- Volume 100, Issue 6, 2019
Volume 100, Issue 6, 2019
- ICTV Virus Taxonomy Profiles
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ICTV Virus Taxonomy Profile: Filoviridae
Jens H. Kuhn, Gaya K. Amarasinghe, Christopher F. Basler, Sina Bavari, Alexander Bukreyev, Kartik Chandran, Ian Crozier, Olga Dolnik, John M. Dye, Pierre B. H. Formenty, Anthony Griffiths, Roger Hewson, Gary P. Kobinger, Eric M. Leroy, Elke Mühlberger, Sergey V. Netesov (Нетёсов Сергей Викторович), Gustavo Palacios, Bernadett Pályi, Janusz T. Pawęska, Sophie J. Smither, Ayato Takada (高田礼人), Jonathan S. Towner, Victoria Wahl and ICTV Report ConsortiumMembers of the family Filoviridae produce variously shaped, often filamentous, enveloped virions containing linear non-segmented, negative-sense RNA genomes of 15–19 kb. Several filoviruses (e.g., Ebola virus) are pathogenic for humans and are highly virulent. Several filoviruses infect bats (e.g., Marburg virus), whereas the hosts of most other filoviruses are unknown. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on Filoviridae, which is available at www.ictv.global/report/filoviridae.
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- Animal
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- Double-strand RNA Viruses
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Molecular analyses of G3A/G3B and G14 equine group A rotaviruses detected between 2012 and 2018 in Japan
Equine group A rotaviruses (RVAs) cause diarrhoea in foals. We investigated the G genotypes of 360 RVA-positive samples obtained from diarrhoeic foals between 2012 and 2018 in the Hidaka district of Hokkaido, Japan, through sequence analysis of VP7. All samples were classified into genotypes G3A, G3B and G14. G3B RVAs were detected until 2016, and G3A RVAs were detected from 2016 to 2018. G14 RVAs were detected from 2012 to 2018. Although G3B RVAs had been circulating in Japan for a long time, G3A RVAs suddenly emerged in 2016, and have replaced G3B RVAs since 2017. Molecular analyses of VP7 and VP4 showed that these Japanese G3A RVAs are closely related to North American G3A RVAs detected in 2017. Additionally, whole-genome analyses suggested that genetic reassortments occurred between G3A and G14 RVAs in NSP1, NSP2, NSP4 and NSP5.
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Whole-genome characterization of G12 rotavirus strains detected in Mozambique reveals a co-infection with a GXP[14] strain of possible animal origin
A high prevalence of G12 rotavirus strains has previously been reported in southern Mozambique. In this study, the full genomes of five Mozambican G12 strains were determined directly from stool using an Illumina Miseq platform. One sample (0060) contained an intergenogroup co-infection of a G12P[8] Wa-like strain and a GXP[14] DS-1-like strain. The sequences of seven genome segments, detected for the GXP[14] strain, clustered with a diverse group of mostly animal strains, suggesting co-infection with a strain of possible animal origin. The stool samples contained G12P[6] rotavirus strains with Wa-like backbones. Phylogenetic analyses of the VP4 and VP7 encoding segments of the G12P[6] strains suggested that they were reassortants containing backbones that are similar to that of the G12P[8] strain. The study confirms previous observations of interspecies transmission and emphasizes the importance of whole-genome sequencing in order to evaluate rotavirus co-infections and reassortants.
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- Negative-strand RNA Viruses
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Diverse novel phleboviruses in sandflies from the Panama Canal area, Central Panama
The genus Phlebovirus (order Bunyavirales, family Phenuiviridae) comprises 57 viruses that are grouped into nine species-complexes. Sandfly-transmitted phleboviruses are found in Europe, Africa and the Americas and are responsible for febrile illness and infections of the nervous system in humans. The aim of this study was to assess the genetic diversity of sandfly-transmitted phleboviruses in connected and isolated forest habitats throughout the Panama Canal area in Central Panama. In total, we collected 13 807 sandflies comprising eight phlebotomine species. We detected several strains pertaining to five previously unknown viruses showing maximum pairwise identities of 45–78 % to the RNA-dependent RNA polymerase genes of phleboviruses. Entire coding regions were directly sequenced from infected sandflies as virus isolation in cell culture was not successful. The viruses were tentatively named La Gloria virus (LAGV), Mona Grita virus (MOGV), Peña Blanca virus (PEBV), Tico virus (TICV) and Tres Almendras virus (TRAV). Inferred phylogenies and p-distance-based analyses revealed that PEBV groups with the Bujaru phlebovirus species-complex, TRAV with the Candiru phlebovirus species-complex and MOGV belongs to the proposed Icoarci phlebovirus species-complex, whereas LAGV and TICV seem to be distant members of the Bujaru phlebovirus species-complex. No specific vector or habitat association was found for any of the five viruses. Relative abundance of sandflies was similar over habitat types. Our study shows that blood-feeding insects originating from remote and biodiverse habitats harbour multiple previously unknown phleboviruses. These viruses should be included in future surveillance studies to assess their geographic distribution and to elucidate if these viruses cause symptoms of disease in animals or humans.
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The Ntail region of nucleocapsid protein is associated with the pathogenicity of pigeon paramyxovirus type 1 in chickens
More LessThe nucleoprotein (NP) of pigeon paramyxovirus type 1 (PPMV-1) and other paramyxoviruses plays an important role in virus proliferation. A previous study found that NP is associated with the low pathogenicity of PPMV-1 strains in chickens. Here, we investigated which domain of NP is responsible for regulating the pathogenicity of PPMV-1. We found that the Ntail sequences were more diverse for different viral genotypes compared to Ncore sequences. The chimeric rBJ-SG10Ntail strain caused more severe clinical symptoms than the parental rBJ strain, increased the viral copy number in sampled tissues and induced higher IFN-γ gene expression. This demonstrated that the Ntail sequence plays a role in regulating viral virulence. These findings increase our understanding of the Ntail of NP protein and the virulence factors associated with PPMV-1.
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Mutations in the DI–DII linker of the NDV fusion protein conferred hemagglutinin-neuraminidase-independent cell fusion promotion
Newcastle disease (ND), which is caused by Newcastle disease virus (NDV), is a highly contagious disease in chickens and is a great threat to the poultry industry. Fusion of the viral and target cell membranes is a prerequisite for NDV’s entry into host cells. This process is directly mediated by the fusion (F) protein. Although several domains of F are known to regulate membrane fusion activity, the roles of the DI–DII linker (residues 376–381) of the NDV F protein in membrane fusion still remain unclear. To investigate the roles of this linker in NDV F-induced cell–cell fusion, mutations were engineered into this linker by site-directed mutagenesis. These mutants were analysed with respect to cell surface expression and membrane fusion activity. Each of the mutated F proteins in this linker was expressed at the cell surface at a similar level to wild-type (WT) F. However, most of them resulted in significant alterations in fusion activity. In particular, the mutants G377S, A378D, L379A and T380P were able to independently mediate cell fusion in the absence of HN protein in BHK-21 cells. Taken together, the results indicated that the DI–DII linker region has an important effect on the fusion activity of NDV F and mutants in this region could alter the requirement for HN for the promotion of membrane fusion.
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- Positive-strand RNA Viruses
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Infection of human pegivirus 2 (HPgV-2) is associated with hepatitis C virus but not hepatitis B virus infection in people who inject drugs
We evaluated the association between human pegivirus-2 (HPgV-2) infection and hepatitis C virus (HCV)/hepatitis B virus (HBV) co-infection in 745 plasma samples collected from HCV-positive but human immunodeficiency virus type one (HIV-1)-negative people who inject drugs in Hunan, China. The prevalence of anti-HPgV-2 was 4.43 % (33/745) and, within this, the HCV 6a genotype showed significantly higher prevalence as compared with the HCV non-6a genotypes, 6.29 % (18/286) vs. 1.69 % (4/236), respectively (P=0.009). HPgV-2 RNA was detected in 2.15 % (16/745), and was not significantly different between the HCV 6a and non-6a genotypes, 2.45 % (7/286) vs. 2.54 % (6/236), respectively (P =0.945). HBV single infection did not increase the risk of HPgV-2 infection. Compared with HCV single infection, HCV/HBV co-infection increased the risk of HPgV-2 infection by about three-fold: odds ratio (OR)=3.24 [95 % confidence interval (CI) 1.34–7.82, P=0.014] according to anti-HPgV-2 positivity or OR=3.51 (95 % CI 1.15–10.74, P=0.051) according to HPgV-2 viraemia. HPgV-2 infection did not increase the levels of liver-specific enzymes. Our study provides new findings regarding the association between HPgV-2 and HCV genotypes as well as HCV/HBV co-infection.
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A heterologous prime-boost strategy for immunization against Dengue virus combining the Tetra DIIIC subunit vaccine candidate with the TV005 live-attenuated tetravalent vaccine
The development of live-attenuated vaccines against Dengue virus (DENV) has been problematic. Dengvaxia, licensed in several countries where DENV is endemic, has shown low efficacy profiles and there are safety concerns prohibiting its administration to children younger than 9 years old, and the live-attenuated tetravalent vaccine (LATV) developed by NIAID has proven too reactogenic during clinical trialing. In this work we examined whether the combination of TV005, a LATV-derived formulation, with Tetra DIIIC, a subunit vaccine candidate based on fusion proteins derived from structural proteins from all four DENV serotypes, can overcome the respective limitations of these two vaccine approaches. Rhesus macaques were first primed with one or two doses of Tetra DIIIC and then boosted with TV005, following the time course of the appearance of virus-binding and neutralizing antibodies, and evaluating protection by means of a challenge experiment with wild-type viruses. Although the two evaluated prime-boost regimes were equivalent to a single administration of TV005 in terms of the development of virus-binding and neutralizing antibodies as well as the protection against viral challenge, both regimes reduced vaccine viremia to undetectable levels. Thus, the combination of Tetra DIIIC with TV005 offers a potential solution to the reactogenicity problems, which have beset the development of the latter vaccine candidate.
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- Small DNA Virus
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RNA-seq analysis in equine papillomavirus type 2-positive carcinomas identifies affected pathways and potential cancer markers as well as viral gene expression and splicing events
Equine papillomavirus type 2 (EcPV2) was discovered only recently, but it is found consistently in the context of genital squamous cell carcinomas (SCCs). Since neither cell cultures nor animal models exist, the characterization of this potential disease agent relies on the analysis of patient materials. To analyse the host and viral transcriptome in EcPV2-affected horses, genital tissue samples were collected from horses with EcPV2-positive lesions as well as from healthy EcPV2-negative horses. It was determined by RNA-seq analysis that there were 1957 differentially expressed (DE) host genes between the SCC and control samples. These genes were most abundantly related to DNA replication, cell cycle, extracellular matrix (ECM)–receptor interaction and focal adhesion. By comparison to other cancer studies, MMP1 and IL8 appeared to be potential marker genes for the development of SCCs. Analysis of the viral reads revealed the transcriptional activity of EcPV2 in all SCC samples. While few reads mapped to the structural viral genes, the majority of reads mapped to the non-structural early (E) genes, in particular to E6, E7 and E2/E4. Within these reads a distinct pattern of splicing events, which are essential for the expression of different genes in PV infections, was observed. Additionally, in one sample the integration of EcPV2 DNA into the host genome was detected by DNA-seq and confirmed by PCR. In conclusion, while host MMP1 and IL8 expression and the presence of EcPV2 may be useful markers in genital SCCs, further research on EcPV2-related pathomechanisms may focus on cell cycle-related genes, the viral genes E6, E7 and E2/E4, and integration events.
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- Large DNA Viruses
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Defining early events of Epstein–Barr virus (EBV) infection in immortalized nasopharyngeal epithelial cells using cell-free EBV infection
Epstein–Barr virus (EBV) infection is strongly associated with nasopharyngeal carcinoma, a common cancer in Southeast Asia and certain regions of Africa. However, the dynamics of EBV episome maintenance in infected nasopharyngeal epithelial (NPE) cells remain largely undefined. Here, we report the establishment of a highly efficient cell-free EBV infection method for NPE cells. By using this method, we have defined some of the dynamic events involved in the early stage of EBV infection in NPE cells. We report, for the first time, a rapid loss of EBV copies from infected NPE cells during the first 12–72 h post-infection. The rate of EBV loss slowed at later stages of infection. Live cell imaging revealed that the freshly infected NPE cells were delayed in entry into mitosis compared with uninfected cells. Freshly infected NPE cells transcribed significantly higher levels of lytic EBV genes BZLF1 and BMRF1 yet significantly lower levels of EBER1/2 than stably infected NPE cells. Notably, there were very low or undetectable levels of protein expressions of EBNA1, LMP1, Zta and Rta in freshly infected NPE cells, whereas EBNA1 and LMP1 proteins were readily detected in stable EBV-infected NPE cells. The kinetics of EBV loss and the differential EBV gene expression profiles between freshly and stably infected NPE cells are in line with the suggestion of epigenetic changes in the EBV genome that affect viral gene expression and the adaptation of host cells to EBV infection to maintain persistent EBV infection in NPE cells.
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Virus-like particles in a new vaccination approach against infectious laryngotracheitis
More LessGallid alphaherpesvirus 1 (syn. infectious laryngotracheitis virus; ILTV) is the causative agent of infectious laryngotracheitis, a respiratory disease of chickens causing substantial economic losses in the poultry industry every year. Currently, the most efficient way to achieve protection against infection is immunization with live-attenuated vaccines. However, this vaccination strategy entails the risk of generating new pathogenic viruses resulting from spontaneous mutations or from recombination with field strains. This work presents a new approach based on virus-like particles (VLPs) displaying ILTV glycoproteins B (gB) or G (gG) on their surface. The main focus of this pilot study was to determine the tolerability of VLPs delivered in ovo and intramuscularly (i.m.) into chickens and to investigate the nature of the immune response elicited. The study revealed that the new vaccines were well tolerated in hybrid layer chicks independent of the administration method (in ovo or i.m.). Upon in ovo injection, vaccination with VLP-gG led to an antibody response, while a cellular immune response in VLP-gB-immunized chickens was hardly detectable. Since the administration of VLPs had no visible side effects in vivo and was shown to elicit an antibody-based immune response, we anticipate that VLPs will become a valuable platform for the development of new safe vaccines for poultry.
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- TSE Agents
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Anle138b prevents PrP plaque accumulation in Tg(PrP-A116V) mice but does not mitigate clinical disease
More LessAnle138b is an anti-aggregating compound previously shown to delay the onset of scrapie, a transmissible prion disease, although its in vivo efficacy against other prion disease subtypes has not been fully assessed. TgGSS mice that model Gerstmann–Sträussler–Scheinker disease (GSS) via expression of mouse PrPA116V accumulate PrP amyloid plaques in their brains and develop progressive ataxia leading to death in ~160 days. When allowed to feed on food pellets containing anle138b from weaning until death, the brains of TgGSS mice displayed significant reductions in PrP plaque burden, insoluble PrP, and proteinase K-resistant PrPSc at end stage, compared with TgGSS mice allowed to feed on placebo food pellets. Despite these effects on biological markers of disease, there was no difference in the onset of symptoms or the age at death between the two treatment groups. In contrast, scrapie-inoculated wild-type mice treated with anle138b survived nearly twice as long (254 days) as scrapie-inoculated mice fed placebo (~136 days). They also displayed greater reductions in insoluble and PK-resistant PrPSc than TgGSS mice. Although these results support an anti-aggregating effect of anle138b, the discordance in clinical efficacy noted between the two prion disease models tested underscores the pathophysiological differences between them and highlights the need to consider differences in susceptibilities among prion subtypes when assessing potential therapies for prion diseases.
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- Plant
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- DNA Virus
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Fine-tuning expression of begomoviral movement and nuclear shuttle proteins confers cell-to-cell movement to mastreviral replicons in Nicotiana benthamiana leaves
More LessGeminiviruses are a group of small plant viruses responsible for devastating crop damage worldwide. The emergence of agricultural diseases caused by geminiviruses is attributed in part to their high rates of recombination, leading to complementary function between viral components across species and genera. We have developed a mastreviral reporter system based on bean yellow dwarf virus (BeYDV) that replicates to high levels in the plant nucleus, expressing very high levels of GFP. To investigate the potential for complementation of movement function by other geminivirus genera, the movement protein (MP) and nuclear shuttle protein (NSP) from the bipartite begomovirus Bean dwarf mosaic virus (BDMV) were produced and characterized in Nicotiana benthamiana leaves. While overexpression of MP and NSP strongly inhibited GFP expression from the mastreviral reporter and caused adverse plant symptoms, optimizing the expression levels of MP and NSP allowed functional cell-to-cell movement. Hybrid virus vectors were created that express BDMV MP and NSP from mastreviral replicons, allowing efficient cell-to-cell movement comparable to native BDMV replicons. We find that the expression levels of MP and NSP must be fine-tuned to provide sufficient MP/NSP for movement without eliciting the plant hypersensitive response or adversely impacting gene expression from viral replicons. The ability to confer cell-to-cell movement to mastrevirus replicons depended strongly on replicon size: 2.1-2.7 kb replicons were efficiently moved, while 3 kb replicons were inhibited, and 3.9 kb replicons were very strongly inhibited. Optimized expression of MP/NSP from the normally phloem-limited Abutilon mosaic virus (AbMV) allows efficient movement in non-phloem cells.
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Volumes and issues
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Volume 105 (2024)
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Volume 104 (2023)
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Volume 103 (2022)
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Volume 100 (2019)
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Volume 99 (2018)
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