginianus), New York State

Author

Keith Tober, Joseph G. Maffei, Alexis Russell, John J. Howard, Alan P. Dupuis, Joanne Oliver, Ilia Rochlin, Collin O'Connor, Moses Cucura, Bryon Backenson, Melissa A. Prusinski, Laura D. Kramer, and James A Sherwood

Subjects

Male, Veterinary medicine, Eastern equine encephalitis virus, New York, Vector Borne Diseases, Odocoileus, Antibodies, Viral, medicine.disease_cause, Arbovirus, Orthobunyavirus, Serology, Neutralization Tests, Seroepidemiologic Studies, Virology, medicine, Animals, Hunting, Seroprevalence, biology, Deer, Articles, biology.organism_classification, medicine.disease, Culicidae, Infectious Diseases, Highlands J virus, Viruses, Enzootic, Female, Parasitology

Abstract

Sera from white-tailed deer (WTD, Odocoileus virginianus) hunter-harvested throughout New York State (NYS), 2007–2015, were tested by plaque reduction neutralization for antibodies against nine mosquito-borne viruses from the families Peribunyaviridae, Flaviviridae, and Togaviridae. Overall, 76.1% (373/490) of sampled WTD were seropositive against at least one virus, and 38.8% were exposed to multiple viruses. The seropositivity rate in adult WTD (78.0%) was significantly greater (P < 0.0001) than that in fawns (47.7%). Neutralizing antibodies against California serogroup viruses were most common in WTD sampled across all regions (67.1%), followed by the Bunyamwera serogroup (BUN) (37.6%). Jamestown Canyon and Cache Valley orthobunyaviruses were responsible for most California and BUN infections, respectively. Seroprevalence rates to West Nile virus were higher in samples originating from Long Island (LI) (19.0%) than in those originating from the central (7.3%), western (5.0%), and Hudson Valley (4.4%) regions of NYS. Antibodies to Eastern equine encephalitis virus were seen primarily in WTD from central NYS (5.1%), where annual enzootic activity occurs, but low rates were documented in western NYS (1.4%) and LI (1.7%). Low rates of Potosi and LaCrosse orthobunyavirus, and Highlands J virus antibodies were detected over the course of this investigation. St. Louis encephalitis virus (or a closely related virus) antibodies were detected in samples collected from central and western NYS, suggesting local virus transmission despite a lack of evidence from routine mosquito surveillance. Serologic results demonstrate the value of WTD in NYS as an indicator of arbovirus distribution and recent transmission on a relatively fine spatial scale.

Published

2021

22. Schmallenberg virus transmission confirmed in north-east Scotland

Subjects

Orthobunyavirus, Scotland, Animals, Bunyaviridae Infections

Published

2022

23. Serological testing of Schmallenberg virus in Swedish wild cervids from 2012 to 2016.

Author

Malmsten, A., Malmsten, J., Blomqvist, G., Näslund, K., Vernersson, C., Hägglund, S., Dalin, A.-M., Ågren, E. O., and Valarcher, J.-F.

Subjects

*SCHMALLENBERG virus, *BUNYAVIRUSES, *DOMESTIC animal diseases, *CERVIDAE, *ANIMALS

Abstract

Background: Schmallenberg virus (SBV) first emerged in Europe in 2011, and in Sweden in late 2012. The virus was still circulating in parts of Europe in 2015. In recent testing, the virus has not been detected in Swedish domestic animals, indicating that it is no longer circulating in Sweden. It is not known if the virus has circulated and is still circulating in Swedish wild cervid populations and whether wildlife can act as virus reservoirs. The aim of this study was to investigate whether SBV has circulated, and is still circulating among wild cervids in Sweden. Results: Ninety-two sera from moose (Alces alces, n = 22), red deer (Cervus elaphus, n = 15), fallow deer (Dama dama, n = 44), and roe deer (Capreolus capreolus, n = 11) were collected and analyzed for antibodies against SBV. The sampling occurred in the southern and middle part of Sweden during three time periods: 1) before the vector season in 2012, 2) after the vector season in 2012, and 3) after the vector season in 2015. Animals from periods 1 and 2 were of varying ages, whereas animals collected in period 3 were born after the vector season 2013. Animals from period 1 (n =15)and3(n = 47) were seronegative, but, 53% (16 of 30) of animals from period 2 were seropositive, determined by SBV competitive ELISA. Samples from period 2 were additionally analyzed for SBV-neutralizing antibodies. Such antibodies were detected in 16/16 SBV-N-antibody-positive, 3/12 negative and 2/2 doubtful sera. The two tests were in accordance at SBV-neutralizing antibody titers of 1:32 or higher. Conclusion: Our results show that SBV circulated among wild cervids during the vector season of 2012. Three years later, no SBV-antibodies were detected in animals born after the vector season 2013. The likely absence of SBV circulation in Sweden, in contrast to other parts of Europe, might be explained by the annual occurrence of a vector-free season due to climate conditions. Interpretations are limited by the small sample-size, but the results suggest that the SBV competitive ELISA has high specificity but might have slightly lower sensitivity compared to a seroneutralization assay, when using samples from wild cervids. [ABSTRACT FROM AUTHOR]

Published

2017

24. Schmallenberg virus in Poland endemic or re‐emerging? A six‐year serosurvey

Author

Julia Kęsik-Maliszewska, Jerzy Rola, Isabel Blanco-Penedo, Áine B. Collins, and Magdalena Larska

Subjects

Veterinary medicine, Orthobunyavirus, 040301 veterinary sciences, Cattle Diseases, Sheep Diseases, Bunyaviridae Infections, Ceratopogonidae, Arbovirus, Virus, 0403 veterinary science, 03 medical and health sciences, Stocking, Seroepidemiologic Studies, medicine, Animals, Seroprevalence, Seroconversion, 030304 developmental biology, 0303 health sciences, Goat Diseases, Sheep, General Veterinary, General Immunology and Microbiology, biology, Goats, Schmallenberg virus, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, medicine.disease, Culicoides, Vector (epidemiology), Cattle, Poland

Abstract

A novel arbovirus, called Schmallenberg virus (SBV), emerged in Europe in 2011 infecting domestic as well as wild ruminants. The virus was first detected in Poland during the 2012 vector season. In order to study the SBV post-epidemic period in Poland, over twenty-one thousand domestic ruminants (cattle, sheep, goats) were tested for SBV infection between 2013 and 2018. Samples were collected as part of the national Bluetongue virus (BTV) surveillance programme. Thirteen per cent of all samples were collected from animals between 6 months and one year of age. Overall, 37.5% of ruminants tested seropositive. The seroprevalence fluctuated yearly and was highest in 2014 and 2017; however, seroconversion was detected in younger animals throughout the study indicating continuous virus circulation during the 6-year study period. A significantly higher proportion of seropositive animals were detected among cattle and older animals. Uneven distribution of seropositive animals between provinces was identified and may be a result of different housing and breeding practices and/or meteorological conditions influencing local and regional vector abundances, rather than farm stocking densities. A small number of animals were identified as being exposed to both SBV and BTV; this is likely due to the fact that the same Culicoides species transmit these two viruses thus increasing the risk of co-exposure. Considering these results, in addition to virological and entomological studies carried out in Poland previously, it can be concluded that SBV is endemic in Poland with cyclical waves of virus circulation happening every 3-4 years.

Published

2020

25. Clinical, MRI, and histopathological findings of congenital focal diplomyelia at the level of L4 in a female crossbred calf

Author

Wunderink, Gerlinde J., Bergwerff, Ursula E.A., Vos, Victoria R., Delany, M.W., Willems, D.S., Hut, P.R., FAH GZ herkauwer, dFAH AVR, Diagnostische beeldvorming, dCSCA AVR, and VPDC pathologie

Subjects

Orthobunyavirus, Ataxia, 040301 veterinary sciences, Myelodysplasia, Congenital diplomyelia, Cattle Diseases, Case Report, Antibodies, Viral, 0403 veterinary science, Lesion, Gross examination, medicine, Animals, Bunny-hop, Pathological, Lumbar Vertebrae, lcsh:Veterinary medicine, General Veterinary, medicine.diagnostic_test, Ataxia & Pollakiuria, business.industry, 0402 animal and dairy science, Magnetic resonance imaging, 04 agricultural and veterinary sciences, General Medicine, Anatomy, Spinal cord, Magnetic Resonance Imaging, 040201 dairy & animal science, Gait, Schmallenberg virus, Calf, medicine.anatomical_structure, Spinal Cord, Etiology, lcsh:SF600-1100, Cattle, Female, medicine.symptom, business

Abstract

Background This case report describes the clinical signs of a calf with focal diplomyelia at the level of the fourth lumbar vertebra. Magnetic resonance imaging (MRI) images and histological findings of the affected spinal cord are included in this case report. This case differs from previously reported cases in terms of localization and minimal extent of the congenital anomaly, clinical symptoms and findings during further examinations. Case presentation The calf was presented to the Farm Animal Health clinic, Faculty of Veterinary Medicine, Utrecht University, with an abnormal, stiff, ‘bunny-hop’ gait of the pelvic limbs. Prominent clinical findings included general proprioceptive ataxia with paraparesis, pathological spinal reflexes of the pelvic limbs and pollakiuria. MRI revealed a focal dilated central canal, and mid-sagittal T2 hyperintense band in the dorsal part of the spinal cord at the level of the third to fourth lumbar vertebra. By means of histology, the calf was diagnosed with focal diplomyelia at the level of the fourth lumbar vertebra, a rare congenital malformation of the spinal cord. The calf tested positive for Schmallenberg virus antibodies, however this is not considered to be part of the pathogenesis of the diplomyelia. Conclusions This case report adds value to future clinical practice, as it provides a clear description of focal diplomyelia as a previously unreported lesion and details its diagnosis using advanced imaging and histology. This type of lesion should be included in the differential diagnoses when a calf is presented with a general proprioceptive ataxia of the hind limbs. In particular, a ‘bunny-hop’ gait of the pelvic limbs is thought to be a specific clinical symptom of diplomyelia. This case report is of clinical and scientific importance as it demonstrates the possibility of a focal microscopic diplomyelia, which would not be evident by gross examination alone, as a cause of hind-limb ataxia. The aetiology of diplomyelia in calves remains unclear.

Published

2020

26. Serosurveillance of Schmallenberg virus in wild ruminants in Spain

Author

María Cruz Arnal, Félix Gómez-Guillamón, Saúl Jiménez-Ruiz, Daniel Fernández de Luco, María Ángeles Risalde, Joaquín Vicente, María José Gens, Paloma Prieto, Ignacio García-Bocanegra, David Cano-Terriza, Pelayo Acevedo, Ministerio de Economía y Competitividad (España), Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, and Universidad de Castilla La Mancha

Subjects

Veterinary medicine, Orthobunyavirus, Sheep Diseases, Animals, Wild, Enzyme-Linked Immunosorbent Assay, Antibodies, Viral, Bunyaviridae Infections, Capra pyrenaica, Capreolus, Rupicapra pyrenaica, Seroepidemiologic Studies, biology.animal, Animals, Seroprevalence, Sheep, Domestic, Goat Diseases, Sheep, General Veterinary, General Immunology and Microbiology, biology, Deer, Goats, Schmallenberg virus, Ruminants, General Medicine, Barbary sheep, Rupicapra, biology.organism_classification, Europe, Roe deer, Mouflon, Spain

Abstract

Schmallenberg disease (SBD) is an emerging vector‐borne disease that affects domestic and wild ruminants. A long‐term serosurvey was conducted to assess exposure to Schmallenberg virus (SBV) in all the wild ruminant species present in mainland Spain. Between 2010 and 2016, sera from 1,216 animals were tested for antibodies against SBV using a commercial blocking ELISA. The overall prevalence of antibodies was 27.1% (95%CI: 24.7–29.7). Statistically significant differences among species were observed, with significantly higher seropositivity found in fallow deer (Dama dama) (45.6%; 99/217), red deer (Cervus elaphus) (31.6%; 97/307) and mouflon (Ovis aries musimon) (28.0%; 33/118) compared to Barbary sheep (Ammotragus lervia) (22.2%; 8/36), Iberian wild goat (Capra pyrenaica) (19.9%; 49/246), roe deer (Capreolus capreolus) (17.5%; 34/194) and Southern chamois (Rupicapra pyrenaica) (10.2%; 10/98). Seropositive animals were detected in 81.4% (57/70; 95%CI: 70.8–88.8) of the sampled populations. SBV seroprevalence ranged from 18.8% (48/256) in bioregion (BR)2 (north‐central, Mediterranean) to 32.3% (31/96) in BR1 (northeastern or Atlantic, Eurosiberian). Anti‐SBV antibodies were not found before 2012, when the first outbreak of SBD was reported in Spain. In contrast, seropositivity was detected uninterruptedly during the period 2012–2016 and anti‐SBV antibodies were found in yearling animals in each of these years. Our results provide evidence of widespread endemic circulation of SBV among wild ruminant populations in mainland Spain in recent years. Surveillance in these species could be a useful tool for monitoring SBV in Europe, particularly in areas where wild ruminants share habitats with livestock., This work has benefited from the financial aid of research grants funded by Spanish Ministry of Economy and Competitiveness (AGL2013‐49159‐C2‐2‐R, AGL2016‐76358‐R and CGL2017‐89866‐R). S. Jiménez‐Ruiz holds a PhD contract from the UCLM co‐supported by the European Social Fund (2018/12504).

Published

2020

27. Shuni Virus in Wildlife and Nonequine Domestic Animals, South Africa

Author

J.H. Williams, Jan G. Myburgh, Jumari Steyn, Pebetsi Motlou, Louwtjie P. Snyman, Voula Stivaktas, Eva Pérez-Martín, Marthi A. Pretorius, Charmaine van Eeden, Marietjie Venter, Peter Buss, Brianna R. Beechler, Anna E. Jolles, and Johan Christian Abraham Steyl

Subjects

Microbiology (medical), Veterinary medicine, Epidemiology, Range (biology), wildlife, 030231 tropical medicine, Wildlife, RT-PCR, Neurologic Signs, lcsh:Medicine, Animals, Wild, Bunyaviridae Infections, Orthobunyavirus, lcsh:Infectious and parasitic diseases, 03 medical and health sciences, orthobunyavirus, South Africa, 0302 clinical medicine, Animals, Shuni virus, viruses, lcsh:RC109-216, 030212 general & internal medicine, neurological disease, biology, lcsh:R, Dispatch, biology.organism_classification, Shuni Virus in Wildlife and Nonequine Domestic Animals, South Africa, Domestic animals, Infectious Diseases, Animals, Domestic

Abstract

We screened nonequine animals with unexplained neurologic signs or death in South Africa during 2010-2018 for Shuni virus (SHUV). SHUV was detected in 3.3% of wildlife, 1.1% of domestic, and 2.0% of avian species. Seropositivity was also demonstrated in wildlife. These results suggest a range of possible SHUV hosts in Africa.

Published

2020

28. Identification of Bunyamwera and Possible Other Orthobunyavirus Infections and Disease in Cattle during a Rift Valley Fever Outbreak in Rwanda in 2018

Author

Marie Fausta Dutuze, Manassé Nzayirambaho, Isidore Mapendo Gafarasi, Rebecca C. Christofferson, Angelique Ingabire, and Solange Uwituze

Subjects

Orthobunyavirus, Rift Valley Fever, 030231 tropical medicine, Cattle Diseases, medicine.disease_cause, Bunyaviridae Infections, Virus, Disease Outbreaks, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Virology, medicine, Animals, Humans, Bunyamwera virus, Rift Valley fever, Sanger sequencing, Molecular Epidemiology, Molecular epidemiology, biology, Coinfection, Goats, Rwanda, Outbreak, High-Throughput Nucleotide Sequencing, Articles, medicine.disease, biology.organism_classification, Rift Valley fever virus, Batai virus, Infectious Diseases, symbols, RNA, Viral, Parasitology, Cattle, Female

Abstract

In 2018, a large outbreak of Rift Valley fever (RVF)–like illness in cattle in Rwanda and surrounding countries was reported. From this outbreak, sera samples from 157 cows and 28 goats suspected to be cases of RVF were tested to confirm or determine the etiology of the disease. Specifically, the hypothesis that orthobunyaviruses—Bunyamwera virus (BUNV), Batai virus (BATV), and Ngari virus (NRIV)—were co-circulating and contributed to RVF-like disease was tested. Using reverse transcriptase-polymerase chain reaction (RT-PCR), RVFV RNA was detected in approximately 30% of acutely ill animals, but in all cases of hemorrhagic disease. Seven cows with experienced abortion had positive amplification and visualization by gel electrophoresis of all three segments of either BUNV or BATV, and three of these were suggested to be coinfected with BUNV and BATV. On sequencing, five of these seven cows were conclusively positive for BUNV. However, in several other animals, sequencing was successful for some but not all segments of targeted viruses BUNV and BATV. In addition, there was evidence of RVFV–orthobunyavirus coinfection, through RT-PCR/gel electrophoresis and subsequent Sanger sequencing. In no cases were we able to definitely identify the specific coinfecting viral species. This is the first time evidence for orthobunyavirus circulation has been molecularly confirmed in Rwanda. Furthermore, RT-PCR results suggest that BUNV and BATV may coinfect cattle and that RVFV-infected animals may be coinfected with other orthobunyaviruses. Finally, we confirm that BUNV and, perhaps, other orthobunyaviruses were co-circulating with RVFV and contributed to the burden of disease attributed to RVFV in Rwanda.

Published

2020

29. Low incidence of Schmallenberg virus infection in natural cases of abortion in domestic ruminants in Hungary

Author

Levente Szeredi, Ákos Hornyák, Szilárd Jánosi, Ádám Dán, and Péter Malik

Subjects

Orthobunyavirus, 040301 veterinary sciences, Cattle Diseases, Sheep Diseases, Brain tissue, Biology, Abortion, Bunyaviridae Infections, Real-Time Polymerase Chain Reaction, 030308 mycology & parasitology, 0403 veterinary science, 03 medical and health sciences, medicine, Animals, Sheep, Domestic, Epizootic, Hungary, 0303 health sciences, Goat Diseases, Sheep, General Veterinary, Goats, Incidence, Incidence (epidemiology), Outbreak, Schmallenberg virus, 04 agricultural and veterinary sciences, Abortion, Veterinary, medicine.disease, biology.organism_classification, Virology, Cattle, Female, Encephalitis

Abstract

An epizootic caused by a new orthobunyavirus called Schmallenberg virus (SBV) was recognised in European ruminants in 2011 and 2012. The re-emergence of the infection was reported in several countries in the subsequent years. Although the main clinical sign of SBV infection is abortion, the impact of SBV in natural cases of abortion in domestic ruminants had not been systematically examined before this study. The aim of the study was to investigate the role of SBV infection and to compare it to the importance of other causes of abortion by examining 537 natural cases of abortion that had occurred between 2011 and 2017 in Hungary. The cause of abortion was determined in 165 (31%) cases. An infectious cause was proved in 88 (16%) cases. SBV infection was found only in a total of four cases (0.8%) using real-time polymerase chain reaction. Three of them proved to be inapparent SBV infection, and one case was attributed to SBV-induced abortion by detecting non-purulent encephalitis and SBV nucleoprotein by immunohistochemistry in a brain tissue sample. According to the results, SBV played a minor role in natural cases of domestic ruminant abortion in Hungary during the 7-year period following the first SBV outbreak in 2011.

Published

2020

30. Two Akabane virus glycoprotein Gc domains induce neutralizing antibodies in mice

Author

Yohsuke OGAWA, Masahiro EGUCHI, and Yoshihiro SHIMOJI

Subjects

Rodent Diseases, Mice, Orthobunyavirus, General Veterinary, Viral Envelope Proteins, Animals, Antibodies, Monoclonal, Antibodies, Viral, Bunyaviridae Infections, Antibodies, Neutralizing, Recombinant Proteins, Glycoproteins

Abstract

Akabane virus (AKAV), belonging to the genus Orthobunyavirus and family Peribunyaviridae, causes reproductive and congenital abnormalities in ruminants. Its envelope glycoprotein Gc is a neutralizing antigen, on which at least five distinct antigenic regions have been identified. We attempted to identify the domains using truncated recombinant AKAV Gc proteins expressed in Escherichia coli and monoclonal antibodies (mAbs) with AKAV-neutralizing activity. Dot blot analysis revealed that amino acid positions 1-97 and 189-397 (Gc

Published

2022

31. Virome of Bat-Infesting Arthropods: Highly Divergent Viruses in Different Vectors

Author

W.H. Yang, Yun Feng, George F. Gao, Xinxin Chen, Ziqian Xu, Guodong Liang, Shihong Fu, William J. Liu, and Mang Shi

Subjects

China, animal structures, viruses, Immunology, Reoviridae, Zoology, Ectoparasitic Infestations, Microbiology, Virus, Orthobunyavirus, stomatognathic system, Chiroptera, Virology, Animals, RNA Viruses, Human virome, Mononegavirales, Arthropods, Phylogeny, Virus classification, Disease Reservoirs, biology, Virome, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Genetic Diversity and Evolution, Insect Science, Picornavirales, Arthropod, Arboviruses

Abstract

Bats are reservoirs of important zoonotic viruses like Nipah and SARS viruses. However, whether the blood-sucking arthropods on the body surface of bats also carry these viruses and the relationship between viruses carried by the blood-sucking arthropods and viruses carried by bats have not been reported. This study collected 686 blood-sucking arthropods on the body surface of bats from Yunnan Province, China, between 2012 and 2015, and they included wingless bat flies, bat flies, ticks, mites, and fleas. The viruses carried by these arthropods were analyzed using a meta-transcriptomic approach, and 144 highly diverse positive-sense single-stranded RNA, negative-sense single-stranded RNA, and double-stranded RNA viruses were found, of which 138 were potentially new viruses. These viruses were classified into 14 different virus families or orders, including Bunyavirales, Mononegavirales, Reoviridae, and Picornavirales. Further analyses found that Bunyavirales were the most abundant virus group (84% of total virus RNA) in ticks, whereas narnaviruses were the most abundant (52 to 92%) in the bat flies and wingless bat flies libraries, followed by solemoviruses (1 to 29%) and reoviruses (0 to 43%). These viruses were highly structured based on the arthropod types. It is worth noting that no bat-borne zoonotic viruses were found in the virome of bat-infesting arthropod, seemingly not supporting that bat surface arthropods are vectors of zoonotic viruses carried by bats. IMPORTANCE Bats are reservoirs of many important viral pathogens. To evaluate whether bat-parasitic blood-sucking arthropods participate in the circulation of these important viruses, it is necessary to conduct unbiased virome studies on these arthropods. We evaluated five types of blood-sucking parasitic arthropods on the surface of bats in Yunnan, China, and identified a variety of viruses, some of which had high prevalence and abundance levels, although there is limited overlap in virome between distant arthropods. While most of the virome discovered here is potentially arthropod-specific viruses, we identified three possible arboviruses, including one orthobunyavirus and two vesiculoviruses (family Rhabdoviridae), suggesting bat-parasitic arthropods carry viruses with risk of spillage, which warrants further study.

Published

2022

32. Vector competence and immune response of Aedes aegypti for Ebinur Lake virus, a newly classified mosquito-borne orthobunyavirus

Author

Cihan Yang, Fei Wang, Doudou Huang, Haixia Ma, Lu Zhao, Guilin Zhang, Hailong Li, Qian Han, Dennis Bente, Ferdinand Villanueva Salazar, Zhiming Yuan, and Han Xia

Subjects

Mice, Infectious Diseases, Orthobunyavirus, Aedes, Zika Virus Infection, Public Health, Environmental and Occupational Health, Immunity, Animals, Female, Mosquito Vectors, Zika Virus, Viral Load

Abstract

The global impact of mosquito-borne diseases has increased significantly over recent decades. Ebinur Lake virus (EBIV), a newly classified orthobunyavirus, is reported to be highly pathogenic in adult mice. The evaluation of vector competence is essential for predicting the arbovirus transmission risk. Here, Aedes aegypti was applied to evaluate EBIV infection and dissemination in mosquitos. Our experiments indicated that Ae. aegypti had the possibility to spread EBIV (with a transmission rate of up to 11.8% at 14 days post-infection) through biting, with the highest viral dose in a single mosquito’s saliva reaching 6.3 plaque-forming units. The highest infection, dissemination and ovary infection rates were 70%, 42.9%, and 29.4%, respectively. The high viral infection rates in Ae. aegypti ovaries imply the possibility of EBIV vertical transmission. Ae. aegypti was highly susceptible to intrathoracic infection and the saliva-positive rate reached 90% at 10 days post-infection. Transcriptomic analysis revealed Toll and Imd signaling pathways were implicated in the mosquito’s defensive response to EBIV infection. Defensin C and chitinase 10 were continuously downregulated in mosquitoes infected via intrathoracic inoculation of EBIV. Comprehensive analysis of the vector competence of Ae. aegypti for EBIV in laboratory has indicated the potential risk of EBIV transmission through mosquitoes. Moreover, our findings support a complex interplay between EBIV and the immune system of mosquito, which could affect its vector competence.

Published

2022

33. Rapid detection of the emerging tick-borne Tamdy virus by TaqMan-based real-time reverse transcription PCR

Author

Mingxue Cui, Hong Zhou, Bin Zhang, Michael J. Carr, Moujian Guo, and Weifeng Shi

Subjects

Orthobunyavirus, Ticks, Reverse Transcriptase Polymerase Chain Reaction, Virology, Animals, Humans, Reverse Transcription, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Thogotovirus

Abstract

Tamdy virus (TAMV) is an emerging zoonotic tick-borne arbovirus in the genus Orthonairovirus. Reports of human infections with TAMV have been increasing and development of a rapid detection assay is thus urgently required. In the present study, singleplex and dual-target real-time reverse transcription PCR (qRT-PCR) assays were established for the detection of TAMV. Sensitivity and specificity were evaluated, which demonstrated high sensitivity for both the singleplex and dual-target qRT-PCR assays with no cross-reaction with common bunyaviruses and tick-borne viruses. The TaqMan-based qRT-PCR methodology established in this study can be employed for epidemiological surveillance and pathogenesis studies of TAMV.

Published

2022

34. Different organ and tissue tropism between Akabane virus genogroups in a mouse model

Author

Akiko Takenaka-Uema, Hiromichi Matsugo, Kosuke Ohira, Wataru Sekine, Shin Murakami, and Taisuke Horimoto

Subjects

Cancer Research, Disease Models, Animal, Mice, Infectious Diseases, Orthobunyavirus, Genotype, Virology, Animals, Cattle, Bunyaviridae Infections, Encephalomyelitis, Tropism

Abstract

Akabane virus (AKAV) is an etiological agent that is teratogenic to the fetus of domestic ruminants, causing a significant loss of reproduction in livestock. In East Asia, AKAV isolates form two major clusters: genogroups I and II. In recent years, genogroup I isolates have also been associated with postnatal encephalomyelitis, mainly in calves. Here, we compared the pathogenicity in mice using genogroup I Iriki and genogroup II OBE-1 strains. Only mice infected intraperitoneally with the Iriki strain died and showed marked replication in the central nervous system (CNS) and lymphoid tissues. A more elevated blood-brain barrier (BBB) permeability was found in the Iriki-infected mice in the clinical phase, indicating that the BBB might be a possible route of viral transmission from the periphery to the CNS. These findings demonstrate that the Iriki strain presents greater neurovirulence and neuroinvasiveness compared with the OBE-1 strain, determining different AKAV pathogenicity among genogroups.

Published

2022

35. Insights into Two-Metal-Ion Catalytic Mechanism of Cap-Snatching Endonuclease of Ebinur Lake Virus in

Author

Wenhua, Kuang, Huanyu, Zhang, Yan, Cai, Guilin, Zhang, Fei, Deng, Hailong, Li, Zhihong, Hu, Yu, Guo, Manli, Wang, Yiwu, Zhou, and Peng, Gong

Subjects

Enzyme Activation, RNA Caps, Viral Proteins, Orthobunyavirus, Mutation, Animals, RNA, Messenger, Endonucleases, Catalysis, Genome Replication and Regulation of Viral Gene Expression

Abstract

The cap-snatching endonuclease (EN) of segmented negative-strand RNA viruses (sNSVs) produces short capped primers for viral transcription by cleaving the host mRNAs. EN requires divalent metals as cofactors for nucleic acid substrates cleavage; however, the detailed mechanism of metal ion-dependent catalysis of ENs remains obscure. In this work, we reported the EN crystal structure of the Ebinur Lake virus (EBIV), an emerging mosquito-borne orthobunyavirus, and investigated its enzymatic properties and metal ion-based catalytic mechanism. In vitro biochemical data showed that EBIV EN is a specific RNA nuclease and prefers to cleave unstructured uridine-rich ssRNA. Structural comparison indicated that the overall structural architecture of EBIV EN is similar to that of other sNSV ENs, while the detailed active site configuration including the binding state of metal ions and the conformation of the LA/LB loop pair is different. Based on sequence conservation analysis, nine active site mutants were constructed, and seven crystal structures of them were determined. Mutations of active site residues associated with the two metal ions (Mn1 and Mn2) coordination abolished EN activity. Crystallographic analyses further revealed that none of these mutants bound two metal ions simultaneously in the active site. Importantly, we found that the perturbation of Mn1-coordination (metal site 1), resulted in the enhancement or elimination of Mn2-coordination (metal site 2). Taken together, our data provide structural evidence to support the two-metal-ion catalytic mechanism of EBIV EN and the correlation of metal binding at the two binding sites, which may be commonly shared by bunyaviruses or other sNSVs. IMPORTANCE The viral endonucleases (ENs) encoded by bunyaviruses and orthomyxoviruses play an essential role in initiating transcription by “snatching” capped primers from the host mRNAs. These ENs are metal-ion-dependent nucleases; however, the details of their catalytic mechanism remain elusive. Here, we reported high-resolution crystal structures of the wild-type and mutant ENs of a novel bunyavirus, the Ebinur Lake virus (EBIV), and revealed the structure and function relationship of EN. The EBIV EN exhibited differences in the details of active site structure compared to its homologues. Our data provided structural evidence to support a two-metal-ion catalytic mechanism of EBIV EN, and found the correlation of metal binding at both binding sites, which might reflect the dynamic structural properties that correlate to EN catalytic function. Taken together, our results revealed the structural characteristics of EBIV EN and made important implications for understanding the catalytic mechanism of cap-snatching ENs.

Published

2022

36. Incomplete bunyavirus particles can cooperatively support virus infection and spread

Author

Erick Bermúdez-Méndez, Kirsten F. Bronsvoort, Mark P. Zwart, Sandra van de Water, Ingrid Cárdenas-Rey, Rianka P. M. Vloet, Constantianus J. M. Koenraadt, Gorben P. Pijlman, Jeroen Kortekaas, Paul J. Wichgers Schreur, and Microbiële Ecologie (ME)

Subjects

Orthobunyavirus, Rift Valley Fever, Laboratory of Virology, General Biochemistry, Genetics and Molecular Biology, Laboratorium voor Virologie, Life Science, Animals, Humans, Laboratory of Entomology, Mammals, Host Pathogen Interaction & Diagnostics, General Immunology and Microbiology, General Neuroscience, Bacteriologie, Virion, Bacteriology, Bacteriology, Host Pathogen Interaction & Diagnostics, Rift Valley fever virus, PE&RC, Laboratorium voor Entomologie, Host Pathogen Interactie & Diagnostiek, Virology & Molecular Biology, Virologie & Moleculaire Biologie, Culicidae, Virus Diseases, Bacteriologie, Host Pathogen Interactie & Diagnostiek, General Agricultural and Biological Sciences, Arboviruses

Abstract

Bunyaviruses lack a specific mechanism to ensure the incorporation of a complete set of genome segments into each virion, explaining the generation of incomplete virus particles lacking one or more genome segments. Such incomplete virus particles, which may represent the majority of particles produced, are generally considered to interfere with virus infection and spread. Using the three-segmented arthropod-borne Rift Valley fever virus as a model bunyavirus, we here show that two distinct incomplete virus particle populations unable to spread autonomously are able to efficiently complement each other in both mammalian and insect cells following co-infection. We further show that complementing incomplete virus particles can co-infect mosquitoes, resulting in the reconstitution of infectious virus that is able to disseminate to the mosquito salivary glands. Computational models of infection dynamics predict that incomplete virus particles can positively impact virus spread over a wide range of conditions, with the strongest effect at intermediate multiplicities of infection. Our findings suggest that incomplete particles may play a significant role in within-host spread and between-host transmission, reminiscent of the infection cycle of multipartite viruses.

Published

2022

37. Occurrence of malformed calves in April–May 2021 indicates an unnoticed 2020 emergence of Schmallenberg virus in Denmark

Author

Jørgen S. Agerholm and Kerstin Wernike

Subjects

Veterinary medicine, Orthobunyavirus, First line, Denmark, Peribunyavirus, Cattle Diseases, Body weight, Bunyaviridae Infections, fetal infection, Fetal brain, Late summer, Pregnancy, Seroepidemiologic Studies, medicine, Animals, Viral rna, Arthrogryposis, General Veterinary, General Immunology and Microbiology, biology, Cesarean Section, Schmallenberg virus, General Medicine, Ruminants, biology.organism_classification, Culicoides, malformation, ruminants, RNA, Viral, Cattle, Female, medicine.symptom

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 Cesarean section, veterinarians performing obstetric intervention are first line personnel in recognition of SBV emergence in domestic ruminants. This article is protected by copyright. All rights reserved.

Published

2022

38. Schmallenberg virus: research on viral circulation in Brazil

Author

Leonardo José Richtzenhain, Edviges Maristela Pituco, Maira de Souza Nunes Martins, Liria Hiromi Okuda, and Sueli Akemi Taniwaki

Subjects

medicine.medical_specialty, Orthobunyavirus, Population, Cattle Diseases, Sheep Diseases, Biology, Antibodies, Viral, Bunyaviridae Infections, Microbiology, Arbovirus, Virus, Serology, Medical microbiology, BOVINOS, Congenital malformations in ruminant, Media Technology, medicine, Animals, education, Bunyavirales, education.field_of_study, Sheep, Veterinary Microbiology - Research Paper, Schmallenberg virus, Ruminants, medicine.disease, biology.organism_classification, Virology, Reverse transcription polymerase chain reaction, biology.protein, Cattle, Antibody, Brazil

Abstract

Schmallenberg virus (SBV—Orthobunyavirus serogroup Simbu) is an emerging RNA vector-borne virus which has an important impact in animal health within Europe, and some Asian and African countries. It is mainly reported in ruminants, causing congenital malformations and stillbirths. However, there are no studies regarding the occurrence, diagnosis, or surveillance of SBV in Brazil, due to the lack of diagnostic techniques available so far. This study aimed to implement a reliable diagnostic technique able to detect the SBV in Brazil and also to investigate occurrence of the virus in this country. A molecular technique, quantitative reverse transcription polymerase chain reaction (RT-qPCR), was used to analyze 1665 bovine blood samples and 313 aborted fetuses, as well as 596 serum samples were analyzed by serological analysis. None of the blood and fetus samples analyzed was positive for SBV, and neither serum samples were reactive for antibodies anti-SBV. Thus, although Brazil presents suitable conditions for the dissemination of the SBV, results of the present study suggest that SBV did not propagate in the analyzed bovine population. Supplementary Information The online version contains supplementary material available at 10.1007/s42770-021-00637-6.

Published

2022

39. Development of a syndromic surveillance system for Irish dairy cattle using milk recording data

Author

Alexander P. Douglass, Luke O’Grady, Guy McGrath, Jamie Tratalos, John F. Mee, Damien Barrett, Cosme Sánchez-Miguel, Simon J. More, Aurélien Madouasse, Martin Green, Jamie M. Madden, and Conor G. McAloon

Subjects

Early warning, History, Syndromic surveillance, Orthobunyavirus, Polymers and Plastics, Cattle Diseases, Bunyaviridae Infections, Schmallenberg virus, Industrial and Manufacturing Engineering, Milk, Food Animals, Animals, Animal Science and Zoology, Cattle, Female, Business and International Management, Sentinel Surveillance

Abstract

In the last decade and a half, emerging vector-borne diseases have become a substantial threat to cattle across Europe. To mitigate the impact of the emergence of new diseases, outbreaks must be detected early. However, the clinical signs associated with many diseases may be nonspecific. Furthermore, there is often a delay in the development of new diagnostic tests for novel pathogens which limits the ability to detect emerging disease in the initial stages. Syndromic Surveillance has been proposed as an additional surveillance method that could augment traditional methods by detecting aberrations in non-specific disease indicators. The aim of this study was to develop a syndromic surveillance system for Irish dairy herds based on routinely collected milk recording and meteorological data. We sought to determine whether the system would have detected the 2012 Schmallenberg virus (SBV) incursion into Ireland earlier than conventional surveillance methods. Using 7,743,138 milk recordings from 730,724 cows in 7037 herds between 2007 and 2012, linear mixed-effects models were developed to predict milk yield and alarms generated with temporally clustered deviations from predicted values. Additionally, hotspot spatial analyses were conducted at corresponding time points. Using a range of thresholds, our model generated alarms throughout September 2012, between 4 and 6 weeks prior to the first laboratory confirmation of SBV in Ireland. This system for monitoring milk yield represents both a potentially useful tool for early detection of disease, and a valuable foundation for developing similar tools using other metrics. Department of Agriculture, Food and the Marine

Published

2021

40. Oral susceptibility of aedine and culicine mosquitoes (Diptera: Culicidae) to Batai Orthobunyavirus

Author

Lorraine M. McElhinney, Nicholas Johnson, Maria del Mar Fernández de Marco, Sanam Sewgobind, Anthony R. Fooks, Luis M. Hernández-Triana, Elsa Barrero, Sarah Lumley, and Arran J. Folly

Subjects

Emerging infectious diseases, Male, Culex, Short Report, Infectious and parasitic diseases, RC109-216, Mosquito Vectors, Aedes aegypti, Biology, Bunyaviridae Infections, medicine.disease_cause, Orthobunyavirus, Virus, Zoonosis, Aedes, Culex pipiens, medicine, Animals, Humans, Bunyamwera virus, Saliva, Batai virus, fungi, biology.organism_classification, Virology, Europe, Culicidae, Infectious Diseases, Vector (epidemiology), Female, Parasitology, Vector competence

Abstract

Background A number of zoonotic mosquito-borne viruses have emerged in Europe in recent decades. Batai virus (BATV), a member of the genus Orthobunyavirus, is one example of a relatively newly emerged mosquito-borne virus, having been detected in mosquitoes and livestock. We conducted vector competency studies on three mosquito species at a low temperature to assess whether Aedes and Culex mosquito species are susceptible to infection with BATV. Methods Colonised lines of Aedes aegypti and Culex pipiens and a wild-caught species, Aedes detritus, were orally inoculated with BATV strain 53.2, originally isolated from mosquitoes trapped in Germany in 2009. Groups of blood-fed female mosquitoes were maintained at 20 °C for 7 or 14 days. Individual mosquitoes were screened for the presence of BATV in body, leg and saliva samples for evidence of infection, dissemination and transmission, respectively. BATV RNA was detected by reverse transcription-PCR, and positive results confirmed by virus isolation in Vero cells. Results Aedes detritus was highly susceptible to BATV, with an infection prevalence of ≥ 80% at both measurement time points. Disseminated infections were recorded in 30.7–41.6% of Ae. detritus, and evidence of virus transmission with BATV in saliva samples (n = 1, days post-infection: 14) was observed. Relatively lower rates of infection for Ae. aegypti and Cx. pipiens were observed, with no evidence of virus dissemination or transmission at either time point. Conclusions This study shows that Ae. detritus may be a competent vector for BATV at 20 °C, whereas Ae. aegypti and Cx. pipiens were not competent. Critically, the extrinsic incubation period appears to be ≤ 7 days for Ae. detritus, which may increase the onward transmissibility potential of BATV in these populations. Graphical Abstract

Published

2021

41. The transmission ecology of Tahyna orthobunyavirus in Austria as revealed by longitudinal mosquito sampling and blood meal analysis in floodplain habitats

Author

Jeremy V. Camp, Edwin Kniha, Adelheid G. Obwaller, Norbert Nowotny, and Julia Walochnik

Subjects

Entomology, Orthobunyavirus, Blood meal analysis, Transmission ecology, Mosquito Vectors, Infectious and parasitic diseases, RC109-216, Bunyaviridae Infections, Arbovirus, Mosquito, Wild boar, Aedes, biology.animal, parasitic diseases, medicine, Animals, Humans, Longitudinal Studies, Meals, Ecosystem, Aedes vexans, biology, Ecology, Host (biology), Research, fungi, biology.organism_classification, medicine.disease, Roe deer, Blood, Infectious Diseases, Parasitology, Austria, Female

Abstract

Background Tahyna orthobunyavirus (TAHV) is a mosquito-borne virus that may cause mild flu-like symptoms or neurological symptoms in humans. It is historically associated with floodplain habitats in Central Europe, and the mammalophilic floodwater mosquito, Aedes vexans, is thought to be the principal vector. There are few contemporary reports of TAHV transmission ecology within mosquitoes or their vertebrate hosts, and virus infections are rarely reported (and probably seldom diagnosed). The objectives of this study were to survey the mosquito population for TAHV in three floodwater habitats and describe host usage by the predominant floodwater mosquito species to potentially define TAHV transmission at these foci. Methods We performed longitudinal mosquito sampling along three major rivers in eastern Austria to characterize the mosquito community in floodplain habitats, and tested for the presence of TAHV in pools of mosquitoes. We characterized TAHV rescued from mosquito pool homogenate by sequencing. We surveyed mosquito host selection by analyzing mosquito blood meals. Results We identified TAHV in two pools of Ae. vexans captured along the Leitha River. This mosquito, and other floodwater mosquitoes, used large mammals (red deer, roe deer, wild boar) as their hosts. The sequence of the rescued virus was remarkably similar to other TAHV isolates from the region, dating back to the first isolate of TAHV in 1958. Conclusions In general, we confirmed that TAHV is most likely being transmitted by Ae. vexans, although the precise contribution of vertebrate-amplifying hosts to the ecological maintenance of the virus is unclear. The pattern of host selection matches the estimated exposure of the same large mammal species in the region to TAHV based on a recent serosurvey, but hares were also hosts at the site where TAHV was detected. We also confirm humans as hosts of two floodwater mosquito species, providing a potential mechanism for spillover of TAHV or other mosquito-borne viruses. Graphical Abstract

Published

2021

42. Detection of Antibodies to Lokern, Main Drain, St. Louis Encephalitis, and West Nile Viruses in Vertebrate Animals in Chihuahua, Guerrero, and Michoacán, Mexico

Author

Bradley J. Blitvich, Stephaine Viridiana Laredo-Tiscareño, Ignacio Netzahualcoyotl Barajas-López, Ezequiel Rubio-Tabares, Ramón Rivera-Barreno, Javier A. Garza-Hernández, David Baylon-Jaquez, Diana Marcela Beristain-Ruiz, Chandra S. Tangudu, Jaime Raúl Adame-Gallegos, Rodolfo González-Peña, Carolina Montelongo-Ponce, Alfonso Vega-Durán, Adriana Camacho-Perea, and Carlos Arturo Rodríguez-Alarcón

Subjects

Cache-Valley virus, viruses, Encephalitis Virus, St. Louis, Cattle Diseases, Antibodies, Viral, Microbiology, Orthobunyavirus, Serology, Dengue fever, Dogs, Plaque reduction neutralization test, Virology, medicine, Animals, Dog Diseases, Horses, Mexico, Encephalitis, St. Louis, biology, Zika Virus Infection, St louis encephalitis, Zika Virus, biology.organism_classification, medicine.disease, Flavivirus, Infectious Diseases, Vertebrates, Cattle, Female, Horse Diseases, West Nile virus, West Nile Fever, Encephalitis

Abstract

We conducted serologic surveillance for flaviviruses and orthobunyaviruses in vertebrate animals in Mexico in 2018-2019. Sera were collected from 856 vertebrate animals, including 323 dogs, 223 horses, and 121 cows, from 16 species. The animals were from 3 states: Chihuahua in northwest Mexico (704 animals) and Guerrero and Michoacán on the Pacific Coast (27 and 125 animals, respectively). Sera were assayed by plaque reduction neutralization test using four flaviviruses (dengue type 2, St. Louis encephalitis, West Nile, and Zika viruses) and six orthobunyaviruses from the Bunyamwera (BUN) serogroup (Cache Valley, Lokern, Main Drain, Northway, Potosi, and Tensaw viruses). Antibodies to West Nile virus (WNV) were detected in 154 animals of 9 species, including 89 (39.9%) horses, 3 (21.4%) Indian peafowl, and 41 (12.7%) dogs. Antibodies to St. Louis encephalitis virus (SLEV) were detected in seven animals, including three (0.9%) dogs. Antibodies to Lokern virus (LOKV) were detected in 22 animals: 19 (8.5%) horses, 2 (1.7%) cows, and a dog (0.3%). Antibodies to Main Drain virus (MDV) were detected in three (1.3%) horses. WNV and LOKV activity was detected in all three states, SLEV activity was detected in Chihuahua and Michoacán, and MDV activity was detected in Chihuahua. None of the animals was seropositive for Cache Valley virus, the most common and widely distributed BUN serogroup virus in North America. In conclusion, we provide serologic evidence that select flaviviruses and BUN serogroup viruses infect vertebrate animals in Chihuahua, Guerrero, and Michoacán. We also provide the first evidence of LOKV and MDV activity in Mexico.

Published

2021

43. Simbu Viruses’ Infection of Livestock in Israel—A Transient Climatic Land

Author

Adi Behar and Jacob Brenner

Subjects

Serotype, Orthobunyavirus, Livestock, Climate, Cattle Diseases, Sheep Diseases, Zoology, Review, Subtropics, Arbovirus Infections, Bunyaviridae Infections, Serogroup, Communicable Diseases, Emerging, Mediterranean Basin, Microbiology, Disease Outbreaks, Simbu serogroup, Virology, Animals, emerging disease, Israel, Sheep, biology, business.industry, Akabane virus, Simbu viruses, Mediterranean basin, Culicoides, Simbu virus, Ruminants, biology.organism_classification, QR1-502, Infectious Diseases, Geography, Cattle, business, geographic locations

Abstract

Important lessons have been learned by the Israeli veterinary community regarding Simbu serogroup viruses infections. This serogroup of viruses might cause the births of neonatal malformation in susceptible ruminant’s populations. Until 2012, only Akabane virus was connected with the births of malformed ruminants in Israel. However, serological and genomic detection tests, coupled with viral isolations, revealed that more than a single Simbu serogroup serotype could be present concurrently in the same farm or even in the same animal. From 2012 to date, Aino, Shuni, Shamunda, Satuperi, Peaton, Schmallenberg, and Sango viruses have been found in Israel either by serological or genomic investigation. Israel is located in the Eastern Mediterranean Basin, a terrestrial and climatic bridge between the three old continents. The Eastern Mediterranean shores benefit from both the tropical/subtropical and the continental climatic conditions. Therefore, the Eastern Mediterranean basin might serve as an optimal investigatory compound for several arboviral diseases, acting as a sentinel. This review summarizes updated information related to the presence of Simbu serogroup viruses in Israel.

Published

2021

44. Retrospective molecular investigation of Mayaro and Oropouche viruses at the human-animal interface in West-central Brazil, 2016–2018

Author

Helver Gonçalves Dias, Raquel Curtinhas de Lima, Luciana Santos Barbosa, Thiara Manuele Alves de Souza, Jessica Badolato-Correa, Laura Marina Siqueira Maia, Raquel da Silva Ferreira, Nilvanei Aparecido da Silva Neves, Michell Charlles de Souza Costa, Leticia Ramos Martins, Emerson Marques de Souza, Michellen dos Santos Carvalho, Alexandre de Araujo-Oliveira, William de Almeida Marques, Gilberto Sabino-Santos, Marcio Schafer Marques, Gabriel Carvalho de Macedo, Wesley Arruda Gimenes Nantes, Filipe Martins Santos, Claudia Coutinho Netto, Thais Oliveira Morgado, Mateus de Assis Bianchini, Sandra Helena Ramiro Correa, Júlia Ramos de Almeida, Larissa Pratta Campos, Isabelle Marino de Souza, Wanessa Teixeira Gomes Barreto, Grasiela Porfírio, Jeronimo Augusto Fonseca Alencar, Heitor Miraglia Herrera, Renata Dezengrini Shlessarenko, Rivaldo Venancio da Cunha, Elzinandes Leal de Azeredo, Stephanie J. Salyer, Nicholas Komar, Alex Pauvolid-Corrêa, and Flávia Barreto dos Santos

Subjects

Orthobunyavirus, Multidisciplinary, Zika Virus Infection, Yellow Fever, Animals, Humans, Zika Virus, Brazil, Arboviruses, Retrospective Studies

Abstract

Mayaro virus (MAYV, Togaviridae) and Oropouche orthobunyavirus (OROV, Peribunyaviridae) are emerging enzootic arboviruses in Latin America. Outbreaks of febrile illness associated with MAYV and OROV have been reported among humans mainly in the northern region of Brazil since the 1980s, and recent data suggest these viruses have circulated also in more populated areas of western Brazil. MAYV shares mosquito vectors with yellow fever virus and it has been historically detected during yellow fever epidemics. Aiming to investigate the transmission of OROV and MAYV at the human-animal interface during a yellow fever, chikungunya and Zika outbreaks in Brazil, we conducted a retrospective molecular investigation in 810 wild and domestic animals, 106 febrile patients, and 22.931 vectors collected from 2016 to 2018 in Cuiaba and Campo Grande metropolitan regions, western Brazil. All samples tested negative for OROV and MAYV RNA by RT-qPCR. Findings presented here suggest no active circulation of MAYV and OROV in the sampled hosts. Active surveillance and retrospective investigations are instrumental approaches for the detection of cryptic and subclinical activity of enzootic arboviruses and together serve as a warning system to implement appropriate actions to prevent outbreaks.

Published

2022

45. Monitoring for bovine arboviruses in the most southwestern islands in Japan between 1994 and 2014.

Author

Tomoko Kato, Tohru Yanase, Moemi Suzuki, Yoshito Katagiri, Kazufumi Ikemiyagi, Katsunori Takayoshi, Hiroaki Shirafuji, Seiichi Ohashi, Kazuo Yoshida, Makoto Yamakawa, and Tomoyuki Tsuda

Subjects

*ARBOVIRUSES, *COMMUNICABLE diseases in animals, *ANIMAL industry, *ARBOVIRUS diseases, *CATTLE diseases, *ANIMALS

Abstract

Background: In Japan, epizootic arboviral infections have severely impacted the livestock industry for a long period. Akabane, Aino, Chuzan, bovine ephemeral fever and Ibaraki viruses have repeatedly caused epizootic abnormal births and febrile illness in the cattle population. In addition, Peaton, Sathuperi, Shamonda and D'Aguilar viruses and epizootic hemorrhagic virus serotype 7 have recently emerged in Japan and are also considered to be involved in abnormal births in cattle. The above-mentioned viruses are hypothesized to circulate in tropical and subtropical Asia year round and to be introduced to temperate East Asia by long-distance aerial dispersal of infected vectors. To watch for arbovirus incursion and assess the possibility of its early warning, monitoring for arboviruses was conducted in the Yaeyama Islands, located at the most southwestern area of Japan, between 1994 and 2014. Results: Blood sampling was conducted once a year, in the autumn, in 40 to 60 healthy cattle from the Yaeyama Islands. Blood samples were tested for arboviruses. A total of 33 arboviruses including Akabane, Peaton, Chuzan, D' Aguilar, Bunyip Creek, Batai and epizootic hemorrhagic viruses were isolated from bovine blood samples. Serological surveillance for the bovine arboviruses associated with cattle diseases in young cattle (ages 6-12 months: had only been alive for one summer) clearly showed their frequent incursion into the Yaeyama Islands. In some cases, the arbovirus incursions could be detected in the Yaeyama Islands prior to their spread to mainland Japan. Conclusions: We showed that long-term surveillance in the Yaeyama Islands could estimate the activity of bovine arboviruses in neighboring regions and may provide a useful early warning for likely arbovirus infections in Japan. The findings in this study could contribute to the planning of prevention and control for bovine arbovirus infections in Japan and cooperative efforts among neighboring countries in East Asia. [ABSTRACT FROM AUTHOR]

Published

2016

46. Examining bull semen for residues of Schmallenberg virus RNA

Author

Siva Karuna, Julie Peake, Christopher Finnegan, Falko Steinbach, Akbar Dastjerdi, and S. Anna La Rocca

Subjects

Male, endocrine system, Orthobunyavirus, Cattle Diseases, Semen, Bunyaviridae Infections, Sensitivity and Specificity, Virus, fluids and secretions, Animals, Animal Husbandry, Dairy cattle, General Veterinary, General Immunology and Microbiology, biology, urogenital system, RNA, Outbreak, Schmallenberg virus, General Medicine, Bull semen, biology.organism_classification, Virology, RNA, Viral, Cattle

Abstract

Schmallenberg orthobunyavirus (SBV) was initially detected in 2011 in Germany from dairy cattle with fever and decreased milk yield. The virus infection is now established in many parts of the world with recurrent epidemics. SBV is transmitted through midges and transplacental. No direct virus transmission including via breeding has ever been demonstrated. In some bulls, however, the virus is detectable transiently, in low to minute quantities, in semen post-infection. While the infection is considered of low impact for the dairy industry, some SBV-free countries have adopted a zero-risk approach requiring bull semen batches to be tested for SBV RNA residues prior to import. This, in turn, obligates a protocol to enable sensitive detection of SBV RNA in semen samples for export purposes. Here, we describe how we established a now ISO/IEC 17025 accredited protocol that can effectively detect minute quantities of SBV RNA in semen and also its application to monitor bull semen during two outbreaks in the United Kingdom in 2012 and 2016. The data demonstrate that only a small number of bulls temporarily shed low amounts of SBV.

Published

2021

47. Vesicular Stomatitis Virus Chimeras Expressing the Oropouche Virus Glycoproteins Elicit Protective Immune Responses in Mice

Author

Nischay Mishra, Changhong Zhou, Marjorie Cornejo Pontelli, Juliano de Paula Souza, Sarah H. Stubbs, Rosa Maria Mendes Viana, Sean P. J. Whelan, W. Ian Lipkin, Eurico Arruda, and David M. Knipe

Subjects

Male, 0301 basic medicine, Orthobunyavirus, viruses, 030106 microbiology, Genome, Viral, bunyavirus, Bunyaviridae Infections, Virus Replication, medicine.disease_cause, Microbiology, Virus, emerging infectious diseases, Mice, 03 medical and health sciences, Vesicular Stomatitis, Viral Envelope Proteins, Viral envelope, Virology, medicine, Animals, Neutralizing antibody, biology, REPLICAÇÃO VIRAL, Oropouche virus, Vesiculovirus, vaccines, biology.organism_classification, Antibodies, Neutralizing, QR1-502, Mice, Inbred C57BL, 030104 developmental biology, arbovirus, Vesicular stomatitis virus, biology.protein, Viral load, Research Article

Abstract

Oropouche virus (OROV) infection of humans is associated with a debilitating febrile illness that can progress to meningitis or encephalitis. First isolated from a forest worker in Trinidad and Tobago in 1955, the arbovirus OROV has since been detected throughout the Amazon basin with an estimated 500,000 human infections. Like other members of the family Peribunyaviridae, the viral genome exists as 3 single-stranded negative-sense RNA segments. The medium sized segment encodes a viral glycoprotein complex (GPC) that is proteolytically processed into two viral envelope proteins Gn and Gc responsible for attachment and membrane fusion. There are no therapeutics or vaccines to combat OROV infection, and we have little understanding of protective immunity to infection. Here we generated a replication competent chimeric vesicular stomatitis virus (VSV), in which the endogenous glycoprotein was replaced by the GPC of OROV. Serum from mice immunized with VSV-OROV specifically neutralized wild type OROV, and using peptide arrays we mapped multiple epitopes within an N-terminal variable region of Gc recognized by the immune sera. VSV-OROV lacking this variable region of Gc was also immunogenic in mice producing neutralizing sera that recognize additional regions of Gc. Challenge of both sets of immunized mice with wild type OROV shows that the VSV-OROV chimeras reduce wild type viral infection and suggest that antibodies that recognize the variable N-terminus of Gc afford less protection than those that target more conserved regions of Gc.ImportanceOropouche virus (OROV), an orthobunyavirus found in Central and South America, is an emerging public health challenge that causes debilitating febrile illness. OROV is transmitted by arthropods, and increasing mobilization has the potential to significantly increase the spread of OROV globally. Despite this, no therapeutics or vaccines have been developed to combat infection. Using vesicular stomatitis (VSV) as a backbone, we developed a chimeric virus bearing the OROV glycoproteins (VSV-OROV) and tested its ability to elicit a neutralizing antibody response. Our results demonstrate that VSV-OROV produces a strong neutralizing antibody response that is at least partially targeted to the N-terminal region of Gc. Importantly, vaccination with VSV-OROV reduces viral loads in mice challenged with wildtype virus. This data provides the first evidence that targeting the OROV glycoproteins may be an effective vaccination strategy to combat OROV infection.

Published

2021

48. Mammals Preferred: Reassortment of

Author

Anna, Heitmann, Frederic, Gusmag, Martin G, Rathjens, Maurice, Maurer, Kati, Frankze, Sabine, Schicht, Stephanie, Jansen, Jonas, Schmidt-Chanasit, Klaus, Jung, and Stefanie C, Becker

Subjects

Mammals, Orthobunyavirus, viruses, Communication, Genome, Viral, Cell Line, viral reassortment, Aedes, insect cells, Cricetinae, Chlorocebus aethiops, Animals, RNA, Viral, Bunyamwera virus, Vero Cells, orthobunyaviruses, Phylogeny, Reassortant Viruses

Abstract

Reassortment is a viral genome-segment recomposition known for many viruses, including the orthobunyaviruses. The co-infection of a host cell with two viruses of the same serogroup, such as the Bunyamwera orthobunyavirus and the Batai orthobunyavirus, can give rise to novel viruses. One example is the Ngari virus, which has caused major outbreaks of human infections in Central Africa. This study aimed to investigate the potential for reassortment of Bunyamwera orthobunyavirus and the Batai orthobunyavirus during co-infection studies and the replication properties of the reassortants in different mammalian and insect cell lines. In the co-infection studies, a Ngari-like virus reassortant and a novel reassortant virus, the Batunya virus, arose in BHK-21 cells (Mesocricetus auratus). In contrast, no reassortment was observed in the examined insect cells from Aedes aegypti (Aag2) and Aedes albopictus (U4.4 and C6/36). The growth kinetic experiments show that both reassortants are replicated to higher titers in some mammalian cell lines than the parental viruses but show impaired growth in insect cell lines.

Published

2021

49. Jamestown Canyon virus-mediated meningoencephalitis with unusual laboratory findings

Author

Anmol Hans, Dilpat Kumar, Nicholas Helmstetter, and Fnu Warsha

Subjects

Male, Microbiological culture, viruses, 030231 tropical medicine, Case Report, Encephalitis Virus, California, Orthobunyavirus, 03 medical and health sciences, 0302 clinical medicine, Meningoencephalitis, Intensive care, Medicine, Animals, Humans, 030212 general & internal medicine, Pleocytosis, Jamestown Canyon virus, biology, medicine.diagnostic_test, business.industry, Lumbar puncture, virus diseases, General Medicine, Middle Aged, biology.organism_classification, medicine.disease, Culicidae, Immunoglobulin M, Immunology, business, Laboratories, Meningitis

Abstract

Jamestown Canyon virus (JCV) is a mosquito-borne orthobunyavirus that causes an acute febrile illness, meningitis or meningoencephalitis. Human infections in the USA are rare. A 59-year-old man was admitted with fever, headache and hallucinations and required transfer to intensive care due to worsening agitation. Lumbar puncture was significant for neutrophilic pleocytosis, low glucose and high protein. Cerebral spinal fluid (CSF) bacterial cultures were negative, however, the CSF analysis via ELISA returned positive for JCV IgM. Plaque reduction neutralisation tests on a serum sample revealed IgM for JCV with titres of 1:160, which confirmed the diagnosis of JCV meningoencephalitis as the titres for other arboviruses were low. The patient improved significantly with supportive care. Our case highlights an atypical laboratory presentation of neutrophilic pleocytosis on CSF in a viral meningoencephalitis and draws attention to the potential cross-reactivity with other arboviruses.

Published

2021

50. Genomic and developmental characterisation of a novel bunyavirus infecting the crustacean Carcinus maenas

Author

Thomas B. Waltzek, Donald C. Behringer, Jamie Bojko, Grant D. Stentiford, and Kuttichantran Subramaniam

Subjects

0301 basic medicine, Orthobunyavirus, animal structures, Brachyura, 030106 microbiology, Population, Sequence Homology, lcsh:Medicine, Genome, Viral, Biology, Bunyaviridae Infections, Genome, Article, Virus, Microbial ecology, 03 medical and health sciences, Phylogenetics, Virology, Phylogenomics, Animals, Amino Acid Sequence, Carcinus maenas, education, lcsh:Science, Phylogeny, education.field_of_study, Multidisciplinary, Host (biology), lcsh:R, Genetic Variation, biology.organism_classification, Nucleoprotein, Genetics, Population, 030104 developmental biology, Evolutionary biology, lcsh:Q, Metagenomics

Abstract

Carcinus maenas is in the top 100 globally invasive species and harbours a wide diversity of pathogens, including viruses. We provide a detailed description for a novel bunyavirus (Carcinus maenas Portunibunyavirus 1) infecting C. maenas from its native range in the Faroe Islands. The virus genome is tripartite, including large (L) (6766 bp), medium (M) (3244 bp) and small (S) (1608 bp) negative sense, single-stranded RNA segments. Individual genomic segments are flanked by 4 bp regions of similarity (CCUG). The segments encode an RNA-dependent RNA-polymerase, glycoprotein, non-structural protein with a Zinc-Finger domain and a nucleoprotein. Most show highest identity to the ‘Wenling Crustacean Virus 9’ from an unidentified crustacean host. Phylogenomics of crustacean-infecting bunyaviruses place them across multiple bunyavirus families. We discuss the diversity of crustacean bunyaviruses and provide an overview of how these viruses may affect the health and survival of crustacean hosts, including those inhabiting niches outside of their native range.

Published

2019