Your search keyword '"BUNYAVIRUSES"' showing total 1,526 results

1. Suppression of interferon response and antiviral strategies of bunyaviruses

Author

He, Yingying, Shen, Min, Wang, Xiaohe, Yin, Anqi, Liu, Bingyan, Zhu, Jie, and Zhang, ZhenHua

Published

2024

2. Serological Evidence of Bactrian Camel Infection with Tamdy Virus, Xinjiang, China.

Author

Cui, Mingxue, Bi, Yuhai, Guo, Moujian, Carr, Michael J., Shi, Weifeng, Ma, Zhenghai, and Zhou, Hong

Subjects

*CAMELS, *BUNYAVIRUSES, *VIRUS diseases, *ANTIBODY titer, *CATTLE

Abstract

Background: Tamdy Virus (TAMV) is a pathogenic nairovirus widely distributed in central Asia and northwestern China. However, the host range of TAMV remains unclear, which limits our understanding the transmission cycle and cross-species patterns of this virus. Materials and Methods: A total of 160 serum samples were collected from livestock animals of camels, cattle, and sheep in Xinjiang, China between 2018 and 2021. An indirect immunofluorescence assay for TAMV were developed in this study, and have been employed to test TAMV-specific antibodies in these serum samples. Results: TAMV IgG antibody was detectable in camel sera collected from Urumqi in 2018 (6/17, 35%) and also from the Alertai Region in 2021 (1/8, 12.5%). Conclusion: The serological results in this study provide the first evidence that TAMV is able to infect camels and that the pathogen is circulating in different regions of Xinjiang. These findings highlight the need to further increase clinical and epidemiological surveillance of TAMV in humans and livestock in northwestern China. [ABSTRACT FROM AUTHOR]

Published

2024

3. Host-Driven Ubiquitination Events in Vector-Transmitted RNA Virus Infections as Options for Broad-Spectrum Therapeutic Intervention Strategies.

Author

Sreepangi, Sanskruthi, Baha, Haseebullah, Opoku, Lorreta Aboagyewa, Jones, Naomi X., Konadu, Maame, Alem, Farhang, Barrera, Michael D., and Narayanan, Aarthi

Subjects

*POST-translational modification, *RNA virus infections, *LIFE cycles (Biology), *VIRAL proteins, *BUNYAVIRUSES

Abstract

Many vector-borne viruses are re-emerging as public health threats, yet our understanding of the virus–host interactions critical for productive infection remains limited. The ubiquitination of proteins, including host- and pathogen-derived proteins is a highly prominent and consistent post-translational modification that regulates protein function through signaling and degradation. Viral proteins are documented to hijack the host ubiquitination machinery to modulate multiple host processes including antiviral defense mechanisms. The engagement of the host ubiquitination machinery in the post-translational modification of viral proteins to support aspects of the viral life cycle including assembly and egress is also well documented. Exploring the role ubiquitination plays in the life cycle of vector-transmitted viral pathogens will increase the knowledge base pertinent to the impact of host-enabled ubiquitination of viral and host proteins and the consequences on viral pathogenesis. In this review, we explore E3 ligase-regulated ubiquitination pathways functioning as proviral and viral restriction factors in the context of acutely infectious, vector-transmitted viral pathogens and the potential for therapeutically targeting them for countermeasures development. [ABSTRACT FROM AUTHOR]

Published

2024

4. Promotion of order Bunyavirales to class Bunyaviricetes to accommodate a rapidly increasing number of related polyploviricotine viruses.

Author

Kuhn, Jens H., Brown, Katherine, Adkins, Scott, de la Torre, Juan Carlos, Digiaro, Michele, Ergünay, Koray, Firth, Andrew E., Hughes, Holly R., Junglen, Sandra, Lambert, Amy J., Maes, Piet, Marklewitz, Marco, Palacios, Gustavo, Takahide Sasaya (笹谷孝英), Mang Shi (施莽), Yong-Zhen Zhang (张永振), Wolf, Yuri I., and Massimo Turina

Subjects

*RNA replicase, *ARENAVIRUSES, *BUNYAVIRUSES, *GENOMES, *RNA

Abstract

Prior to 2017, the family Bunyaviridae included five genera of arthropod and rodent viruses with tri-segmented negative-sense RNA genomes related to the Bunyamwera virus. In 2017, the International Committee on Taxonomy of Viruses (ICTV) promoted the family to order Bunyavirales and subsequently greatly expanded its composition by adding multiple families for non-segmented to polysegmented viruses of animals, fungi, plants, and protists. The continued and accelerated discovery of bunyavirals highlighted that an order would not suffice to depict the evolutionary relationships of these viruses. Thus, in April 2024, the order was promoted to class Bunyaviricetes. This class currently includes two major orders, Elliovirales (Cruliviridae, Fimoviridae, Hantaviridae, Peribunyaviridae, Phasmaviridae, Tospoviridae, and Tulasviridae) and Hareavirales (Arenaviridae, Discoviridae, Konkoviridae, Leishbuviridae, Mypoviridae, Nairoviridae, Phenuiviridae, and Wupedeviridae), for hundreds of viruses, many of which are pathogenic for humans and other animals, plants, and fungi. [ABSTRACT FROM AUTHOR]

Published

2024

5. Numb-associated kinases regulate sandfly-borne Toscana virus entry

Author

Yarden Moalem, Rodolfo Katz, Anand G. Subramaniam, Yehonathan Malis, Yakey Yaffe, Nofit Borenstein-Auerbach, Keshet Tadmor, Roey Raved, Ben M. Maoz, Ji Seung Yoo, Yaniv Lustig, Chen Luxenburg, Eran Perlson, Shirit Einav, and Ella H. Sklan

Subjects

Toscana virus, Sandfly, Phleboviruses, Bunyaviruses, viral entry, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Sandfly-borne Toscana virus (TOSV) is an enveloped tri-segmented negative single-strand RNA Phlebovirus. It is an emerging virus predominantly endemic in southwestern Europe and Northern Africa. Although TOSV infection is typically asymptomatic or results in mild febrile disease, it is neurovirulent and ranks among the three most common causes of summer meningitis in certain regions. Despite this clinical significance, our understanding of the molecular aspects and host factors regulating phlebovirus infection is limited. This study characterized the early steps of TOSV infection. Our findings reveal that two members of the Numb-associated kinases family of Ser/Thr kinases, namely adaptor-associated kinase 1 (AAK1) and cyclin G-associated kinase (GAK), play a role in regulating the early stages of TOSV entry. FDA-approved inhibitors targeting these kinases demonstrated significant inhibition of TOSV infection. This study suggests that AAK1 and GAK represent druggable targets for inhibiting TOSV infection and, potentially, related Phleboviruses.

Published

2024

6. Surveillance of tahyna orthobunyavirus in urban areas in Croatia-The 'one health' approach

Author

Stevanovic, Vladimir, Vilibic-Cavlek, Tatjana, Savic, Vladimir, Klobucar, Ana, Kovac, Snjezana, Posavec, Marcela Curman, Petrinic, Suncica, Bogdanic, Maja, Santini, Marija, Tesic, Vanja, Soares, Nathalia de Albuquerque, and Barbic, Ljubo

Published

2022

7. Identification of novel reassortant Shuni virus strain in clinical cases of Israeli ruminants, 2020-2021

Author

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

Published

2022

8. Crimean-Congo Hemorrhagic Fever Virus for Clinicians—Diagnosis, Clinical Management, and Therapeutics

Author

Maria G. Frank, Gretchen Weaver, and Vanessa Raabe

Subjects

Crimean-Congo hemorrhagic fever, viruses, zoonoses, CCHFV, bunyaviruses, viral hemorrhagic fever, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Crimean-Congo hemorrhagic fever virus (CCHFV) is the most geographically widespread tickborne viral infection worldwide and has a fatality rate of up to 62%. Despite its widespread range and high fatality rate, no vaccines or treatments are currently approved by regulatory agencies in the United States or Europe. Supportive treatment remains the standard of care, but the use of antiviral medications developed for other viral infections have been considered. We reviewed published literature to summarize the main aspects of CCHFV infection in humans. We provide an overview of diagnostic testing and management and medical countermeasures, including investigational vaccines and limited therapeutics. CCHFV continues to pose a public health threat because of its wide geographic distribution, potential to spread to new regions, propensity for genetic variability, potential for severe and fatal illness, and limited medical countermeasures for prophylaxis and treatment. Clinicians should become familiar with available diagnostic and management tools for CCHFV infections in humans.

Published

2024

9. An insight into the vaginal microbiome of infertile women in Bangladesh using metagenomic approach.

Author

Hasan, Zahid, Netherland, Michael, Hasan, Nur A., Begum, Nurjahan, Yasmin, Mahmuda, and Ahmed, Sangita

Subjects

METAGENOMICS, FEMALE infertility, SHOTGUN sequencing, BUNYAVIRUSES, BACTERIAL communities, RETROVIRUSES, CLUSTER sampling

Abstract

Introduction: The dysbiosis of vaginal microbiota is recognized as a potential underlying factor contributing to infertility in women. This study aimed to compare the vaginal microbiomes of infertile and fertile women to investigate their relationship with infertility. Methods: Metagenomic analysis was conducted on samples from 5 infertile and 5 fertile individuals using both amplicon 16S and metagenomics shotgun sequencing methods. Results and discussion: In the infertile group, the bacterial community was primarily represented by three major bacterial genera: Lactobacillus (79.42%), Gardnerella (12.56%) and Prevotella (3.33%), whereas, the fertile group exhibited a more diverse composition with over 8 major bacterial genera, accompanied by significantly reduced abundance of Lactobacillus (48.79%) and Gardnerella (6.98%). At the species level, higher abundances of L. iners, L. gasseri and G. vaginalis were observed in the infertile group. Regarding the microbiome composition, only one fertile and two infertile subjects exhibited the healthiest Community State Types, CST-1, while CST-3 was observed among two infertile and one fertile subject, and CST-4 in three other fertile and one infertile subject. Overall, alpha diversity metrics indicated greater diversity and lower species richness in the control (fertile) group, while the infertile group displayed the opposite trend. However, beta-diversity analysis did not show distinct clustering of samples associated with any specific group; instead, it demonstrated CST-type specific clustering. Shotgun metagenomics further confirmed the dominance of Firmicutes, with a greater abundance of Lactobacillus species in the infertile group. Specifically, L. iners and G. vaginalis were identified as the most dominant and highly abundant in the infertile group. Fungi were only identified in the control group, dominated by Penicillium citrinum (62.5%). Metagenomeassembled genomes (MAGs) corroborated read-based taxonomic profiling, with the taxon L. johnsonii identified exclusively in disease samples. MAG identities shared by both groups include Shamonda orthobunyavirus, L. crispatus, Human endogenous retrovirus K113, L. iners, and G. vaginalis. Interestingly, the healthy microbiomes sequenced in this study contained two clusters, Penicillium and Staphylococcus haemolyticus, not found in the public dataset. In conclusion, this study suggests that lower species diversity with a higher abundance of L. iners, L. gasseri and G. vaginalis, may contribute to female infertility in our study datasets. However, larger sample sizes are necessary to further evaluate such association. [ABSTRACT FROM AUTHOR]

Published

2024

10. N-glycosylation of viral glycoprotein is a novel determinant for the tropism and virulence of highly pathogenic tick-borne bunyaviruses.

Author

Shimojima, Masayuki, Sugimoto, Satoko, Taniguchi, Satoshi, Maeki, Takahiro, Yoshikawa, Tomoki, Kurosu, Takeshi, Tajima, Shigeru, Lim, Chang-Kweng, and Ebihara, Hideki

Subjects

*BUNYAVIRUSES, *ANIMAL diseases, *VIRAL tropism, *TROPISMS, *VIRAL proteins

Abstract

Severe fever with thrombocytopenia syndrome (SFTS) virus, a tick-borne bunyavirus, causes a severe/fatal disease termed SFTS; however, the viral virulence is not fully understood. The viral non-structural protein, NSs, is the sole known virulence factor. NSs disturbs host innate immune responses and an NSs-mutant SFTS virus causes no disease in an SFTS animal model. The present study reports a novel determinant of viral tropism as well as virulence in animal models, within the glycoprotein (GP) of SFTS virus and an SFTS-related tick-borne bunyavirus. Infection with mutant SFTS viruses lacking the N-linked glycosylation of GP resulted in negligible usage of calcium-dependent lectins in cells, less efficient infection, high susceptibility to a neutralizing antibody, low cytokine production in macrophage-like cells, and reduced virulence in Ifnar-/- mice, when compared with wildtype virus. Three SFTS virus-related bunyaviruses had N-glycosylation motifs at similar positions within their GP and a glycan-deficient mutant of Heartland virus showed in vitro and in vivo phenotypes like those of the SFTS virus. Thus, N-linked glycosylation of viral GP is a novel determinant for the tropism and virulence of SFTS virus and of a related virus. These findings will help us understand the process of severe/fatal diseases caused by tick-borne bunyaviruses. Author summary: Ticks sometimes contain small pathogens in their bodies. Because ticks need blood to survive, upon bloodsucking, the pathogens spread to humans as well as animals and cause diseases in some cases. One such pathogen is the bunyavirus, which includes severe fever with thrombocytopenia syndrome virus, and diseases caused by these viruses are often fatal. Most details of bunyavirus-driven diseases are poorly understood, but a viral protein, NSs, was shown to disturb immune responses in humans. This study reports the discovery and characteristics of a novel virulence factor within another bunyaviral glycoprotein. The novel virulence factor is N-glycosylated modification and involves the viral targets for infection. Mutant viruses lacking the modification in the glycoprotein had limited infection potential in cell culture experiments and weakened virulence in animal experiments. Our findings will help us understand bunyavirus-driven diseases and, hopefully, promote countermeasures against the diseases, leading to safer outdoor activities. [ABSTRACT FROM AUTHOR]

Published

2024

11. A full-length glycoprotein mRNA vaccine confers complete protection against severe fever with thrombocytopenia syndrome virus, with broad-spectrum protective effects against bandaviruses.

Author

Jia Lu, Jun Liu, Yan Wu, Xiaoxue He, Xiao Gao, Xinlan Chen, Shaoyi Chen, Xuerui Zhu, Yucai Peng, Gengfu Xiao, and Xiaoyan Pan

Subjects

*BUNYAVIRUSES, *THROMBOCYTOPENIA, *CELLULAR immunity, *GENE expression, *PATHOGENIC viruses, *VACCINES

Abstract

Highly pathogenic viruses from family Phenuiviridae, which are mainly transmitted by arthropods, have intermittently sparked epidemics worldwide. In particular, tick-borne bandaviruses, such as severe fever with thrombocytopenia syndrome virus (SFTSV), continue to spread in mountainous areas, resulting in an average mortality rate as high as 10.5%, highlighting the urgency and importance of vaccine development. Here, an mRNA vaccine developed based on the full-length SFTSV glycoprotein, containing both the receptor-binding domain and the fusion domain, was shown to confer complete protection against SFTSV at a very low dose by triggering a type 1 helper T cell-biased cellular immune response in rodents. Moreover, the vaccine candidate elicited long-term immunity and protection against SFTSV for at least 5 months. Notably, it provided complete cross-protection against other bandaviruses, such as the Heartland virus and Guertu virus, in lethal challenge models. Further research revealed that the conserved epitopes among bandaviruses within the full-length SFTSV glycoprotein may facilitate broad-spectrum protection mediated by the cellular immune response. Collectively, these findings demonstrate that the full-length SFTSV glycoprotein mRNA vaccine is a promising vaccine candidate for SFTSV and other bandaviruses, and provide guidance for the development of broad-spectrum vaccines from conserved antigens and epitopes. IMPORTANCE Tick-borne bandaviruses, such as SFTSV and Heartland virus, sporadically trigger outbreaks in addition to influenza viruses and coronaviruses, yet there are no specific vaccines or therapeutics against them. mRNA vaccine technology has advantages in terms of enabling in situ expression and triggering cellular immunity, thus offering new solutions for vaccine development against intractable viruses, such as bandaviruses. In this study, we developed a novel vaccine candidate for SFTSV by employing mRNA vaccination technology and using a full-length glycoprotein as an antigen target. This candidate vaccine confers complete and durable protection against SFTSV at a notably low dose while also providing cross-protection against Heartland virus and Guertu virus. This study highlights the prospective value of fulllength SFTSV-glycoprotein-based mRNA vaccines and suggests a potential strategy for broad-spectrum bandavirus vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

12. Innate immune response against vector-borne bunyavirus infection and viral countermeasures.

Author

Minghua Li

Subjects

VIRUS diseases, BUNYAVIRUSES, IMMUNE response, INTERFERON receptors, RNA viruses, ANIMAL diseases, INTERFERONS

Abstract

Bunyaviruses are a large group of important viral pathogens that cause significant diseases in humans and animals worldwide. Bunyaviruses are enveloped, singlestranded, negative-sense RNA viruses that infect a wide range of hosts. Upon entry into host cells, the components of viruses are recognized by host innate immune system, leading to the activation of downstream signaling cascades to induce interferons (IFNs) and other proinflammatory cytokines. IFNs bind to their receptors and upregulate the expression of hundreds of interferon-stimulated genes (ISGs). Many ISGs have antiviral activities and confer an antiviral state to host cells. For efficient replication and spread, viruses have evolved different strategies to antagonize IFN-mediated restriction. Here, we discuss recent advances in our understanding of the interactions between bunyaviruses and host innate immune response. [ABSTRACT FROM AUTHOR]

Published

2024

13. Correlation between the Cycle Threshold Values in Detection of Severe Fever with Thrombocytopenia Syndrome Virus Using PowerChek TM SFTSV Real-Time PCR Kit and Viral Load: Prognostic Implications.

Author

Kim, Misun, Heo, Sang Taek, Kim, Hee Cheol, Kang, Myeong Jin, Kim, Sora, Lee, Keun Hwa, and Yoo, Jeong Rae

Subjects

*VIRAL load, *PROGNOSIS, *BUNYAVIRUSES, *THROMBOCYTOPENIA, *FEVER, *PUBLIC hospitals

Abstract

Background: This study aimed to analyze the correlation between the cycle threshold (Ct) values of severe fever with thrombocytopenia syndrome (SFTS) virus small (S) and middle (M) segments and the SFTS viral load, aiming to estimate the initial viral load and predict prognosis in the early clinical course. Method: A retrospective study was conducted with confirmed SFTS patients at Jeju National University Hospital (2016–2022). Patients were categorized into non-fatal and fatal groups. Results: This study included 49 patients with confirmed SFTS (non-fatal group, n = 42; fatal group, n = 7). A significant negative correlation (−0.783) was observed between the log SFTS viral load and Ct values (p < 0.001). This negative correlation was notably stronger in the fatal group (correlation coefficient −0.940) than in the non-fatal group (correlation coefficient −0.345). Conclusion: In this study, we established a correlation between SFTS viral load and Ct values for estimating the initial viral load and early predicting prognosis. These results are expected to offer valuable insights for SFTS patient treatment and prognosis prediction. [ABSTRACT FROM AUTHOR]

Published

2024

14. Isolation and Identification of Severe Fever with Thrombocytopenia Syndrome Virus from Farmed Mink in Shandong, China.

Author

Meng, Xiangshu, Sun, Jian, Yao, Mengfan, Sun, Yue, Xu, Han, Liu, Chao, Chen, Han, Guo, Jie, Nie, Xiaoxuan, He, Longbin, Zhao, Zongzheng, Li, Nan, Wang, Zekun, and Wang, Jianke

Subjects

*BUNYAVIRUSES, *THROMBOCYTOPENIA, *FEVER, *TRANSMISSION electron microscopy, *WATCHFUL waiting, *SYNDROMES, *POULTRY farms

Abstract

Severe fever with thrombocytopenia syndrome (SFTS) virus, recently named Bandavirus dabieense, belongs to the genus Bandavirus of family Phenuiviridae, and it causes SFTS in humans with clinical symptoms including fever, thrombocytopenia, gastrointestinal symptoms, and leukocytopenia. However, there are few reports on the pathogenesis of SFTSV in animals. This study first isolated the SFTSV strain SD22-2 from sick-farmed mink. Viral metagenomics was used to detect SFTSV nucleotide in the clinical specimens obtained from symptomatic minks. Then, we isolated the virus using Vero and DH82 cells, and Real-Time Quantitative PCR (RT-qPCR), indirect immunofluorescence assay, transmission electron microscopy, and Western blotting identified it. Meanwhile, phylogenetic analysis based on partial L, M, and S segment sequences indicated that the mink-origin SFTSV strain SD22-2 belonged to genotype D and was genetically close to the HB2016-003 strain isolated from humans. Taken together, we isolated and identified an SFTSV from farmed mink that may be the reservoir hosts of SFTSV. We should pay more attention to farmed minks and biosecurity practices, and active surveillance at fur farms must be reviewed and enhanced. [ABSTRACT FROM AUTHOR]

Published

2024

15. Illuminating bunyavirus entry into host cells with fluorescence.

Author

Gu, Yu and Lozach, Pierre‐Yves

Subjects

*BUNYAVIRUSES, *DOMESTIC animal diseases, *FLUORESCENCE, *TECHNOLOGICAL innovations, *RNA viruses

Abstract

Bunyavirales constitute the largest order of enveloped RNA viruses, many members of which cause severe diseases in humans and domestic animals. In recent decades, innovative fluorescence‐based methods have paved the way to visualize and track single fluorescent bunyaviral particles in fixed and live cells. This technological breakthrough has enabled imaging of the early stages of infection and the quantification of every step in the bunyavirus cell entry process. Here, we describe the latest procedures for rendering bunyaviral particles fluorescent and discuss the advantages and disadvantages of each approach in light of the most recent advances in fluorescence detection and monitoring of bunyavirus entry. In this mini‐review, we also illustrate how fluorescent viral particles are a powerful tool for deciphering the cellular entry process of bunyaviruses, the vast majority of which have not yet been analyzed. [ABSTRACT FROM AUTHOR]

Published

2024

16. Severe fever with thrombocytopenia syndrome virus infection shapes gut microbiome of the tick vector Haemaphysalis longicornis.

Author

Sun, Yu, Chen, Chen, Zeng, Chenghong, Xia, Qianfeng, Yuan, Chuanfei, and Pei, Hua

Subjects

*VIRUS diseases, *GUT microbiome, *TICK infestations, *BUNYAVIRUSES, *TICKS, *TICK-borne diseases, *BACTERIAL diversity

Abstract

Background: Ticks serve as vectors for a diverse array of pathogens, including viruses responsible for both human and livestock diseases. Symbiotic bacteria hold significant potential for controlling tick-borne disease. However, the alteration of tick gut bacterial community in response to pathogen infection has not been analyzed for any tick-borne viruses. Here, the impact of severe fever with thrombocytopenia syndrome virus (SFTSV) infection on bacterial diversity in the gut of Haemaphysalis longicornis is investigated. Methods: Unfed tick females were artificially infected with SFTSV. The gut samples were collected and the genomic DNA was extracted. We then investigated alterations in gut bacterial composition in response to SFTSV infection through 16S rRNA gene sequencing. Results: The study found that a reduction in the number of operational taxonomic units (OTUs) in the tick gut following SFTSV infection. However, there were no significant changes in alpha diversity indices upon infection. Four genera, including Corynebacterium, Arthrobacter, Sphingomonas, and Escherichia, were identified as biomarkers for the tick gut without SFTSV infection. Notably, the predicted correlation network indicated that the biomarkers Sphingomonas and Escherichia exhibited positive correlations within the same subcommunity, which was altered upon viral infection. Conclusions: These findings revealed that the change in tick gut bacterial composition upon SFTSV infection and could facilitate the discovery new target for tick-borne viral disease control. [ABSTRACT FROM AUTHOR]

Published

2024

17. The Adaptive Immune Response against Bunyavirales.

Author

Alatrash, Reem and Herrera, Bobby Brooke

Subjects

*IMMUNE response, *T cells, *VACCINE effectiveness, *ARTHROPOD vectors, *VACCINE development, *ANTIBODY formation, *AVIAN influenza

Abstract

The Bunyavirales order includes at least fourteen families with diverse but related viruses, which are transmitted to vertebrate hosts by arthropod or rodent vectors. These viruses are responsible for an increasing number of outbreaks worldwide and represent a threat to public health. Infection in humans can be asymptomatic, or it may present with a range of conditions from a mild, febrile illness to severe hemorrhagic syndromes and/or neurological complications. There is a need to develop safe and effective vaccines, a process requiring better understanding of the adaptive immune responses involved during infection. This review highlights the most recent findings regarding T cell and antibody responses to the five Bunyavirales families with known human pathogens (Peribunyaviridae, Phenuiviridae, Hantaviridae, Nairoviridae, and Arenaviridae). Future studies that define and characterize mechanistic correlates of protection against Bunyavirales infections or disease will help inform the development of effective vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

18. Virome diversity shaped by genetic evolution and ecological landscape of Haemaphysalis longicornis.

Author

Ye, Run-Ze, Li, Yu-Yu, Xu, Da-Li, Wang, Bai-Hui, Wang, Xiao-Yang, Zhang, Ming-Zhu, Wang, Ning, Gao, Wan-Ying, Li, Cheng, Han, Xiao-Yu, Du, Li-Feng, Xia, Luo-Yuan, Song, Ke, Xu, Qing, Liu, Jing, Cheng, Nuo, Li, Ze-Hui, Du, Yi-Di, Yu, Hui-Jun, and Shi, Xiao-Yu

Subjects

GENETIC variation, NORMALIZED difference vegetation index, BUNYAVIRUSES, VEGETATION dynamics, NUMBERS of species, ANAPLASMA phagocytophilum, LANDSCAPES

Abstract

Background: Haemaphysalis longicornis is drawing attentions for its geographic invasion, extending population, and emerging disease threat. However, there are still substantial gaps in our knowledge of viral composition in relation to genetic diversity of H. longicornis and ecological factors, which are important for us to understand interactions between virus and vector, as well as between vector and ecological elements. Results: We conducted the meta-transcriptomic sequencing of 136 pools of H. longicornis and identified 508 RNA viruses of 48 viral species, 22 of which have never been reported. Phylogenetic analysis of mitochondrion sequences divided the ticks into two genetic clades, each of which was geographically clustered and significantly associated with ecological factors, including altitude, precipitation, and normalized difference vegetation index. The two clades showed significant difference in virome diversity and shared about one fifth number of viral species that might have evolved to "generalists." Notably, Bandavirus dabieense, the pathogen of severe fever with thrombocytopenia syndrome was only detected in ticks of clade 1, and half number of clade 2-specific viruses were aquatic-animal-associated. Conclusions: These findings highlight that the virome diversity is shaped by internal genetic evolution and external ecological landscape of H. longicornis and provide the new foundation for promoting the studies on virus-vector-ecology interaction and eventually for evaluating the risk of H. longicornis for transmitting the viruses to humans and animals. 4querEumuJMtVvn4JLJ-5M Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

19. Detection of Candidatus Liberibacter asiaticus and five viruses in individual Asian citrus psyllid in China.

Author

Luqin Liu, Jing Chen, Junyao Jiang, Jiamei Liang, Yaqin Song, Qi Chen, Fuling Yan, Ziqin Bai, Zhen Song, and Jinxiang Liu

Subjects

CITRUS greening disease, CANDIDATUS liberibacter asiaticus, REVERSE transcriptase polymerase chain reaction, BUNYAVIRUSES, INSECT viruses, INSECT pathogens, CITRUS, CITRUS canker

Abstract

Introduction: Asian citrus psyllid (ACP, Diaphorina citri) is an important transmission vector of "Candidatus Liberibacter asiaticus" (CLas), the causal agent of Huanglongbing (HLB), the most destructive citrus disease in the world. As there are currently no HLB-resistant rootstocks or varieties, the control of ACP is an important way to prevent HLB. Some viruses of insect vectors can be used as genetically engineered materials to control insect vectors. Methods: To gain knowledge on viruses in ACP in China, the prevalence of five RNA and DNA viruses was successfully determined by optimizing reverse transcription polymerase chain reaction (RT-PCR) in individual adult ACPs. The five ACPassociated viruses were identified as follows: diaphorina citri bunyavirus 2, which was newly identified by high-throughput sequencing in our lab, diaphorina citri reovirus (DcRV), diaphorina citri picorna-like virus (DcPLV), diaphorina citri bunyavirus (DcBV), and diaphorina citri densovirus-like virus (DcDV). Results: DcPLV was the most prevalent and widespread ACP-associated virus, followed by DcBV, and it was detected in more than 50% of all samples tested. DcPLV was also demonstrated to propagate vertically and found more in salivary glands among different tissues. Approximately 60% of all adult insect samples were co-infected with more than one insect pathogen, including the five ACPassociated viruses and CLas. Discussion: This is the first time these viruses, including the newly identified ACPassociated virus, have been detected in individual adult ACPs from natural populations in China's five major citrus-producing provinces. These results provide valuable information about the prevalence of ACP-associated viruses in China, some of which have the potential to be used as biocontrol agents. In addition, analysis of the change in prevalence of pathogens in a single insect vector is the basis for understanding the interactions between CLas, ACP, and insect viruses. [ABSTRACT FROM AUTHOR]

Published

2024

20. Dynamics of neutralizing antibodies against severe fever with thrombocytopenia syndrome virus

Author

Jia-Chen Li, Heng Ding, Gang Wang, Shuo Zhang, Xin Yang, Yong-Xiang Wu, Xue-Fang Peng, Xiao-Ai Zhang, Zhen-Dong Yang, Ning Cui, Hao Li, and Wei Liu

Subjects

Bunyaviruses, Tick-borne infectious diseases, Severe fever with thrombocytopenia syndrome virus, Neutralizing antibody, Cohort study, Infectious and parasitic diseases, RC109-216

Abstract

Objectives: Severe fever with thrombocytopenia syndrome (SFTS) virus (SFTSV) is an emerging tick-borne bunyavirus with a high pathogenicity. Little is known about the longitudinal dynamics of the SFTSV-specific neutralizing antibody (NAb) and the related factors in patients with SFTS. Methods: A prospective cohort study of patients with laboratory-confirmed SFTS were conducted. Antiglomerulonephritis-immunoglobulin G (anti-Gn-IgG) and NAb titers were examined in serially collected serum samples, and their dynamic features were analyzed. Results: NAb was initially detected at 15 days after symptom onset in surviving patients with SFTS, with positive rates of 37.21% (16/43), whereas neither anti-Gn-IgG antibody nor NAb was detected in patients with fatal SFTS during their hospitalization. The NAb levels reached the peak at 2 months after symptom onset, and then gradually declined, with a rapid downward trend from 6 months to 4 years and a relatively slow downward trend from 5 to 10 years. There was a positive correlation between NAb and anti-Gn-IgG titers in surviving patients with SFTS (r = 0.699, P

Published

2023

21. Human and animal exposure to newly discovered sand fly viruses, China.

Author

Xiaohui Yao, Qikai Yin, Xiaodong Tian, Yuke Zheng, Hongyan Li, Shihong Fu, Zhengmin Lian, Yijia Zhang, Fan Li, Weijia Zhang, Ying He, Ruichen Wang, Bin Wu, Kai Nie, Songtao Xu, Jingxia Cheng, Xiangdong Li, Huanyu Wang, and Guodong Liang

Subjects

VIRUS isolation, VIRUS diseases, WESTERN immunoblotting, CHICKENS, HUMAN beings, SAND flies, MICE, BUNYAVIRUSES

Abstract

Introduction: The Hedi virus (HEDV) and Wuxiang virus (WUXV) are newly discovered Bunyaviruses transmitted by sandflies. The geographical distribution of isolation of these two viruses continues to expand and it has been reported that WUXV causes neurological symptoms and even death in suckling mice. However, little is known about the prevalence of the two viruses in mammalian infections. Methods: In order to understand the infection status of HEDV and WUXV in humans and animals from regions where the viruses have been isolated, this study used Western blotting to detect the positive rates of HEDV and WUXV IgG antibodies in serum samples from febrile patients, dogs, and chickens in the forementioned regions. Results: The results showed that of the 29 human serum samples, 17.24% (5/29) tested positive for HEDV, while 68.96% (20/29) were positive for WUXV. In the 31 dog serum samples, 87.10% (27/31) were positive for HEDV and 70.97% (22/31) were positive for WUXV, while in the 36 chicken serum samples, 47.22% (17/36) were positive for HEDV, and 52.78% (19/36) were positive for WUXV. Discussion: These findings suggest there are widespread infections of HEDV and WUXV in mammals (dogs, chickens) and humans from the regions where these viruses have been isolated. Moreover, the positive rate of HEDV infections was higher in local animals compared to that measured in human specimens. This is the first seroepidemiological study of these two sandfly-transmitted viruses. The findings of the study have practical implications for vector-borne viral infections and related zoonotic infections in China, as well as providing an important reference for studies on the relationship between sandfly-transmitted viruses and zoonotic infections outside of China. [ABSTRACT FROM AUTHOR]

Published

2024

22. Metagenomic Analysis of Viromes of Aedes Mosquitoes across India.

Author

Gangopadhayya, Abhranil, Lole, Kavita, Ghuge, Onkar, Ramdasi, Ashwini, Kamble, Asmita, Roy, Diya, Thakar, Shivani, Nath, Amol, Sudeep, AB, and Cherian, Sarah

Subjects

*AEDES aegypti, *AEDES, *AFRICAN swine fever virus, *BUNYAVIRUSES, *MOSQUITOES, *METAGENOMICS, *INSECT viruses

Abstract

Metagenomic analysis of Aedes aegypti and Ae. albopictus mosquitoes from diverse geographical regions of India revealed the presence of several insect viruses of human interest. Most abundant reads found in Ae. aegypti mosquitoes were of Phasi Charoen-like virus (PCLV), Choristoneura fumiferana granulovirus (CfGV), Cell fusing agent virus (CFAV), and Wenzhou sobemo-like virus 4 (WSLV4), whereas WSLV4 and CfGV constituted the highest percentage of reads in Ae. albopictus viromes. Other reads that were of low percentage included Hubei mosquito virus 2 (HMV2), Porcine astrovirus 4 (PAstV4), and Wild Boar astrovirus (WBAstV). PCLV and CFAV, which were found to be abundant in Ae. aegypti viromes were absent in Ae. albopictus viromes. Among the viromes analyzed, Ae. aegypti sampled from Pune showed the highest percentage (79.82%) of viral reads, while Ae. aegypti mosquitoes sampled from Dibrugarh showed the lowest percentage (3.47%). Shamonda orthobunyavirus (SHAV), African swine fever virus (ASFV), Aroa virus (AROAV), and Ilheus virus (ILHV), having the potential to infect vertebrates, including humans, were also detected in both mosquito species, albeit with low read numbers. Reads of gemykibivirus, avian retrovirus, bacteriophages, herpesviruses, and viruses infecting protozoans, algae, etc., were also detected in the mosquitoes. A high percentage of reads in the Ae. albopictus mosquito samples belonged to unclassified viruses and warrant further investigation. The data generated in the present work may not only lead to studies to explain the influence of these viruses on the replication and transmission of viruses of clinical importance but also to find applications as biocontrol agents against pathogenic viruses. [ABSTRACT FROM AUTHOR]

Published

2024

23. Expanding diversity of bunyaviruses identified in mosquitoes.

Author

Orba, Yasuko, Abu, Yusuf Eshimutu, Chambaro, Herman M., Lundu, Tapiwa, Muleya, Walter, Eshita, Yuki, Qiu, Yongjin, Harima, Hayato, Kajihara, Masahiro, Mori-Kajihara, Akina, Matsuno, Keita, Sasaki, Michihito, Hall, William W., Hang'ombe, Bernard M., and Sawa, Hirofumi

Subjects

*BUNYAVIRUSES, *AEDES aegypti, *RNA sequencing, *MOSQUITOES, *RIBONUCLEASES

Abstract

Mosquitoes interact with various organisms in the environment, and female mosquitoes in particular serve as vectors that directly transmit a number of microorganisms to humans and animals by blood-sucking. Comprehensive analysis of mosquito-borne viruses has led to the understanding of the existence of diverse viral species and to the identification of zoonotic arboviruses responsible for significant outbreaks and epidemics. In the present study on mosquito-borne bunyaviruses we employed a broad-spectrum RT-PCR approach and identified eighteen different additional species in the Phenuiviridae family and also a number of related but unclassified bunyaviruses in mosquitoes collected in Zambia. The entire RNA genome segments of the newly identified viruses were further analyzed by RNA sequencing with a ribonuclease R (RNase R) treatment to reduce host-derived RNAs and enrich viral RNAs, taking advantage of the dsRNA panhandle structure of the bunyavirus genome. All three or four genome segments were identified in eight bunyavirus species. Furthermore, L segments of three different novel viruses related to the Leishbunyaviridae were found in mosquitoes together with genes from the suspected host, the Crithidia parasite. In summary, our virus detection approach using a combination of broad-spectrum RT-PCR and RNA sequencing analysis with a simple virus enrichment method allowed the discovery of novel bunyaviruses. The diversity of bunyaviruses is still expanding and studies on this will allow a better understanding of the ecology of hematophagous mosquitoes. [ABSTRACT FROM AUTHOR]

Published

2023

24. Identification of Host Factors for Rift Valley Fever Phlebovirus.

Author

Balaraman, Velmurugan, Indran, Sabarish V., Li, Yonghai, Meekins, David A., Jakkula, Laxmi U. M. R., Liu, Heidi, Hays, Micheal P., Souza-Neto, Jayme A., Gaudreault, Natasha N., Hardwidge, Philip R., Wilson, William C., Weber, Friedemann, and Richt, Juergen A.

Subjects

*RIFT Valley fever, *BUNYAVIRUSES, *ENCEPHALITIS viruses, *VIRAL genes, *VIRAL replication, *ANTIVIRAL agents

Abstract

Rift Valley fever phlebovirus (RVFV) is a zoonotic pathogen that causes Rift Valley fever (RVF) in livestock and humans. Currently, there is no licensed human vaccine or antiviral drug to control RVF. Although multiple species of animals and humans are vulnerable to RVFV infection, host factors affecting susceptibility are not well understood. To identify the host factors or genes essential for RVFV replication, we conducted CRISPR-Cas9 knockout screening in human A549 cells. We then validated the putative genes using siRNA-mediated knock-downs and CRISPR-Cas9-mediated knock-out studies. The role of a candidate gene in the virus replication cycle was assessed by measuring intracellular viral RNA accumulation, and the virus titers were analyzed using plaque assay or TCID50 assay. We identified approximately 900 genes with potential involvement in RVFV infection and replication. Further evaluation of the effect of six genes on viral replication using siRNA-mediated knock-downs revealed that silencing two genes (WDR7 and LRP1) significantly impaired RVFV replication. For further analysis, we focused on the WDR7 gene since the role of the LRP1 gene in RVFV replication was previously described in detail. WDR7 knockout A549 cell lines were generated and used to dissect the effect of WRD7 on a bunyavirus, RVFV, and an orthobunyavirus, La Crosse encephalitis virus (LACV). We observed significant effects of WDR7 knockout cells on both intracellular RVFV RNA levels and viral titers. At the intracellular RNA level, WRD7 affected RVFV replication at a later phase of its replication cycle (24 h) when compared with the LACV replication, which was affected in an earlier replication phase (12 h). In summary, we identified WDR7 as an essential host factor for the replication of two different viruses, RVFV and LACV, both of which belong to the Bunyavirales order. Future studies will investigate the mechanistic role through which WDR7 facilitates phlebovirus replication. [ABSTRACT FROM AUTHOR]

Published

2023

25. The Discovery of Insect-Specific Viruses in Australia: Mozzies, Old Mates and New Methods

Author

Hall, Roy A., Vasilakis, Nikos, editor, and Kramer, Laura D., editor

Published

2023

26. Identification of tanshinone I as cap-dependent endonuclease inhibitor with broad-spectrum antiviral effect.

Author

Xiaoxue He, Fan Yang, Yan Wu, Jia Lu, Xiao Gao, Xuerui Zhu, Jie Yang, Shuwen Liu, Gengfu Xiao, and Xiaoyan Pan

Subjects

*ARENAVIRUSES, *RNA viruses, *CHINESE medicine, *ORTHOMYXOVIRUSES, *INFLUENZA viruses, *BUNYAVIRUSES

Abstract

The cap-snatching mechanism mediated by cap-dependent endonuclease, which is common among the negative-stranded, segmented RNA viruses in Orthomyxoviridae, Bunyaviridae, and Arenaviridae, is crucial for viral transcription and replication and is thus an attractive target for antiviral drug development. Herein, tanshinone I and its analog tanshinone IIA were identified as candidate compounds with broad-spectrum antiviral activities against bandaviruses, including severe fever with thrombocytopenia syndrome virus, Heartland virus, and Guertu virus. Additionally, the broad-spectrum antiviral activity was observed in influenza A virus and arenavirus. Further study demonstrated that tanshinone I exhibited potent antiviral activity in vitro and significantly reduced the viral loads in vivo. The underlying mechanism was speculated to involve tanshinone I binding to the active pocket of the L protein endonuclease domain to inhibit cap cleavage. This study reports candidate broad-spectrum antiviral compounds against negative-stranded, segmented RNA viruses, highlighting the endonuclease involved in the cap-snatching process as a reliable antiviral target for discovering broad-spectrum antivirals. IMPORTANCE The spread of avian-borne, tick-borne, and rodent-borne pathogens has the potential to pose a serious threat to human health, and candidate vaccines as well as therapeutics for these pathogens are urgently needed. Tanshinones, especially tanshinone I, were identified as a cap-dependent endonuclease inhibitor with broad-spectrum antiviral effects on negative-stranded, segmented RNA viruses including bandavirus, orthomyxovirus, and arenavirus from natural products, implying an important resource of candidate antivirals from the traditional Chinese medicines. This study supplies novel candidate antivirals for the negative-stranded, segmented RNA virus and highlights the endonuclease involved in the cap-snatching process as a reliable broad-spectrum antiviral target. [ABSTRACT FROM AUTHOR]

Published

2023

27. Organisation of the orthobunyavirus tripodal spike and the structural changes induced by low pH and K+ during entry.

Author

Hover, Samantha, Charlton, Frank W., Hellert, Jan, Swanson, Jessica J., Mankouri, Jamel, Barr, John N., and Fontana, Juan

Subjects

BUNYAVIRUSES, ENDOSOMES, GLYCOPROTEINS, ORGANIZATION, ENDOCYTOSIS

Abstract

Following endocytosis, enveloped viruses employ the changing environment of maturing endosomes as cues to promote endosomal escape, a process often mediated by viral glycoproteins. We previously showed that both high [K+] and low pH promote entry of Bunyamwera virus (BUNV), the prototypical bunyavirus. Here, we use sub-tomogram averaging and AlphaFold, to generate a pseudo-atomic model of the whole BUNV glycoprotein envelope. We unambiguously locate the Gc fusion domain and its chaperone Gn within the floor domain of the spike. Furthermore, viral incubation at low pH and high [K+], reminiscent of endocytic conditions, results in a dramatic rearrangement of the BUNV envelope. Structural and biochemical assays indicate that pH 6.3/K+ in the absence of a target membrane elicits a fusion-capable triggered intermediate state of BUNV GPs; but the same conditions induce fusion when target membranes are present. Taken together, we provide mechanistic understanding of the requirements for bunyavirus entry. Enveloped viruses employ the maturing environment of endosomes to promote endosomal escape. Here, authors generate a pseudo-atomic model of the BUNV envelope using sub-tomogram averaging and AlphaFold, and identify ionic cues for fusion events. [ABSTRACT FROM AUTHOR]

Published

2023

28. Dynamics of neutralizing antibodies against severe fever with thrombocytopenia syndrome virus.

Author

Li, Jia-Chen, Ding, Heng, Wang, Gang, Zhang, Shuo, Yang, Xin, Wu, Yong-Xiang, Peng, Xue-Fang, Zhang, Xiao-Ai, Yang, Zhen-Dong, Cui, Ning, Li, Hao, and Liu, Wei

Subjects

*THROMBOCYTOPENIA, *IMMUNOGLOBULINS, *FEVER, *HIV seroconversion, *VIRAL load, *SYNDROMES

Abstract

• Neutralizing antibody (NAb) levels gradually declined from 2 months to 10 years after symptom onset. • NAb was undetectable in patients with fatal severe fever with thrombocytopenia syndrome (SFTS) during the hospitalization. • Patients with SFTS with mild illness or low viremia may experience early NAb seroconversion. • Distinct dynamic patterns of NAb were noted in patients with SFTS. Severe fever with thrombocytopenia syndrome (SFTS) virus (SFTSV) is an emerging tick-borne bunyavirus with a high pathogenicity. Little is known about the longitudinal dynamics of the SFTSV-specific neutralizing antibody (NAb) and the related factors in patients with SFTS. A prospective cohort study of patients with laboratory-confirmed SFTS were conducted. Antiglomerulonephritis-immunoglobulin G (anti-Gn-IgG) and NAb titers were examined in serially collected serum samples, and their dynamic features were analyzed. NAb was initially detected at 15 days after symptom onset in surviving patients with SFTS, with positive rates of 37.21% (16/43), whereas neither anti-Gn-IgG antibody nor NAb was detected in patients with fatal SFTS during their hospitalization. The NAb levels reached the peak at 2 months after symptom onset, and then gradually declined, with a rapid downward trend from 6 months to 4 years and a relatively slow downward trend from 5 to 10 years. There was a positive correlation between NAb and anti-Gn-IgG titers in surviving patients with SFTS (r = 0.699, P <0.001). Patients with a mild illness or low viral load experienced early NAb seroconversion. Six different dynamic patterns of NAb were noted in surviving patients. These data provide useful information regarding the dynamic changes in NAb in patients with SFTS during the acute and convalescent phases and the follow-up period. [ABSTRACT FROM AUTHOR]

Published

2023

29. Bioinformatic Surveillance Leads to Discovery of Two Novel Putative Bunyaviruses Associated with Black Soldier Fly.

Author

Walt, Hunter K., Kooienga, Emilia, Cammack, Jonathan A., Tomberlin, Jeffery K., Jordan, Heather R., Meyer, Florencia, and Hoffmann, Federico G.

Subjects

*HERMETIA illucens, *BUNYAVIRUSES, *NUCLEOTIDE sequencing, *ORGANIC wastes, *SILKWORMS, *HONEYBEES

Abstract

The black soldier fly (Hermetia illucens, BSF) has emerged as an industrial insect of high promise because of its ability to convert organic waste into nutritious feedstock, making it an environmentally sustainable alternative protein source. As global interest rises, rearing efforts have also been upscaled, which is highly conducive to pathogen transmission. Viral epidemics have stifled mass-rearing efforts of other insects of economic importance, such as crickets, silkworms, and honeybees, but little is known about the viruses that associate with BSF. Although BSFs are thought to be unusually resistant to pathogens because of their expansive antimicrobial gene repertoire, surveillance techniques could be useful in identifying emerging pathogens and common BSF microbes. In this study, we used high-throughput sequencing data to survey BSF larvae and frass samples, and we identified two novel bunyavirus-like sequences. Our phylogenetic analysis grouped one in the family Nairoviridae and the other with two unclassified bunyaviruses. We describe these putative novel viruses as BSF Nairovirus-like 1 and BSF uncharacterized bunyavirus-like 1. We identified candidate segments for the full BSF Nairovirus-like 1 genome using a technique based on transcript co-occurrence and only a partial genome for BSF uncharacterized bunyavirus-like 1. These results emphasize the value of routine BSF colony surveillance and add to the number of viruses associated with BSF. [ABSTRACT FROM AUTHOR]

Published

2023

30. Research Progress of Fever with Thrombocytopenia Syndrome.

Author

Luo, Ning, Li, Mengdie, Xu, Ming, Shi, Chuanchuan, Shi, Xinge, Ni, Rong, Chen, Yu, Zheng, Liang, Tu, Yuling, Hu, Dan, Yu, Chunlin, Li, Qingying, and Lu, Yibin

Subjects

*THROMBOCYTOPENIA, *BUNYAVIRUSES, *EPIDEMIOLOGY, *VIRAL transmission, *LEUCOPENIA

Abstract

Severe fever with thrombocytopenia syndrome (SFTS) is a new infectious disease first discovered in Ta-pieh Mountains in central China in 2009. It is caused by a novel bunyavirus infection (SFTSV). Since the first discovery of SFTSV, there have been case reports and epidemiological studies on SFTS in several East Asian countries, such as South Korea, Japan, Vietnam and so on. With the rising incidence of SFTS and the rapid spread of the novel bunyavirus around the world, it is clear that the virus has a pandemic potential and may pose a threat to global public health in the future. Early studies have suggested that ticks are an important medium for the transmission of SFTSV to humans; in recent years, it has been reported that there is also human-to-human transmission. In endemic areas, potential hosts include a variety of livestock and wildlife. When people are infected with SFTV, the main clinical manifestations are high fever, thrombocytopenia, leukocytopenia, gastrointestinal symptoms, liver and kidney function damage, and even MODS, with a mortality rate of about 10–30%. This article reviews the latest progress of novel bunyavirus, including virus transmission vector, virus genotypic diversity and epidemiology, pathogenesis, clinical manifestation and treatment. [ABSTRACT FROM AUTHOR]

Published

2023

31. Insights into the structure of RNPs from segmented negative-sense RNA viruses.

Author

Hover, Samantha, Barr, John N., and Fontana, Juan

Subjects

*RNA viruses, *INFLUENZA viruses, *NUCLEOPROTEINS, *GENOMES, *BUNYAVIRUSES

Abstract

The genome of segmented negative-sense single-stranded RNA viruses, such as influenza virus and bunyaviruses, is coated by viral nucleoproteins (NPs), forming a ribonucleoprotein (RNP). In this issue of Structure , Dick et al. 1 expand our knowledge on the RNPs of these viruses by solving the structures of Thogoto virus NP and RNP. [ABSTRACT FROM AUTHOR]

Published

2024

32. Advances and perspectives in the development of vaccines against highly pathogenic bunyaviruses

Author

Tong Chen, Zhe Ding, Jiaming Lan, and Gary Wong

Subjects

bunyaviruses, Crimean-Congo Hemorrhagic Fever Virus, Rift Valley Fever Virus, Hantaan virus, vaccines, Microbiology, QR1-502

Abstract

Increased human activities around the globe and the rapid development of once rural regions have increased the probability of contact between humans and wild animals. A majority of bunyaviruses are of zoonotic origin, and outbreaks may result in the substantial loss of lives, economy contraction, and social instability. Many bunyaviruses require manipulation in the highest levels of biocontainment, such as Biosafety Level 4 (BSL-4) laboratories, and the scarcity of this resource has limited the development speed of vaccines for these pathogens. Meanwhile, new technologies have been created, and used to innovate vaccines, like the mRNA vaccine platform and bioinformatics-based antigen design. Here, we summarize current vaccine developments for three different bunyaviruses requiring work in the highest levels of biocontainment: Crimean-Congo Hemorrhagic Fever Virus (CCHFV), Rift Valley Fever Virus (RVFV), and Hantaan virus (HTNV), and provide perspectives and potential future directions that can be further explored to advance specific vaccines for humans and livestock.

Published

2023

33. Calcium Influx Regulates the Replication of Several Negative-Strand RNA Viruses Including Severe Fever with Thrombocytopenia Syndrome Virus.

Author

Shuzo Urata, Rokusuke Yoshikawa, and Jiro Yasuda

Subjects

*CALCIUM antagonists, *CALCIUM, *EMERGING infectious diseases, *CHEMICAL libraries, *CALCIUM channels, *RNA viruses, *BUNYAVIRUSES

Abstract

Negative-strand RNA viruses (NSVs) represent one of the most threatening groups of emerging viruses globally. Severe fever with thrombocytopenia syndrome virus (SFTSV) is a highly pathogenic emerging virus that was initially reported in 2011 from China. Currently, no licensed vaccines or therapeutic agents have been approved for use against SFTSV. Here, L-type calcium channel blockers obtained from a U.S. Food and Drug Administration (FDA)-approved compound library were identi- fied as effective anti-SFTSV compounds. Manidipine, a representative L-type calcium channel blocker, restricted SFTSV genome replication and exhibited inhibitory effects against other NSVs. The result from the immunofluorescent assay suggested that manidipine inhibited SFTSV N-induced inclusion body formation, which is believed to be important for the virus genome replication. We have shown that calcium possesses at least two different roles in regulating SFTSV genome replication. Inhibition of calcineurin, the activation of which is triggered by calcium influx, using FK506 or cyclosporine was shown to reduce SFTSV production, suggesting the important role of calcium signaling on SFTSV genome replication. In addition, we showed that globular actin, the conversion of which is facilitated by calcium from filamentous actin (actin depolymerization), supports SFTSV genome replication. We also observed an increased survival rate and a reduction of viral load in the spleen in a lethal mouse model of SFTSV infections after manidipine treatment. Overall, these results provide information regarding the importance of calcium for NSV replication and may thereby contribute to the development of broad-scale protective therapies against pathogenic NSVs. IMPORTANCE SFTS is an emerging infectious disease and has a high mortality rate of up to 30%. There are no licensed vaccines or antivirals against SFTS. In this article, L-type calcium channel blockers were identified as anti-SFTSV compounds through an FDAapproved compound library screen. Our results showed the involvement of L-type calcium channel as a common host factor for several different families of NSVs. The formation of an inclusion body, which is induced by SFTSV N, was inhibited by manidipine. Further experiments showed that SFTSV replication required the activation of calcineurin, a downstream effecter of the calcium channel. In addition, we identified that globular actin, the conversion of which is facilitated by calcium from filamentous actin, supports SFTSV genome replication. We also observed an increased survival rate in a lethal mouse model of SFTSV infection after manidipine treatment. These results facilitate both our understanding of the NSV replication mechanism and the development of novel anti-NSV treatment. [ABSTRACT FROM AUTHOR]

Published

2023

34. An adenovirus-vectored RVF vaccine confers complete protection against lethal RVFV challenge in A129 mice.

Author

Meng Hao, Ting Bian, Guangcheng Fu, Yi Chen, Ting Fang, Chuanyi Zhao, Shuling Liu, Changming Yu, Jianmin Li, and Wei Chen

Subjects

BUNYAVIRUSES, RIFT Valley fever, INTERFERON receptors, ANIMAL diseases, MICE, VACCINES, VACCINE effectiveness

Abstract

Instruction: Rift valley fever virus (RVFV) is a mosquito-transmitted bunyavirus that causes severe disease in animals and humans. Nevertheless, there are no vaccines applied to prevent RVFV infection for human at present. Therefore, it is necessary to develop a safe and effective RVFV vaccine. Methods: We generated Ad5-GnGcopt, a replication-deficient recombinant Ad5 vector (human adenovirus serotype 5) expressing codon-optimized RVFV glycoproteins Gn and Gc, and evaluated its immunogenicity and protective efficacy in mice. Results and Discussion: Intramuscular immunization of Ad5-GnGcopt in mice induces strong and durable antibody production and robust cellular immune responses. Additionally, a single vaccination with Ad5-GnGcopt vaccination can completely protect interferon-α/β receptor-deficient A129 mice from lethal RVFV infection. Our work indicates that Ad5-GnGcopt might represent a potential vaccine candidate against RVFV. However, further research is needed, first to confirm its efficacy in a natural animal host, and ultimately escalate as a potential vaccine candidate for humans. [ABSTRACT FROM AUTHOR]

Published

2023

35. The mechanism of genome replication and transcription in bunyaviruses.

Author

Malet, Hélène, Williams, Harry M., Cusack, Stephen, and Rosenthal, Maria

Subjects

BUNYAVIRUSES, RNA synthesis, RNA replicase, FIELD emission electron microscopy, VIRAL proteins, VIRUS-induced enzymes, RNA polymerases

Abstract

Bunyaviruses are negative sense, single-strand RNA viruses that infect a wide range of vertebrate, invertebrate and plant hosts. WHO lists three bunyavirus diseases as priority diseases requiring urgent development of medical countermeasures highlighting their high epidemic potential. While the viral large (L) protein containing the RNA-dependent RNA polymerase is a key enzyme in the viral replication cycle and therefore a suitable drug target, our knowledge on the structure and activities of this multifunctional protein has, until recently, been very limited. However, in the last few years, facilitated by the technical advances in the field of cryogenic electron microscopy, many structures of bunyavirus L proteins have been solved. These structures significantly enhance our mechanistic understanding of bunyavirus genome replication and transcription processes and highlight differences and commonalities between the L proteins of different bunyavirus families. Here, we provide a review of our current understanding of genome replication and transcription in bunyaviruses with a focus on the viral L protein. Further, we compare within bunyaviruses and with the related influenza virus polymerase complex and highlight open questions. [ABSTRACT FROM AUTHOR]

Published

2023

36. Comparison of Immunogenicity Between a Candidate Live Attenuated Vaccine and an Inactivated Vaccine for Cache Valley Virus.

Author

Ayers, Victoria B., Huang, Yan-Jang S., Kohl, Alain, Dunlop, James I., Hettenbach, Susan M., Park, So Lee, Higgs, Stephen, and Vanlandingham, Dana L.

Subjects

*IMMUNE response, *BUNYAVIRUSES, *NEUTRALIZATION tests, *VACCINE development, *ALUMINUM hydroxide, *VACCINES

Abstract

Cache Valley virus (CVV) is a mosquito-borne bunyavirus that is enzootic throughout the new world. Although CVV is known as an important agricultural pathogen, primarily associated with embryonic lethality and abortions in ruminants, it has recently been recognized for its expansion as a zoonotic pathogen. With the increased emergence of bunyaviruses with human and veterinary importance, there have been significant efforts dedicated to the development of bunyavirus vaccines. In this study, the immunogenicity of a candidate live-attenuated vaccine (LAV) for CVV, which contains the deletion of the nonstructural small (NSs) and nonstructural medium (NSm) genes (2delCVV), was evaluated and compared with an autogenous candidate vaccine created through the inactivation of CVV using binary ethylenimine (BEI) with an aluminum hydroxide adjuvant (BEI-CVV) in sheep. Both 2delCVV and BEI-CVV produced a neutralizing antibody response that exceeds the correlate of protection, that is, plaque reduction neutralization test titer >10. However, on day 63 postinitial immunization, 2delCVV was more immunogenic than BEI-CVV. These results warrant further development of 2delCVV as a candidate LAV and demonstrate that the double deletion of the NSs and NSm genes can be applied to the development of vaccines and as a common attenuation strategy for orthobunyaviruses. [ABSTRACT FROM AUTHOR]

Published

2023

37. SFTS bunyavirus NSs protein sequestrates mTOR into inclusion bodies and deregulates mTOR‐ULK1 signaling, provoking pro‐viral autophagy.

Author

Feng, Kuan, Zhang, Huijiao, Jiang, Zhenyu, Zhou, Min, Min, Yuan‐Qin, Deng, Fei, Li, Peiqing, Wang, Hualin, and Ning, Yun‐Jia

Subjects

CELLULAR inclusions, MTOR protein, AUTOPHAGY, CELL physiology, BUNYAVIRUSES

Abstract

Autophagy is emerging as a critical player in host defense against diverse infections, in addition to its conserved function to maintain cellular homeostasis. Strikingly, some pathogens have evolved strategies to evade, subvert or exploit different steps of the autophagy pathway for their lifecycles. Here, we present a new viral mechanism of manipulating autophagy for its own benefit with severe fever with thrombocytopenia syndrome bunyavirus (SFTSV, an emerging high‐pathogenic virus) as a model. SFTSV infection triggers autophagy, leading to complete autophagic flux. Mechanistically, we show that the nonstructural protein of SFTSV (NSs) interacts with mTOR, the pivotal regulator of autophagy, by targeting its kinase domain and captures mTOR into viral inclusion bodies (IBs) induced by NSs itself. Furthermore, NSsimpairs mTOR‐mediated phosphorylation of unc‐51‐like kinase 1 (ULK1) at Ser757, disrupting the inhibitory effect of mTOR on ULK1 activity and thus contributing to autophagy induction. Pharmacologic treatment and Beclin‐1 knockout experimental results establish that, in turn, autophagy enhances SFTSV infection and propagation. Moreover, the minigenome reporter system reveals that SFTSV ribonucleoprotein (the transcription and replication machinery) activity can be bolstered by autophagy. Additionally, we found that the NSs proteins of SFTSV‐related bunyaviruses have a conserved function of targeting mTOR. Taken together, we unravel a viral strategy of inducing pro‐viral autophagy by interacting with mTOR, sequestering mTOR into IBs and hence provoking the downstream ULK1 pathway, which presents a new paradigm for viral manipulation of autophagy and may help inform future development of specific antiviral therapies against SFTSV and related pathogens. [ABSTRACT FROM AUTHOR]

Published

2023

38. Genetic characterization of the rare Bruconha virus (Bunyavirales: Orthobunyavirus) isolated in Vale do Ribeira (Atlantic Forest biome), Southeastern Brazil.

Author

Charlys da Costa, Antônio, dos Santos Morais, Vanessa, Marcatti de Azevedo, Roberta, Barrio Nuevo, Karolina Morales, and Sequetin Cunha, Mariana

Subjects

BIOMES, BUNYAVIRUSES, PHYLOGENY, SENTINEL health events, WATCHFUL waiting, FLAVIVIRUSES, ALPHAVIRUSES

Abstract

Brazil is a great source of arbovirus diversity, mainly in the Amazon region. However, other biomes, especially the Atlantic Forest, may also be a hotspot for emerging viruses, including Bunyaviruses (Negarnaviricota: Bunyavirales). For instance, Vale do Ribeira, located in the Southeastern region, has been widely studied for virus surveillance, where Flavivirus, Alphavirus and Bunyaviruses were isolated during the last decades, including Bruconha virus (BRCV), a member of Orthobunyavirus genus Group C, in 1976. Recently, a new isolate of BRCV named Span321532 was obtained from an adult sentinel mouse placed in Iguape city in 2011, and a full-length genome was generated with nucleotide differences ranging between 1.5%, 5.3% and 5% (L, M and S segments, respectively) from the prototype isolated 35 years earlier. In addition, each segment placed BRCV into different clusters, showing the high variety within Bunyavirales. Although no evidence for reassortants was detected, this finding reiterates the need for new surveillance and genomic studies in the area considering the high mutation rates of arbovirus, and also to identify the hosts capable of supporting the continuous circulation of Orthobunyavirus. [ABSTRACT FROM AUTHOR]

Published

2023

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

Author

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

Subjects

*RHABDOVIRUSES, *CULEX, *BUNYAVIRUSES, *AEDES aegypti, *PIWI genes, *MOSQUITO control, *RNA viruses, *CULEX quinquefasciatus

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. [ABSTRACT FROM AUTHOR]

Published

2022

40. Bunyaviruses Affect Growth, Sporulation, and Elicitin Production in Phytophthora cactorum.

Author

Poimala, Anna, Raco, Milica, Haikonen, Tuuli, Černý, Martin, Parikka, Päivi, Hantula, Jarkko, and Vainio, Eeva J.

Subjects

*PHYTOPHTHORA, *BUNYAVIRUSES, *PHYTOPATHOGENIC microorganisms, *EUROPEAN white birch, *POLYETHYLENE glycol, *HOST plants, *FUNGAL viruses

Abstract

Phytophthora cactorum is an important oomycetous plant pathogen with numerous host plant species, including garden strawberry (Fragaria × ananassa) and silver birch (Betula pendula). P. cactorum also hosts mycoviruses, but their phenotypic effects on the host oomycete have not been studied earlier. In the present study, we tested polyethylene glycol (PEG)-induced water stress for virus curing and created an isogenic virus-free isolate for testing viral effects in pair with the original isolate. Phytophthora cactorum bunya-like viruses 1 and 2 (PcBV1 & 2) significantly reduced hyphal growth of the P. cactorum host isolate, as well as sporangia production and size. Transcriptomic and proteomic analyses revealed an increase in the production of elicitins due to bunyavirus infection. However, the presence of bunyaviruses did not seem to alter the pathogenicity of P. cactorum. Virus transmission through anastomosis was unsuccessful in vitro. [ABSTRACT FROM AUTHOR]

Published

2022

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

Author

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

Subjects

*BUNYAVIRUSES, *VIRUS diseases, *VIRAL transmission, *RIFT Valley fever, *PLANT viruses, *SALIVARY glands

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. Genome segmentation is assumed to be costly for viruses with non-selective genome packaging, as they produce high numbers of particles with an incomplete genome. However, this study shows that upon co-infection, complementing incomplete bunyavirus particles can reconstitute a complete genome, supporting virus infection and potentially contributing to within-host spread and between-host transmission. [ABSTRACT FROM AUTHOR]

Published

2022

42. Replication Kinetics of a Candidate Live-Attenuated Vaccine for Cache Valley Virus in Aedes albopictus.

Author

Ayers, Victoria B., Huang, Yan-Jang S., Dunlop, James I., Kohl, Alain, Brennan, Benjamin, Higgs, Stephen, and Vanlandingham, Dana L.

Subjects

*AEDES albopictus, *BUNYAVIRUSES, *RIFT Valley fever, *VIRAL genomes, *VACCINES, *MOSQUITOES

Abstract

Background: The emergence or re-emergence of several orthobunyaviruses (order: Bunyavirales; family: Peribunyaviridae), including Cache Valley virus (CVV) and Oropouche virus, warrants the development and evaluation of candidate live-attenuated vaccines (LAVs). Ideally, these vaccines would elicit long-lasting immunity with one single immunization. Materials and Methods: Since the deletion of two virulence factors, NSs and NSm, has been shown to attenuate the virulence phenotype of orthobunyaviruses, phleboviruses, and nairoviruses, genetic manipulation of the viral genome is considered an effective strategy for the rational design of candidate LAVs for bunyaviruses across multiple families. In addition, the deletion of Rift Valley fever virus NSs and NSm genes has been shown to reduce transmission by mosquitoes. Results: In this study, the ability of a CVV mutant lacking the NSs and NSm genes (2delCVV) to replicate in intrathoracically injected Aedes albopictus was compared with the parental wild-type CVV (wtCVV) 6V633 strain. In contrast to the robust replication of wtCVV in injected mosquitoes, the multiplication kinetics of the 2delCVV mutant was reduced by more than a 100-fold. Conclusion: These results suggest that the deletion of NSm and NSs genes is a feasible approach to rationally design candidate orthobunyavirus LAVs that are highly attenuated in mosquitoes and, therefore, pose little risk of reversion to virulence and transmission. [ABSTRACT FROM AUTHOR]

Published

2022

43. An Introduction to the Bunyaviruses.

Author

Boshra H

Subjects

Animals, Humans, Bunyaviridae Infections virology, Bunyaviridae genetics, Genome, Viral, Orthobunyavirus genetics, Orthobunyavirus immunology

Abstract

The bunyaviruses are an ever-expanding group of RNA viruses that have been linked to a variety of different diseases around the world. First characterized nearly a century ago, over 500 different types of bunyaviruses have been characterized thus far, with hosts ranging from mammals to plants to single-celled organisms. As many of the currently described bunyaviruses have been found to be vector-borne, with transmission being mediated by either insects or rodents, these viruses have incorporated immune-evasive molecules into their relatively small genome. As these viruses have been implicated in a number of public health threats, there is an increased interest in performing experiments that could improve our understanding of these infectious agents. Therefore, the objectives of this book are outlined in this chapter, with a variety of techniques being described for the study of a variety of different bunyaviruses., (© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2025

44. Numb-associated kinases regulate sandfly-borne Toscana virus entry.

Author

Moalem Y, Katz R, Subramaniam AG, Malis Y, Yaffe Y, Borenstein-Auerbach N, Tadmor K, Raved R, Maoz BM, Yoo JS, Lustig Y, Luxenburg C, Perlson E, Einav S, and Sklan EH

Subjects

Humans, Animals, Protein Serine-Threonine Kinases metabolism, Protein Serine-Threonine Kinases genetics, Cell Line, Virus Internalization, Sandfly fever Naples virus genetics

Abstract

Sandfly-borne Toscana virus (TOSV) is an enveloped tri-segmented negative single-strand RNA Phlebovirus . It is an emerging virus predominantly endemic in southwestern Europe and Northern Africa. Although TOSV infection is typically asymptomatic or results in mild febrile disease, it is neurovirulent and ranks among the three most common causes of summer meningitis in certain regions. Despite this clinical significance, our understanding of the molecular aspects and host factors regulating phlebovirus infection is limited. This study characterized the early steps of TOSV infection. Our findings reveal that two members of the Numb-associated kinases family of Ser/Thr kinases, namely adaptor-associated kinase 1 (AAK1) and cyclin G-associated kinase (GAK), play a role in regulating the early stages of TOSV entry. FDA-approved inhibitors targeting these kinases demonstrated significant inhibition of TOSV infection. This study suggests that AAK1 and GAK represent druggable targets for inhibiting TOSV infection and, potentially, related Phleboviruses .

Published

2024

45. An Overview of the Infectious Cycle of Bunyaviruses.

Author

Boshra, Hani

Subjects

*BUNYAVIRUSES, *ARTHROPOD vectors, *CULTIVARS, *IMMUNE response, *VIRAL replication

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. [ABSTRACT FROM AUTHOR]

Published

2022

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

Author

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

Subjects

*LEISHMANIASIS, *MIXED infections, *LEISHMANIA, *BUNYAVIRUSES, *PARASITIC diseases, *CUTANEOUS 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. [ABSTRACT FROM AUTHOR]

Published

2022

47. A comprehensive list of the Bunyavirales replication promoters reveals a unique promoter structure in Nairoviridae differing from other virus families.

Author

Neriya, Yutaro, Kojima, Shohei, Sakiyama, Arata, Kishimoto, Mai, Iketani, Takao, Watanabe, Tadashi, Abe, Yuichi, Shimoda, Hiroshi, Nakagawa, Keisuke, Koma, Takaaki, and Matsumoto, Yusuke

Subjects

*RNA synthesis, *FAMILY size, *GENOME size, *HEMORRHAGIC fever, *BUNYAVIRUSES

Abstract

Members of the order Bunyavirales infect a wide variety of host species, including plants, animals and humans, and pose a threat to public health. Major families in this order have tri-segmented negative-sense RNA genomes, the 5′ and 3′ ends of which form complementary strands that serve as a replication promoter. Elucidation of the mechanisms by which viral polymerases recognize the promoter to initiate RNA synthesis is important for understanding viral replication and pathogenesis, and developing antivirals. A list of replication promoter configuration patterns may provide details on the differences in the replication mechanisms among bunyaviruses. By using public sequence data of all known bunyavirus species, we constructed a comprehensive list of the replication promoters comprising 40 nucleotides in both the 5′ and 3′ ends of the genome that form a specific complementary strand. Among tri-segmented bunyaviruses, members of the family Nairoviridae, including the highly pathogenic Crimean-Congo hemorrhagic fever virus, have evolved a GC-rich promoter structure differing from that of other families. The unique promoter structure might be related to the large genome size of the family Nairoviridae among bunyaviruses, and the large genome architecture might confer pathogenic advantages. The promoter list provided in this report is useful for predicting the virus family-specific replication mechanisms of bunyaviruses. [ABSTRACT FROM AUTHOR]

Published

2022

48. Uukuniemi virus infection causes a pervasive remodelling of the RNA-binding proteome in tick cell cultures (Updated December 13, 2024).

Subjects

RNA-protein interactions, RNA-binding proteins, RNA viruses, PROTEIN genetics, BUNYAVIRUSES

Abstract

The article discusses a study on the impact of Uukuniemi virus infection on the RNA-binding proteome in tick cell cultures. The research highlights the changes in RNA-binding activity for 283 proteins in response to the virus. The study also reveals the interactions of viral ribonucleoprotein with tick cell-derived RBPs, indicating a functional connection with infection. This preprint has not yet undergone peer review and provides valuable insights into protein-RNA interactions in infected tick cells. [Extracted from the article]

Published

2025

49. Cassava brown streak virus evolves with a nucleotide-substitution rate that is typical for the family Potyviridae.

Author

Mbewe, Willard, Mukasa, Settumba, Ochwo-Ssemakula, Mildred, Sseruwagi, Peter, Tairo, Fred, Ndunguru, Joseph, and Duffy, Siobain

Subjects

*CASSAVA, *PLANT viruses, *PHYTOPATHOGENIC microorganisms, *BUNYAVIRUSES

Abstract

• Cassava brown streak virus' CP evolves at a similar rate to other potyvirid CPs. • CBSV originated between 1923 and 1963, consistent with CBSD's description in the 1930s. • Members of Potyviridae evolve faster than those in five other plant virus families. The ipomoviruses (family Potyviridae) that cause cassava brown streak disease (cassava brown streak virus [CBSV] and Uganda cassava brown streak virus [UCBSV]) are damaging plant pathogens that affect the sustainability of cassava production in East and Central Africa. However, little is known about the rate at which the viruses evolve and when they emerged in Africa – which inform how easily these viruses can host shift and resist RNAi approaches for control. We present here the rates of evolution determined from the coat protein gene (CP) of CBSV (Temporal signal in a UCBSV dataset was not sufficient for comparable analysis). Our BEAST analysis estimated the CBSV CP evolves at a mean rate of 1.43 × 10−3 nucleotide substitutions per site per year, with the most recent common ancestor of sampled CBSV isolates existing in 1944 (95% HPD, between years 1922 – 1963). We compared the published measured and estimated rates of evolution of CPs from ten families of plant viruses and showed that CBSV is an average-evolving potyvirid, but that members of Potyviridae evolve more quickly than members of Virgaviridae and the single representatives of Betaflexiviridae, Bunyaviridae, Caulimoviridae and Closteroviridae. [ABSTRACT FROM AUTHOR]

Published

2024

50. Infection Route Impacts the Pathogenesis of Severe Fever with Thrombocytopenia Syndrome Virus in Ferrets.

Author

Park, Su-Jin, Kim, Young-Il, Casel, Mark Anthony, Kim, Eun-Ha, Kim, Se-Mi, Yu, Kwang-Min, Rollon, Rare, Jang, Seung-Gyu, Jeong, Hye Won, and Choi, Young Ki

Subjects

*FERRET, *THROMBOCYTOPENIA, *SYMPTOMS, *BUNYAVIRUSES, *INFECTION, *SYNDROMES

Abstract

The threat of severe fever with thrombocytopenia syndrome (SFTS) to public health has been increasing due to the rapid spread of the ticks that carry the causative viral agent. The SFTS virus (SFTSV) was first identified in China and subsequently detected in neighboring countries, including South Korea, Japan, and Vietnam. In addition to the tick-mediated infection, human-to-human transmission has been recently reported with a high mortality rate; however, differential study of the pathogen has been limited by the route of infection. In this study, we investigated the pathogenic potential of SFTSV based on the infection route in aged ferrets, which show clinical signs similar to that of human infections. Ferrets inoculated with SFTSV via the intramuscular and subcutaneous routes show clinical signs comparable to those of severe human infections, with a mortality rate of 100%. Contrastingly, intravascularly infected ferrets exhibit a comparatively lower mortality rate of 25%, although their early clinical signs are similar to those observed following infection via the other routes. These results indicate that the infection route could influence the onset of SFTS symptoms and the pathogenicity of SFTSV. Thus, infection route should be considered in future studies on the pathogenesis of SFTSV infection. [ABSTRACT FROM AUTHOR]

Published

2022