Your search keyword '"Orthobunyavirus"' showing total 1,705 results

51. Why are doctors being warned about the Oropouche virus?

Author

Taylor L

Subjects

Humans, Bunyaviridae Infections, Orthobunyavirus, Animals, Physicians psychology

Published

2024

52. Oropouche fever in Brazil: When the time is now.

Author

Diniz D, Brito L, Carino G, and Santos AHD

Subjects

Humans, Brazil epidemiology, Orthobunyavirus, Bunyaviridae Infections epidemiology

Published

2024

53. Epidemiological and clinical overview of the 2024 Oropouche virus disease outbreaks, an emerging/re-emerging neurotropic arboviral disease and global public health threat.

Author

Liu BM

Subjects

Humans, Global Health, Public Health, Bunyaviridae Infections epidemiology, Arbovirus Infections epidemiology, Arbovirus Infections virology, Orthobunyavirus, Disease Outbreaks, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging virology

Published

2024

54. A Scoping Review on the Epidemiology of Orthobunyaviruses of Canadian Public and Animal Health Relevance in the Context of Vector Species.

Author

Bergevin MD, Ng V, Ludwig A, Sadeghieh T, Menzies P, Mubareka S, and Clow KM

Subjects

Animals, Canada epidemiology, Humans, Bunyaviridae Infections epidemiology, Bunyaviridae Infections transmission, Culicidae virology, Orthobunyavirus, Mosquito Vectors virology

Abstract

Background: Mosquito-borne orthobunyaviruses are a growing priority for public and animal health in Canada. It is anticipated that disease incidence will increase due to a warming climate, given that habitats are expanding for reservoir hosts and vectors, particularly in Canada. Little is known about the ecology of primary vectors that perpetuate these orthobunyaviruses, including the viral transmission cycle and the impact of climatic and landscape factors. Methods: A scoping review was conducted to describe the current state of knowledge on the epidemiology of orthobunyaviruses relevant to Canada. The Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for Scoping Reviews guidelines was used to characterize studies focused on vector species. A literature search was conducted in six databases and gray literature. Eligible studies characterized orthobunyavirus epidemiology related to vector species, including viral competency, geospatial distributions, seasonal trends, and/or risk factors. Results: A total of 1734 unique citations were identified. Screening of these citations revealed 172 relevant studies, from which 87 studies presented primary data related to vectors. The orthobunyaviruses included Cache Valley virus (CVV), Jamestown Canyon virus (JCV), Snowshoe Hare virus (SHV), and La Crosse virus (LACV). Surveillance was the predominant study focus, with most citations representing the United States, specifically, LACV surveillance in Tennessee, followed by CVV and JCV in Connecticut. Orthobunyaviruses were detected in many mosquito species across multiple genera, with high vector specificity only being reported for LACV, which included Aedes triseriatus , Aedes albopictus , and Aedes japonicus. Peridomestic areas were positively associated with infected mosquitoes compared with dense forests. Orthobunyavirus infections, coinfections, and gut microbiota affected mosquito feeding and breeding behavior. Conclusion: Knowledge gaps included Canadian surveillance data, disease modeling, and risk projections. Further research in these areas, especially accounting for climate change, is needed to guide health policy for prevention of orthobunyaviral disease.

Published

2024

55. The emergence of Oropouche virus in Cuba - A wake-up call for global health.

Author

Al-Tawfiq JA, Rodriguez-Morales AJ, and Johani SA

Subjects

Cuba epidemiology, Humans, Bunyaviridae Infections epidemiology, Orthobunyavirus, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging virology, Communicable Diseases, Emerging prevention & control, Global Health

Abstract

Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Published

2024

56. 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, Julia Walochnik, and Norbert Nowotny

Subjects

Orthobunyavirus, Arbovirus, Mosquito, Transmission ecology, Blood meal analysis, Austria, Infectious and parasitic diseases, RC109-216

Abstract

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

57. Editorial: New approaches to understanding vector borne diseases in domestic and wild animals

Author

Elizabeth A. J. Cook, Nick Wheelhouse, Magdalena Larska, and Vincent Obanda

Subjects

vector, emerging viruses, parasites, Orthobunyavirus, Theileria parva, Rift Valley fever virus, Veterinary medicine, SF600-1100

Published

2022

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

Author

Wernike, Kerstin, Aebischer, Andrea, Audonnet, Jean-Christophe, and Beer, Martin

Subjects

SCHMALLENBERG virus, VACCINE development, VIRAL antibodies, VACCINES, IMMUNE response

Abstract

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

Published

2022

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

Author

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

Subjects

*PEPTIDES, *ENCEPHALITIS, *VIRAL proteins, *ENCEPHALITIS viruses, *YOUNG adults, *CHIMERIC proteins

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. [ABSTRACT FROM AUTHOR]

Published

2022

60. Age-specific dynamics of neutralizing antibodies, cytokines, and chemokines in response to La Crosse virus infection in mice (Updated October 4, 2024).

Abstract

The article discusses the age-specific immune response to La Crosse virus (LACV) infection in mice, highlighting differences between weanling and adult mice. Weanling mice showed early disease onset and higher levels of Th2 cytokines, while adult mice demonstrated resistance with increased Th1 cytokines and chemokines. The study emphasizes the importance of neutralizing antibodies and cytokine responses in protective immunity against LACV, suggesting further research into immune mechanisms in infection. [Extracted from the article]

Published

2024

61. A mix-and-match reverse genetics system for evaluating genetic determinants of orthobunyavirus neurological disease.

Abstract

This article discusses a study on orthobunyaviruses, a group of RNA viruses that can cause severe neurological disease in humans. The researchers developed a reverse genetics system using plasmid-based cDNA to study the genetic factors that drive neuropathogenesis. They compared wild type viruses with genetically modified viruses and found that the modified viruses maintained the replication and neuropathogenic phenotypes of the original viruses. This system provides a valuable tool for investigating the genetic determinants of orthobunyavirus neuropathogenesis. [Extracted from the article]

Published

2024

62. Studies from Nationwide Children's Hospital Reveal New Findings on La Crosse Virus (La Crosse Virus Encephalitis In Children).

Subjects

CENTRAL nervous system viral diseases, CENTRAL nervous system infections, CENTRAL nervous system diseases, VIRUS diseases, CENTRAL nervous system, VIRAL encephalitis

Abstract

A recent report from Nationwide Children's Hospital in Columbus, Ohio discusses the findings of a study on La Crosse Virus (LACV) encephalitis in children. The study highlights the clinical manifestations and testing modalities for clinicians encountering this viral infection. It emphasizes the need for long-term neurobehavioral follow-up to better identify and support affected individuals. The research concludes that further investigation into host immune responses and therapeutic options is necessary. As climate change affects the distribution of mosquito-borne illnesses, there is a possibility of regional expansion of LACV endemicity. [Extracted from the article]

Published

2024

63. New Bunyamwera Virus Study Results Reported from University of Glasgow (Bunyamwera Virus Infection of Wolbachia -Carrying Aedes aegypti Mosquitoes Reduces Wolbachia Density).

Subjects

AEDES aegypti, VIRAL genetics, BACTERIAL genetics, GRAM-negative bacteria, VIRUS diseases

Abstract

A recent study conducted by researchers at the University of Glasgow investigated the impact of Wolbachia symbionts on Bunyamwera virus (BUNV) infection in Aedes aegypti mosquitoes. Wolbachia, which is commonly used to control dengue virus transmission, was found to reduce BUNV infection in vitro but not in vivo. Instead, BUNV caused significant impacts on the density of Wolbachia strains in the mosquitoes. The study highlights the importance of understanding the complex interactions between arboviruses, mosquitoes, and Wolbachia in natural environments and the need to monitor Wolbachia prevalence at release sites. [Extracted from the article]

Published

2024

64. Serological survey of Peaton virus among wild boars (Sus scrofa) in Ehime Prefecture, Japan.

Author

Nobuki YOSHIZAWA

Subjects

WILD boar, ARBOVIRUSES, SWINE, CATTLE

Abstract

Peaton virus (PEAV) is a type of arthropod-borne virus similar to Akabane virus (AKAV), belonging to the genus Orthobunyavirus. AKAV infection is common in cattle, but previous reports have suggested that pigs may play a role in transmission cycle. In addition, antibodies against AKAV were detected in wild boars (Sus scrofa). By contrast, PEAV could infect cattle and pigs, but it remains unknown whether PEAV infects wild boars. This study aimed to reveal the possibility of PEAV infection in wild boars by conducting a serological survey. Consequently, the seropositive rate of PEAV was 26.5% in 264 free-living wild boars in Ehime Prefecture, Japan. This is the first study to report the detection of antibodies against PEAV in wild boars. [ABSTRACT FROM AUTHOR]

Published

2023

65. The Native Orthobunyavirus Ribonucleoprotein Possesses a Helical Architecture

Author

Francis R. Hopkins, Beatriz Álvarez-Rodríguez, George R. Heath, Kyriakoulla Panayi, Samantha Hover, Thomas A. Edwards, John N. Barr, and Juan Fontana

Subjects

orthobunyavirus, ribonucleoprotein, structure, bunyavirus, Microbiology, QR1-502

Abstract

ABSTRACT The Bunyavirales order is the largest group of negative-sense RNA viruses, containing many lethal human pathogens for which approved anti-infective measures are not available. The bunyavirus genome consists of multiple negative-sense RNA segments enwrapped by the virus-encoded nucleocapsid protein (NP), which together with the viral polymerase form ribonucleoproteins (RNPs). RNPs represent substrates for RNA synthesis and virion assembly, which require inherent flexibility, consistent with the appearance of RNPs spilled from virions. These observations have resulted in conflicting models describing the overall RNP architecture. Here, we purified RNPs from Bunyamwera virus (BUNV), the prototypical orthobunyavirus. The lengths of purified RNPs imaged by negative staining resulted in 3 populations of RNPs, suggesting that RNPs possess a consistent method of condensation. Employing microscopy approaches, we conclusively show that the NP portion of BUNV RNPs is helical. Furthermore, we present a pseudo-atomic model for this portion based on a cryo-electron microscopy average at 13 Å resolution, which allowed us to fit the BUNV NP crystal structure by molecular dynamics. This model was confirmed by NP mutagenesis using a mini-genome system. The model shows that adjacent NP monomers in the RNP chain interact laterally through flexible N- and C-terminal arms only, with no longitudinal helix-stabilizing interactions, thus providing a potential model for the molecular basis for RNP flexibility. Excessive RNase treatment disrupts native RNPs, suggesting that RNA was key in maintaining the RNP structure. Overall, this work will inform studies on bunyaviral RNP assembly, packaging, and RNA replication, and aid in future antiviral strategies. IMPORTANCE Bunyaviruses are emerging RNA viruses that cause significant disease and economic burden and for which vaccines or therapies approved for humans are not available. The bunyavirus genome is wrapped up by the nucleoprotein (NP) and interacts with the viral polymerase, forming a ribonucleoprotein (RNP). This is the only form of the genome active for viral replication and assembly. However, until now how NPs are organized within an RNP was not known for any orthobunyavirus. Here, we purified RNPs from the prototypical orthobunyavirus, Bunyamwera virus, and employed microscopy approaches to show that the NP portion of the RNP was helical. We then combined our helical average with the known structure of an NP monomer, generating a pseudo-atomic model of this region. This arrangement allowed the RNPs to be highly flexible, which was critical for several stages of the viral replication cycle, such as segment circularization.

Published

2022

66. California Serogroup Viruses in a Changing Canadian Arctic: A Review

Author

Jumari Snyman, Louwrens P. Snyman, Kayla J. Buhler, Carol-Anne Villeneuve, Patrick A. Leighton, Emily J. Jenkins, and Anil Kumar

Subjects

Aedes, climate change, distribution potential, Jamestown Canyon virus, mosquito-borne, Orthobunyavirus, Microbiology, QR1-502

Abstract

The Arctic is warming at four times the global rate, changing the diversity, activity and distribution of vectors and associated pathogens. While the Arctic is not often considered a hotbed of vector-borne diseases, Jamestown Canyon virus (JCV) and Snowshoe Hare virus (SSHV) are mosquito-borne zoonotic viruses of the California serogroup endemic to the Canadian North. The viruses are maintained by transovarial transmission in vectors and circulate among vertebrate hosts, both of which are not well characterized in Arctic regions. While most human infections are subclinical or mild, serious cases occur, and both JCV and SSHV have recently been identified as leading causes of arbovirus-associated neurological diseases in North America. Consequently, both viruses are currently recognised as neglected and emerging viruses of public health concern. This review aims to summarise previous findings in the region regarding the enzootic transmission cycle of both viruses. We identify key gaps and approaches needed to critically evaluate, detect, and model the effects of climate change on these uniquely northern viruses. Based on limited data, we predict that (1) these northern adapted viruses will increase their range northwards, but not lose range at their southern limits, (2) undergo more rapid amplification and amplified transmission in endemic regions for longer vector-biting seasons, (3) take advantage of northward shifts of hosts and vectors, and (4) increase bite rates following an increase in the availability of breeding sites, along with phenological synchrony between the reproduction cycle of theorized reservoirs (such as caribou calving) and mosquito emergence.

Published

2023

67. Oropouche virus presenting in Italy after travel to Cuba.

Author

Branda, Francesco, Ciccozzi, Massimo, and Scarpa, Fabio

Subjects

*VECTOR-borne diseases

Published

2024

68. Rescue and characterisation of Oropouche virus in mammalian cell lines

Author

Tilston-Lunel, Natasha Louise, Elliott, Richard M., and Randall, Richard E.

Subjects

579.2, Oropouche virus, Orthobunyavirus, Bunyavirus, Oropouche virus phylogeny, Reverse genetics, QR398.7T5, Bunyaviruses

Abstract

Oropouche virus (OROV) is a medically important orthobunyavirus, which causes frequent outbreaks of a febrile illness in the northern parts of Brazil. However, despite being the cause of an estimated half a million human infections since its first isolation in Trinidad in 1955, details of the molecular biology of this tripartite, negative-sense RNA virus remain limited. The work presented in this thesis has re-determined the nucleotide sequences of OROV strain BeAn19991 (GenBank accession numbers: L, KP052850; M, KP052851 and S, KP052852), and demonstrates that the S segment is significantly longer than the published sequence with an additional 204 nucleotides at the 3' end. Data analysis revealed that there is a critical nucleotide mismatch at position 9 within the base-paired terminal panhandle structure of each genomic segment. Using a combination of deep sequencing and Sanger sequencing the complete genome sequences of 10 field isolates of OROV were also determined for the first time, and led to the identification of a novel OROV reassortant virus. Phylogenetic analysis of these sequences and of published sequences showed that there are two genotypes of OROV, rather than the four genotypes previously proposed. Further work led to the development of a T7-RNA polymerase-driven minigenome and virus-like particle (VLP) production systems for OROV; the information from these was subsequently used to develop a reverse genetics system for OROV. Using reverse genetics, OROV mutants that lack either the non-structural proteins NSm or NSs were generated. In vitro growth properties of the OROV mutant lacking NSm were indistinguishable from the wild-type virus, but the NSs mutant was attenuated in growth, particularly in interferon (IFN) competent cells. Further work demonstrated NSs as a viral IFN antagonist and that it's C-terminus is required for this activity. Interestingly, OROV is more resistant to IFN-α treatment than Bunyamwera virus, but this is not related to its NSs protein. The development of a reverse genetics system for OROV, which is the main human pathogen within the Simbu serogroup of orthobunyaviruses, will prove invaluable for future studies designed to further investigate the molecular pathogenesis of this virus and in the development of attenuated vaccine strains.

Published

2016

69. The Orthobunyavirus Germiston Enters Host Cells from Late Endosomes.

Author

Windhaber, Stefan, Qilin Xin, Uckeley, Zina M., Koch, Jana, Obr, Martin, Garnier, Céline, Luengo-Guyonnot, Catherine, Duboeuf, Maëva, Schur, Florian K. M., and Lozach, Pierre-Yves

Subjects

*ENDOSOMES, *SCHMALLENBERG virus, *VIRAL envelopes, *FLUORESCENT dyes, *RNA viruses

Abstract

With more than 80 members worldwide, the Orthobunyavirus genus in the Peribunyaviridae family is a large genus of enveloped RNA viruses, many of which are emerging pathogens in humans and livestock. How orthobunyaviruses (OBVs) penetrate and infect mammalian host cells remains poorly characterized. Here, we investigated the entry mechanisms of the OBV Germiston (GERV). Viral particles were visualized by cryoelectron microscopy and appeared roughly spherical with an average diameter of 98 nm. Labeling of the virus with fluorescent dyes did not adversely affect its infectivity and allowed the monitoring of single particles in fixed and live cells. Using this approach, we found that endocytic internalization of bound viruses was asynchronous and occurred within 30 to 40 min. The virus entered Rab5a-positive (Rab5a1) early endosomes and, subsequently, late endosomal vacuoles containing Rab7a but not LAMP-1. Infectious entry did not require proteolytic cleavage, and endosomal acidification was sufficient and necessary for viral fusion. Acid-activated penetration began 15 to 25 min after initiation of virus internalization and relied on maturation of early endosomes to late endosomes. The optimal pH for viral membrane fusion was slightly below 6.0, and penetration was hampered when the potassium influx was abolished. Overall, our study provides real-time visualization of GERV entry into host cells and demonstrates the importance of late endosomal maturation in facilitating OBV penetration. IMPORTANCE Orthobunyaviruses (OBVs), which include La Crosse, Oropouche, and Schmallenberg viruses, represent a growing threat to humans and domestic animals worldwide. Ideally, preventing OBV spread requires approaches that target early stages of infection, i.e., virus entry. However, little is known about the molecular and cellular mechanisms by which OBVs enter and infect host cells. Here, we developed accurate, sensitive tools and assays to investigate the penetration process of GERV. Our data emphasize the central role of late endosomal maturation in GERV entry, providing a comprehensive overview of the early stages of an OBV infection. Our study also brings a complete toolbox of innovative methods to study each step of the OBV entry program in fixed and living cells, from virus binding and endocytosis to fusion and penetration. The information gained herein lays the foundation for the development of antiviral strategies aiming to block OBV entry. [ABSTRACT FROM AUTHOR]

Published

2022

70. Shuni Virus in Cases of Neurologic Disease in Humans, South Africa

Author

Thopisang P. Motlou and Marietjie Venter

Subjects

neurologic disease, orthobunyavirus, arthropod-borne viruses, RT-PCR, Shuni virus, South Africa, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

We describe Shuni virus (SHUV) detection in human neurologic disease cases in South Africa. SHUV RNA was identified in 5% of cerebrospinal fluid specimens collected during the arbovirus season from public sector hospitals. This finding suggests that SHUV may be a previously unrecognized cause of human neurologic infections in Africa.

Published

2021

71. Fatal Case of Chronic Jamestown Canyon Virus Encephalitis Diagnosed by Metagenomic Sequencing in Patient Receiving Rituximab

Author

Isaac H. Solomon, Vijay S. Ganesh, Guixia Yu, Xian Ding Deng, Michael R. Wilson, Steve Miller, Tracey A. Milligan, Shibani S. Mukerji, Abigail Mathewson, Justin Linxweiler, Darlene Morse, Jana M. Ritter, J. Erin Staples, Holly Hughes, Carolyn V. Gould, Pardis C. Sabeti, Charles Y. Chiu, and Anne Piantadosi

Subjects

orthobunyavirus, arbovirus, Jamestown Canyon virus, encephalitis, rituximab, metagenomic next-generation sequencing, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

A 56-year-old man receiving rituximab who had months of neurologic symptoms was found to have Jamestown Canyon virus in cerebrospinal fluid by clinical metagenomic sequencing. The patient died, and postmortem examination revealed extensive neuropathologic abnormalities. Deep sequencing enabled detailed characterization of viral genomes from the cerebrospinal fluid, cerebellum, and cerebral cortex.

Published

2021

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

Author

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

Subjects

Cache Valley virus, pathogenesis, animal models, murine model, orthobunyavirus, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

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

73. 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

ARBOVIRUSES, BOS, NEUTRALIZATION tests, HUMAN abnormalities, VIRUSES

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. [ABSTRACT FROM AUTHOR]

Published

2022

74. Potential Mosquito Vectors for Shuni Virus, South Africa, 2014-2018.

Author

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

Subjects

*MOSQUITO vectors, *CULEX, *AEDES, *ANOPHELES, *VIRUSES

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. [ABSTRACT FROM AUTHOR]

Published

2021

75. Seroprevalence of Jamestown Canyon virus in the Japanese general population

Author

Hirofumi Kato, Masaaki Satoh, Madoka Kawahara, Satoshi Kitaura, Tomoki Yoshikawa, Shuetsu Fukushi, Kristina Dimitrova, Heidi Wood, Masayuki Saijo, and Mutsuyo Takayama-Ito

Subjects

Jamestown canyon virus, Snowshoe hare virus, California serogroup, Seroepidemiology, Orthobunyavirus, Encephalitis, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Jamestown Canyon virus (JCV) is a mosquito-borne orthobunyavirus that causes acute febrile illness, meningitis, and meningoencephalitis, mainly among adults. JCV is widely distributed in North America and the number of JCV cases in the U.S. has increased in recent years. Therefore, the central nervous system disease caused by JCV can be considered a potentially re-emerging viral disease. However, the seroprevalence of JCV is unknown in Japan. The purpose of this study is to evaluate the seroprevalence of JCV in the Japanese population. Methods We used an IgG enzyme-linked immunosorbent assay (IgG-ELISA) with JCV-infected cell-lysates and/or a neutralizing (NT) antibody assay. The cut-off value of IgG-ELISA was determined using IgG-ELISA to analyze serum specimens from 37 healthy Japanese donors. IgG-ELISA was validated by assessing its sensitivity and specificity, using 38 human serum samples previously tested for the presence or absence of antibodies against JCV and snowshoe hare virus (SSHV), in an in-house NT antibody assay conducted by the Public Health Agency of Canada. The seroepidemiological study was performed using IgG-ELISA and NT antibody assay to analyze 246 human serum samples from the serum bank of the National Institute of Infectious Diseases (NIID) in Japan. Results The cut-off value of IgG-ELISA was determined at 0.20, based on the mean (− 0.075) and standard deviation (0.092) values using Japanese donors’ sera. The sensitivity and the specificity of IgG-ELISA determined using 25 JCV-positive and 4 JCV-negative serum samples were 96 and 100%, respectively. Analysis of the 246 Japanese serum samples revealed that no specimen showed a higher value than the cut-off value of IgG-ELISA, and no sample tested positive by the NT antibody assay. Conclusions Our results showed that JCV is not circulating significantly in Japan. To the best of our knowledge, this is the first report to demonstrate the seroprevalence of JCV in the general population in Japan.

Published

2020

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

Author

Jumari Steyn, Pebetsi Motlou, Charmaine van Eeden, Marthi Pretorius, Voula I. Stivaktas, June Williams, Louwtjie P. Snyman, Peter E. Buss, Brianna Beechler, Anna Jolles, Eva Perez-Martin, Jan G. Myburgh, Johan Steyl, and Marietjie Venter

Subjects

Domestic animals, neurological disease, orthobunyavirus, RT-PCR, Shuni virus, South Africa, Medicine, Infectious and parasitic diseases, RC109-216

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

77. Fatal Encephalitis Caused by Cristoli Virus, an Emerging Orthobunyavirus, France

Author

Christophe Rodriguez, Guillaume Gricourt, Melissa Ndebi, Vanessa Demontant, Lila Poiteau, Sonia Burrel, David Boutolleau, Paul-Louis Woerther, Vincent Calvez, Sebastian Stroer, and Jean-Michel Pawlotsky

Subjects

orthobunyavirus, shotgun metagenomics, encephalitis, viruses, Cristoli virus, France, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

We report the discovery of a new orthobunyavirus, Cristoli virus, by means of shotgun metagenomics. The virus was identified in an immunodepressed patient with fatal encephalitis. Full-length genome sequencing revealed high-level expression of a virulence factor, possibly explaining the severity of the infection. The patient’s recent history suggests circulation in France.

Published

2020

78. Guaroa Virus and Plasmodium vivax Co-Infections, Peruvian Amazon

Author

Crystyan Siles, William H. Elson, Stalin Vilcarromero, Amy C. Morrison, Robert D. Hontz, Freddy Alava, Hugo Valdivia, Vidal Felices, Carolina Guevara, Sarah Jenkins, Eugenio J. Abente, and Julia S. Ampuero

Subjects

Guaroa virus, Orthobunyavirus, Plasmodium vivax, co-infection, Peru, parasites, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

During April–June 2014 in a malaria-endemic rural community close to the city of Iquitos in Peru, we detected evidence of Guaroa virus (GROV) infection in 14 febrile persons, of whom 6 also had evidence of Plasmodium vivax malaria. Cases were discovered through a long-term febrile illness surveillance network at local participating health facilities. GROV cases were identified by using a combination of seroconversion and virus isolation, and malaria was diagnosed by thick smear and PCR. GROV mono-infections manifested as nonspecific febrile illness and were clinically indistinguishable from GROV and P. vivax co-infections. This cluster of cases highlights the potential for GROV transmission in the rural Peruvian Amazon, particularly in areas where malaria is endemic. Further study of similar areas of the Amazon may provide insights into the extent of GROV transmission in the Amazon basin.

Published

2020

79. Little-known virus surging in Latin America may harm fetuses.

Author

Moutinho S

Subjects

Female, Humans, Pregnancy, Brazil epidemiology, Fetus virology, Brain abnormalities, Brain virology, Orthobunyavirus, Stillbirth epidemiology, Bunyaviridae Infections epidemiology, Infectious Disease Transmission, Vertical, Microcephaly virology

Abstract

Oropouche virus could be linked to brain malformation and stillbirths, Brazilian health officials say.

Published

2024

80. Oropouche virus - The "Newest" invisible public enemy?

Author

Silva-Júnior EFD

Subjects

Humans, Bunyaviridae Infections drug therapy, Animals, Molecular Structure, Antiviral Agents chemistry, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, Orthobunyavirus

Abstract

This perspective underscores the rising challenge posed by emerging diseases against the backdrop of modern advancements in global public health understanding. It particularly highlights the emergence of the Oropouche virus (OROV) as a significant global threat, detailing its transmission dynamics, symptoms, and epidemiological impact, with a focus on its historical and current manifestations. It further delves into the molecular aspects of OROV, elucidating its unique characteristics, lack of structural similarity with other arboviruses, and the limited progress in medicinal chemistry research. Still, it highlights notable studies on potential antiviral agents and the challenges in drug development, emphasizing the need for innovative approaches such as structure-based drug design (SBDD) and drug repurposing. Finally, it concludes with a call to action, urging increased attention and research focus on OROV to prevent potential future pandemics fueled by viral mutations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

81. Culex Mosquito Piwi4 Is Antiviral against Two Negative-Sense RNA Viruses

Author

Elizabeth Walsh, Tran Zen B. Torres, and Claudia Rückert

Subjects

mosquito, Culex, Piwi4, vpiRNA, orthobunyavirus, La Crosse orthobunyavirus, Microbiology, QR1-502

Abstract

Culex spp. mosquitoes transmit several pathogens concerning public health, including West Nile virus and Saint Louis encephalitis virus. Understanding the antiviral immune system of Culex spp. mosquitoes is important for reducing the transmission of these viruses. Mosquitoes rely on RNA interference (RNAi) to control viral replication. While the siRNA pathway in mosquitoes is heavily studied, less is known about the piRNA pathway. The piRNA pathway in mosquitoes has recently been connected to mosquito antiviral immunity. In Aedes aegypti, Piwi4 has been implicated in antiviral responses. The antiviral role of the piRNA pathway in Culex spp. mosquitoes is understudied compared to Ae. aegypti. Here, we aimed to identify the role of PIWI genes and piRNAs in Culex quinquefasciatus and Culex tarsalis cells during virus infection. We examined the effect of PIWI gene silencing on virus replication of two arboviruses and three insect-specific viruses in Cx. quinquefasciatus derived cells (Hsu) and Cx. tarsalis derived (CT) cells. We show that Piwi4 is antiviral against the La Crosse orthobunyavirus (LACV) in Hsu and CT cells, and the insect-specific rhabdovirus Merida virus (MERDV) in Hsu cells. None of the silenced PIWI genes impacted replication of the two flaviviruses Usutu virus (USUV) and Calbertado virus, or the phasivirus Phasi-Charoen-like virus. We further used small RNA sequencing to determine that LACV-derived piRNAs, but not USUV-derived piRNAs were generated in Hsu cells and that PIWI gene silencing resulted in a small reduction in vpiRNAs. Finally, we determined that LACV-derived DNA was produced in Hsu cells during infection, but whether this viral DNA is required for vpiRNA production remains unclear. Overall, we expanded our knowledge on the piRNA pathway and how it relates to the antiviral response in Culex spp mosquitoes.

Published

2022

82. No Evidence of Ntwetwe Virus Infections in Children Presenting to Kiboga Hospital, Uganda

Author

Arthur W. D. Edridge, Nathalie van den Brekel, Philly Mukungu, Rachael Nakayima, Samuel Bbosa, Peter Isagara, Michael van Boele Hensbroek, Lia van der Hoek, John Kayiwa, Julius J. Lutwama, and Richard Idro

Subjects

orthobunyavirus, CNS infection, virus discovery, emerging infectious diseases, Uganda, pediatrics, Medicine

Abstract

We investigated whether Ntwetwe virus—a novel orthobunyavirus discovered in a Ugandan girl with a fatal encephalopathy—was a common reason for hospital admission for children to Kiboga hospital, Uganda. A case–control was conducted between September 2019 and September 2020, including cases with severe neurological disease and mild febrile illness, matched to a healthy control without fever. Among 143 subjects, no cases with an acute infection were identified. This result suggests that Ntwetwe virus does not cause a major burden of disease amongst children presenting to Kiboga hospital during the study period.

Published

2022

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

Author

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

Subjects

*WEST Nile virus, *FLAVIVIRUSES, *PEAFOWL, *VERTEBRATES, *IMMUNOGLOBULINS, *ENCEPHALITIS viruses, *ZIKA virus, *HORSE breeding

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. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

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

Subjects

*BLOOD testing, *FLOODPLAINS, *BLOOD sampling, *ROE deer, *AEDES aegypti, *RED deer, *MOSQUITOES

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. [ABSTRACT FROM AUTHOR]

Published

2021

85. Viral Enteritis in Cattle: To Well Known Viruses and Beyond.

Author

Castells, Matías and Colina, Rodney

Subjects

*CATTLE, *ENTERITIS, *CORONAVIRUSES, *ANIMAL welfare, *VIRUSES, *ROTAVIRUSES, *CALVES, *DIETARY proteins

Abstract

Livestock products supply about 13 percent of energy and 28 percent of protein in diets consumed worldwide. Diarrhea is a leading cause of sickness and death of beef and dairy calves in their first month of life and also affecting adult cattle, resulting in large economic losses and a negative impact on animal welfare. Despite the usual multifactorial origin, viruses are generally involved, being among the most important causes of diarrhea. There are several viruses that have been confirmed as etiological agents (i.e., rotavirus and coronavirus), and some viruses that are not yet confirmed as etiological agents. This review summarizes the viruses that have been detected in the enteric tract of cattle and tries to deepen and gather knowledge about them. [ABSTRACT FROM AUTHOR]

Published

2021

86. Center for Vector Biology Reports Findings in Orthobunyavirus [Field Isolation and Laboratory Vector-host Studies of Brazoran Virus (Peribunyaviridae: Orthobunyavirus) From Florida].

Subjects

BIOLOGY, AEDES aegypti, CULEX quinquefasciatus, VIRUS isolation, RNA viruses

Abstract

A new report discusses research findings on the Orthobunyavirus, specifically the Brazoran virus. The Brazoran virus was first isolated from Culex mosquitoes in Texas in 2012, and this study reports its isolation from Culex erraticus mosquitoes in southern Florida in 2016. The study found that while Culex quinquefasciatus and Aedes aegypti mosquitoes were susceptible to infection, their vector competence for the Brazoran virus could not be demonstrated, suggesting they are unlikely vectors of the virus. This research was supported by the National Institutes of Health and has been peer-reviewed. [Extracted from the article]

Published

2024

87. Data on La Crosse Virus Reported by Researchers at University of Tennessee (Persistent Spatial Clustering and Predictors of Pediatric La Crosse Virus Neuroinvasive Disease Risk In Eastern Tennessee and Western North Carolina, 2003-2020).

Subjects

VIRUS diseases, RESEARCH personnel, MOSQUITO-borne diseases, ENCEPHALITIS viruses, LYME disease

Abstract

A recent study conducted by researchers at the University of Tennessee has found that the region of eastern Tennessee and western North Carolina has a consistently high risk of pediatric La Crosse virus neuroinvasive disease (LACV-ND). The study investigated the geographic clustering and predictors of LACV-ND risk at the ZIP code level. The results showed that there were persistent high-risk and low-risk clusters of LACV-ND, with most cases consistently reported from a few high-risk clusters throughout the study period. The study also found that temperature and precipitation had positive but varying associations with disease risk. The findings suggest that targeted public health interventions should be implemented in high-risk areas to reduce the disease burden. Further research is needed to better understand the relationship between climate and LACV epidemiology. [Extracted from the article]

Published

2024

88. Identification of Novel Reassortant Shuni Virus Strain in Clinical Cases of Israeli Ruminants, 2020–2021

Author

Natalia Golender, Joseph Seffi Varsano, Tomer Nissimyan, and Eitan Tiomkin

Subjects

simbuviruses, Orthobunyavirus, Peribunyaviridae, neurological signs, cattle, sheep, Medicine

Abstract

The Shuni virus (SHUV) causes an endemic viral infection in Israel and South Africa. It belongs to the Simbu serogroup within the order Bunyavirales, family Peribunyaviridae, genus Orthobunyavirus. Recently, it has been identified in aborted cases of domestic ruminants, young cattle and horses manifesting neural signs and acute death, symptomatic cows, and in carcasses of wild animals. Moreover, SHUV was isolated and identified in humans. In this study, we describe clinical cases of SHUV infection in Israeli domestic ruminants in 2020–2021, which represented clinical manifestations of simbuviral infection including abortions, a neural lethal case in a fattening calf, and an acute symptomatic case in a beef cow. In all cases, SHUV was confirmed by complete or partial viral genome sequencing. There is a significant difference of M and L segments of the novel strains compared with those of all known SHUV strains, while the S segments have more than 99% nucleotide (nt) identity with Israeli and African “Israeli-like” strains previously circulated in 2014–2019. This indicates a reassortment origin of the strain. At the same time, M and S segment nt sequences showed about 98–99% nt identity with some South African strains collected in 2016–2018. Nevertheless, the viral origin and the geographical place of the reassortment stayed unknown.

Published

2022

89. Molecular Characterization of HN1304M, a Cat Que Virus Isolated from Midges in China

Author

Ziqian Xu, Lei Cao, Liang Cai, Shihong Fu, Kai Nie, Qikai Yin, Yuxi Cao, Guoping Liu, Yunzhi Liu, Hong Zhang, Lidong Gao, Ying He, Huanyu Wang, and Guodong Liang

Subjects

orthobunyavirus, Manzanilla species complex, Cat Que virus, Culicoides, arbovirus, Medicine

Abstract

The Cat Que orthobunyavirus has been found in mosquitoes, birds, pigs, and humans, suggesting its wide range of hosts and potential public health implications. During arbovirus surveillance in 2013, the HN1304M virus was isolated from naturally occurring Culicoides biting midges in Hunan Province, southern China. The virus was cytopathic to BHK-21 cells and showed stable passage, but was not cytopathic to C6/36 cells. Determination and analysis of the viral genome sequence revealed that HN1304M is an RNA virus with three gene segments, namely, L, M, and S. The nucleotide and amino acid sequence homologies of HN1304M to Cat Que viruses in the Manzanilla species complex were 90.3–99.4%, and 95–100%, respectively, while the homologies to other viruses in this species complex were 74–86.6% and 78.1–96.1%, respectively. A phylogenetic analysis of the viral genes revealed that HN1304M formed an evolutionary branch with other Cat Que viruses isolated from mosquitoes, pigs, birds, and humans, which was completely independent of the other viruses in this complex. The fact that the Cat Que virus was isolated from Culicoides suggests that biting midges may participate in the natural circulation of Cat Que viruses.

Published

2022

90. Neuronal maturation reduces the type I IFN response to orthobunyavirus infection and leads to increased apoptosis of human neurons

Author

Clayton W. Winkler, Tyson A. Woods, Bradley R. Groveman, Aaron B. Carmody, Emily E. Speranza, Craig A. Martens, Sonja M. Best, Cathryn L. Haigh, and Karin E. Peterson

Subjects

Orthobunyavirus, Encephalitis, Human cerebral organoids, Neurogenesis, Neuron, Type I interferon, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background La Crosse virus (LACV) is the leading cause of pediatric arboviral encephalitis in the USA. LACV encephalitis can result in learning and memory deficits, which may be due to infection and apoptosis of neurons in the brain. Despite neurons being the primary cell infected in the brain by LACV, little is known about neuronal responses to infection. Methods Human cerebral organoids (COs), which contain a spectrum of developing neurons, were used to examine neuronal responses to LACV. Plaque assay and quantitative reverse transcription (qRT) PCR were used to determine the susceptibility of COs to LACV infection. Immunohistochemistry, flow cytometry, and single-cell transcriptomics were used to determine specific neuronal subpopulation responses to the virus. Results Overall, LACV readily infected COs causing reduced cell viability and increased apoptosis. However, it was determined that neurons at different stages of development had distinct responses to LACV. Both neural progenitors and committed neurons were infected with LACV, however, committed neurons underwent apoptosis at a higher rate. Transcriptomic analysis showed that committed neurons expressed fewer interferon (IFN)-stimulated genes (ISGs) and genes involved IFN signaling in response to infection compared to neural progenitors. Furthermore, induction of interferon signaling in LACV-infected COs by application of recombinant IFN enhanced cell viability. Conclusions These findings indicate that neuronal maturation increases the susceptibility of neurons to LACV-induced apoptosis. This susceptibility is likely due, at least in part, to mature neurons being less responsive to virus-induced IFN as evidenced by their poor ISG response to LACV. Furthermore, exogenous administration of recombinant IFN to LACV COs rescued cellular viability suggesting that increased IFN signaling is overall protective in this complex neural tissue. Together these findings indicate that induction of IFN signaling in developing neurons is an important deciding factor in virus-induced cell death.

Published

2019

91. Novel Orthobunyavirus Causing Severe Kidney Disease in Broiler Chickens, Malaysia, 2014–2017

Author

Vilmos Palya, Edit Walkóné Kovács, Szilvia Marton, Tímea Tatár-Kis, Balázs Felföldi, Barbara Forró, Marianna Domán, and Krisztián Bányai

Subjects

Peribunyaviridae, Orthobunyavirus, Turlock serogroup, Kedah fatal kidney syndrome virus, broiler, chickens, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

During 2014–2017, we isolated a novel orthobunyavirus from broiler chickens with severe kidney lesions in the state of Kedah, Malaysia; we named the virus Kedah fatal kidney syndrome virus (KFKSV). Affected chickens became listless and diarrheic before dying suddenly. Necropsies detected pale and swollen kidneys with signs of gout, enlarged and fragile livers, and pale hearts. Experimental infection of broiler chickens with KFKSV reproduced the disease and pathologic conditions observed in the field, fulfilling the Koch’s postulates. Gene sequencing indicated high nucleotide identities between KFKSV isolates (99%) and moderate nucleotide identities with the orthobunyavirus Umbre virus in the large (78%), medium (77%), and small (86%) genomic segments. KFKSV may be pathogenic for other host species, including humans.

Published

2019

92. Host-dependence of in vitro reassortment dynamics among the Sathuperi and Shamonda Simbuviruses

Author

Damien Coupeau, Calixte Bayrou, Pierre Baillieux, Axel Marichal, Anne-Cécile Lenaerts, Céline Caty, Laetitia Wiggers, Nathalie Kirschvink, Daniel Desmecht, and Benoît Muylkens

Subjects

Orthobunyavirus, reassortment, recombination, viral selection, arbovirus, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

ABSTRACTOrthobunyaviruses are arboviruses (Arthropod Borne Virus) and possess multipartite genomes made up of three negative RNAs corresponding to the small (S), medium (M) and large (L) segments. Reassortment and recombination are evolutionary driving forces of such segmented viruses and lead to the emergence of new strains and species. Retrospective studies based on phylogenetical analysis are able to evaluate these mechanisms at the end of the selection process but fail to address the dynamics of emergence. This issue was addressed using two Orthobunyaviruses infecting ruminants and belonging to the Simbu serogroup: the Sathuperi virus (SATV) and the Shamonda virus (SHAV). Both viruses were associated with abortion, stillbirth and congenital malformations occurring after transplacental transmission and were suspected to spread together in different ruminant and insect populations. This study showed that different viruses related to SHAV and SATV are spreading simultaneously in ruminants and equids of the Sub-Saharan region. Their reassortment and recombination potential was evaluated in mammalian and in insect contexts. A method was set up to determine the genomic background of any clonal progeny viruses isolated after in vitro coinfections assays. All the reassortment combinations were generated in both contexts while no recombinant virus was isolated. Progeny virus populations revealed a high level of reassortment in mammalian cells and a much lower level in insect cells. In vitro selection pressure that mimicked the host switching (insect-mammal) revealed that the best adapted reassortant virus was connected with an advantageous replicative fitness and with the presence of a specific segment.

Published

2019

93. 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

La Crosse virus, fusion peptide, viral encephalitis, neuroinvasion, orthobunyavirus, Bunyavirales, Microbiology, QR1-502

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

94. Bunyaviruses

Author

Contigiani, Marta S., Diaz, Luis A., Tauro, Laura B., and Marcondes, Carlos Brisola, editor

Published

2017

95. Schmallenberg Virus

Author

Doceul, Virginie, Wernike, Kerstin, Vitour, Damien, Laloy, Eve, and Bayry, Jagadeesh, editor

Published

2017

96. Identification of Umbre Orthobunyavirus as a Novel Zoonotic Virus Responsible for Lethal Encephalitis in 2 French Patients with Hypogammaglobulinemia.

Author

Pérot, Philippe, Bielle, Franck, Bigot, Thomas, Foulongne, Vincent, Bolloré, Karine, Chrétien, Delphine, Gil, Patricia, Gutiérrez, Serafín, L'Ambert, Grégory, Mokhtari, Karima, Hellert, Jan, Flamand, Marie, Tamietti, Carole, Coulpier, Muriel, Verneuil, Anne Huard de, Temmam, Sarah, Couderc, Thérèse, Cunha, Edouard De Sousa, Boluda, Susana, and Plu, Isabelle

Subjects

*ENCEPHALITIS viruses, *REVERSE transcriptase polymerase chain reaction, *BRAIN, *EPIDEMIC encephalitis, *IMMUNOCOMPROMISED patients, *SERODIAGNOSIS, *ZOONOSES, *AGAMMAGLOBULINEMIA, *GENE expression profiling, *IN situ hybridization, *POLYMERASE chain reaction, *CEREBROSPINAL fluid, *MOSQUITOES, *INFECTIOUS disease transmission

Abstract

Background Human encephalitis represents a medical challenge from a diagnostic and therapeutic point of view. We investigated the cause of 2 fatal cases of encephalitis of unknown origin in immunocompromised patients. Methods Untargeted metatranscriptomics was applied on the brain tissue of 2 patients to search for pathogens (viruses, bacteria, fungi, or protozoans) without a prior hypothesis. Results Umbre arbovirus, an orthobunyavirus never previously identified in humans, was found in 2 patients. In situ hybridization and reverse transcriptase–quantitative polymerase chain reaction (RT-qPCR) showed that Umbre virus infected neurons and replicated at high titers. The virus was not detected in cerebrospinal fluid by RT-qPCR. Viral sequences related to Koongol virus, another orthobunyavirus close to Umbre virus, were found in Culex pipiens mosquitoes captured in the south of France where the patients had spent some time before the onset of symptoms, demonstrating the presence of the same clade of arboviruses in Europe and their potential public health impact. A serological survey conducted in the same area did not identify individuals positive for Umbre virus. The absence of seropositivity in the population may not reflect the actual risk of disease transmission in immunocompromised individuals. Conclusions Umbre arbovirus can cause encephalitis in immunocompromised humans and is present in Europe. [ABSTRACT FROM AUTHOR]

Published

2021

97. Pathogenesis and Immune Response of Ebinur Lake Virus: A Newly Identified Orthobunyavirus That Exhibited Strong Virulence in Mice

Author

Lu Zhao, Huanle Luo, Doudou Huang, Ping Yu, Qiannan Dong, Caroline Mwaliko, Evans Atoni, Raphael Nyaruaba, Jiangling Yuan, Guilin Zhang, Dennis Bente, Zhiming Yuan, and Han Xia

Subjects

Ebinur Lake virus, Orthobunyavirus, pathogenesis, immune response, BALB/c mouse, Microbiology, QR1-502

Abstract

Orthobunyaviruses are a group of viruses with significant public and veterinary health importance. These viruses are mainly transmitted through mosquito-, midge-, and tick-vectors, and are endemic to various regions of the world. Ebinur Lake virus (EBIV), a newly identified member of Orthobunyavirus, was isolated from Culex mosquitoes in Northwest China. In the present study, we aimed to characterize the pathogenesis and host immune responses of EBIV in BALB/c mice, as an animal model. Herein, we determined that BALB/c mice are highly susceptible to EBIV infection. The infected mice exhibited evident clinical signs including weight loss, mild encephalitis, and death. High mortality of mice was observed even with inoculation of one plaque-forming unit (PFU) of EBIV, and the infected mice succumbed to death within 5–9 days. After EBIV challenge, rapid viremic dissemination was detected in the peripheral tissues and the central nervous system, with prominent histopathologic changes observed in liver, spleen, thymus, and brain. Blood constituents’ analysis of EBIV infected mice exhibited leukopenia, thrombocytopenia, and significantly elevated ALT, LDH-L, and CK. Further, EBIV infection induced obvious cytokines changes in serum, spleen, and brain in mice. Collectively, our data describe the first study that systematically examines the pathogenesis of EBIV and induced immune response in an immunocompetent standard mouse model, expanding our knowledge of this virus, which may pose a threat to One Health.

Published

2021

98. Shuni Virus in Cases of Neurologic Disease in Humans, South Africa.

Author

Motlou, Thopisang P. and Venter, Marietjie

Subjects

*NEUROLOGICAL disorders, *CEREBROSPINAL fluid, *PUBLIC hospitals, *VIRUSES, *ARBOVIRUSES

Abstract

We describe Shuni virus (SHUV) detection in human neurologic disease cases in South Africa. SHUV RNA was identified in 5% of cerebrospinal fluid specimens collected during the arbovirus season from public sector hospitals. This finding suggests that SHUV may be a previously unrecognized cause of human neurologic infections in Africa. [ABSTRACT FROM AUTHOR]

Published

2021

99. Pathogenesis and Immune Response of Ebinur Lake Virus: A Newly Identified Orthobunyavirus That Exhibited Strong Virulence in Mice.

Author

Zhao, Lu, Luo, Huanle, Huang, Doudou, Yu, Ping, Dong, Qiannan, Mwaliko, Caroline, Atoni, Evans, Nyaruaba, Raphael, Yuan, Jiangling, Zhang, Guilin, Bente, Dennis, Yuan, Zhiming, and Xia, Han

Subjects

IMMUNE response, VETERINARY public health, CULICOIDES, CENTRAL nervous system, MICE, WEIGHT loss

Abstract

Orthobunyaviruses are a group of viruses with significant public and veterinary health importance. These viruses are mainly transmitted through mosquito-, midge-, and tick-vectors, and are endemic to various regions of the world. Ebinur Lake virus (EBIV), a newly identified member of Orthobunyavirus , was isolated from Culex mosquitoes in Northwest China. In the present study, we aimed to characterize the pathogenesis and host immune responses of EBIV in BALB/c mice, as an animal model. Herein, we determined that BALB/c mice are highly susceptible to EBIV infection. The infected mice exhibited evident clinical signs including weight loss, mild encephalitis, and death. High mortality of mice was observed even with inoculation of one plaque-forming unit (PFU) of EBIV, and the infected mice succumbed to death within 5–9 days. After EBIV challenge, rapid viremic dissemination was detected in the peripheral tissues and the central nervous system, with prominent histopathologic changes observed in liver, spleen, thymus, and brain. Blood constituents' analysis of EBIV infected mice exhibited leukopenia, thrombocytopenia, and significantly elevated ALT, LDH-L, and CK. Further, EBIV infection induced obvious cytokines changes in serum, spleen, and brain in mice. Collectively, our data describe the first study that systematically examines the pathogenesis of EBIV and induced immune response in an immunocompetent standard mouse model, expanding our knowledge of this virus, which may pose a threat to One Health. [ABSTRACT FROM AUTHOR]

Published

2021

100. Differentiation of Antibodies against Selected Simbu Serogroup Viruses by a Glycoprotein Gc-Based Triplex ELISA.

Author

Wernike, Kerstin, Aebischer, Andrea, Sick, Franziska, Szillat, Kevin P., and Beer, Martin

Subjects

GLYCOPROTEINS, SCHMALLENBERG virus, ENZYME-linked immunosorbent assay, SEROLOGY, VIREMIA, CONGENITAL disorders

Abstract

The Simbu serogroup of orthobunyaviruses includes several pathogens of veterinary importance, among them Schmallenberg virus (SBV), Akabane virus (AKAV) and Shuni virus (SHUV). They infect predominantly ruminants and induce severe congenital malformation. In adult animals, the intra vitam diagnostics by direct virus detection is limited to only a few days due to a short-lived viremia. For surveillance purposes the testing for specific antibodies is a superior approach. However, the serological differentiation is hampered by a considerable extent of crossreactivity, as viruses were assigned into this serogroup based on antigenic relatedness. Here, we established a glycoprotein Gc-based triplex enzyme-linked immunosorbent assay (ELISA) for the detection and differentiation of antibodies against SBV, AKAV, and SHUV. A total of 477 negative samples of various ruminant species, 238 samples positive for SBV-antibodies, 36 positive for AKAVantibodies and 53 SHUV antibody-positive samples were tested in comparison to neutralization tests. For the newly developed ELISA, overall diagnostic specificities of 84.56%, 94.68% and 89.39% and sensitivities of 89.08%, 69.44% and 84.91% were calculated for SBV, AKAV and SHUV, respectively, with only slight effects of serological cross-reactivity on the diagnostic specificity. Thus, this test system could be used for serological screening in suspected populations or as additional tool during outbreak investigations. [ABSTRACT FROM AUTHOR]

Published

2021