Your search keyword '"Setoh YX"' showing total 58 results

1. Identification of residues in West Nile virus premembrane protein that influence viral particle secretion and virulence

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Author

Mario Lobigs, Roy A. Hall, Natalie A. Prow, Jody Hobson-Peters, Yin Xiang Setoh, Paul R. Young, Alexander A. Khromykh, Setoh, YX, Prow, NA, Hobson-Peters, J, Lobigs, M, Young, PR, Khromykh, AA, and Hall, RA more...

Subjects

animal diseases, viruses, Amino Acid Motifs, Molecular Sequence Data, Virulence, animal - RNA viruses, Biology, Virus Replication, Cell Line, law.invention, Mice, Viral Envelope Proteins, law, Virology, Animals, Secretion, Amino Acid Sequence, Virus Release, chemistry.chemical_classification, virus diseases, Amino acid, nervous system diseases, Protein Transport, Amino Acid Substitution, chemistry, Membrane protein, Chaperone (protein), Vero cell, Recombinant DNA, biology.protein, Female, West Nile virus, West Nile Fever, Conformational epitope

Abstract

The pre-membrane protein (prM) of West Nile virus (WNV) functions as a chaperone for correct folding of the envelope (E) protein, and prevents premature fusion during virus egress. However, little is known about its role in virulence. To investigate this, we compared the amino acid sequences of prM between a highly virulent North American strain (WNVNY99) and a weakly virulent Australian subtype (WNVKUN). Five amino acid differences occur in WNVNY99compared with WNVKUN(I22V, H43Y, L72S, S105A and A156V). When expressed in mammalian cells, recombinant WNVNY99prM retained native antigenic structure, and was partially exported to the cell surface. In contrast, WNVKUNprM (in the absence of the E protein) failed to express a conserved conformational epitope and was mostly retained at the pre-Golgi stage. Substitutions in residues 22 (Ile to Val) and 72 (Leu to Ser) restored the antigenic structure and cell surface expression of WNVKUNprM to the same level as that of WNVNY99, and enhanced the secretion of WNVKUNprME particles when expressed in the presence of E. Introduction of the prM substitutions into a WNVKUNinfectious clone (FLSDX) enhanced the secretion of infectious particles in Vero cells, and enhanced virulence in mice. These findings highlight the role of prM in viral particle secretion and virulence, and suggest the involvement of the L72S and I22V substitutions in modulating these activities. more...

Published

2012

2. Expression of recombinant West Nile virus prM protein fused to an affinity tag for use as a diagnostic antigen

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Author

Jody Hobson-Peters, Paul R. Young, Natalie A. Prow, Yin Xiang Setoh, Roy A. Hall, Setoh, YX, Hobson-Peters, J, Prow, NA, Young, PR, and Hall, RA

Subjects

horse serum, diagnostic antigen, Recombinant Fusion Proteins, viruses, prM, his tag, Enzyme-Linked Immunosorbent Assay, Protein tag, Biology, Antibodies, Viral, Recombinant virus, Epitope, Cell Line, law.invention, Viral Proteins, Viral Envelope Proteins, Antigen, flavivirus, Aedes, law, Virology, Chlorocebus aethiops, Animals, Horses, Antigens, Viral, Viral Structural Proteins, Immune Sera, virus diseases, Affinity Labels, biology.organism_classification, Molecular biology, Fusion protein, humanities, Flavivirus, V5 tag, Recombinant DNA, biology.protein, Antibody, West Nile virus, West Nile Fever

Abstract

Previous studies have concluded that the Flavivirus prM protein is a suitable viral antigen to distinguish serologically between infections with closely related Flaviviruses (Cardosa et al., 2002). To express the recombinant West Nile virus (WNV) prM antigen fused to a suitable affinity tag for purification, a series of prM-His-tag and prM-V5-tag fusion proteins were generated. Analysis of the prM-His-tag fusion proteins revealed that either prM epitopes were disrupted or the His-tag was not presented properly depending on the location of the His tag and the presence of the prM transmembrane domains in these constructs. This identified domains critical for proper folding of prM, and arrangements that allowed the correct presentation of the His-tag. However, the inclusion of the V5 epitope tag fused to the C terminus of prM allowed formation of the authentic antigenic structure of prM and the proper presentation of the V5 epitope. Capture of tagged recombinant WNV NY99 prM antigen to the solid phase with anti-V5 antibody in ELISA enabled the detection of prM-specific antibodies in WNV NY99-immune horse serum, confirming its potential as a useful diagnostic reagent. Refereed/Peer-reviewed more...

Published

2011

3. Evaluation of three alternative methods to the plaque reduction neutralizing assay for measuring neutralizing antibodies to dengue virus serotype 2.

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Author

Goh VSL, Ang CCW, Low SL, Lee PX, Setoh YX, and Wong JCC

Subjects

Humans, Dengue Virus immunology, Antibodies, Neutralizing blood, Antibodies, Neutralizing immunology, Neutralization Tests methods, Antibodies, Viral blood, Antibodies, Viral immunology, Viral Plaque Assay methods, Dengue immunology, Dengue diagnosis, Dengue virology, Serogroup

Abstract

Background: Dengue is a global public health challenge which requires accurate diagnostic methods for surveillance and control. The gold standard for detecting dengue neutralizing antibodies (nAbs) is the plaque reduction neutralization test (PRNT), which is both labor-intensive and time-consuming. This study aims to evaluate three alternative approaches, namely, the MTT-based (or (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide) microneutralization assay, the xCELLigence real-time cell analysis (RTCA), and the immuno-plaque assay-focus reduction neutralization test (iPA-FRNT)., Methods: Twenty-two residual serum samples were tested for DENV-2 nAbs using all four assays at three neutralization endpoints of 50%, 70% and 90% inhibition in virus growth. For each neutralization endpoint, results were compared using linear regression and correlation analyses. Test performance characteristics were further obtained for iPA-FRNT using 38 additional serum samples., Results: Positive correlation of DENV-2 neutralization titers for the MTT-based microneutralization assay and the PRNT assay was only observed at the neutralization endpoint of 50% (r = 0.690). In contrast, at all three neutralization end points, a linear trend and positive correlation of DENV-2 neutralization titers for the xCELLigence RTCA and the PRNT assays were observed, yielding strong or very strong correlation (r = 0.829 to 0.967). This was similarly observed for the iPA-FRNT assay (r = 0.821 to 0.916), which also offered the added advantage of measuring neutralizing titers to non-plaque forming viruses., Conclusion: The xCELLigence RTCA and iPA-FRNT assays could serve as suitable alternatives to PRNT for dengue serological testing. The decision to adopt these methods may depend on the laboratory setting, and the utility of additional applications offered by these technologies., (© 2024. The Author(s).) more...

Published

2024

4. Residue K28 of Zika Virus NS5 Protein Is Implicated in Virus Replication and Antagonism of STAT2.

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Author

Peng NYG, Sng JDJ, Setoh YX, and Khromykh AA

Abstract

The identification of four potential nonstructural 5 (NS5) residues-K28, K45, V335, and S749-that share the same amino acid preference in STAT2-interacting flaviviruses [Dengue virus (DENV) and Zika virus (ZIKV)], but not in STAT2-non-interacting flaviviruses [West Nile virus (WNV) and/or Yellow fever virus (YFV)] from an alignment of multiple flavivirus NS5 sequences, implied a possible association with the efficiency of ZIKV to antagonize the human signal transducer and activator of transcription factor 2 (STAT2). Through site-directed mutagenesis and reverse genetics, mutational impacts of these residues on ZIKV growth in vitro and STAT2 antagonism were assessed using virus growth kinetics assays and STAT2 immunoblotting. The results showed that mutations at the residue K28 significantly reduced the efficiency of ZIKV to antagonize STAT2. Further investigation involving residue K28 demonstrated its additional effects on the phenotypes of ZIKV-NS5 nuclear bodies. These findings demonstrate that K28, identified from sequence alignment, is an important determinant of replication and STAT2 antagonism by ZIKV. more...

Published

2024

5. Establishment of a CPER reverse genetics system for Powassan virus defines attenuating NS1 glycosylation sites and an infectious NS1-GFP11 reporter virus.

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Author

Conde JN, Himmler GE, Mladinich MC, Setoh YX, Amarilla AA, Schutt WR, Saladino N, Gorbunova EE, Salamango DJ, Benach J, Kim HK, and Mackow ER

Subjects

Humans, Glycosylation, Reverse Genetics, Skin, Encephalitis Viruses, Tick-Borne, Communicable Diseases

Abstract

Powassan virus (POWV) is an emerging tick-borne Flavivirus that causes lethal encephalitis and long-term neurologic damage. Currently, there are no POWV therapeutics, licensed vaccines, or reverse genetics systems for producing infectious POWVs from recombinant DNA. Using a circular polymerase extension reaction (CPER), we generated recombinant LI9 (recLI9) POWVs with attenuating NS1 protein mutations and a recLI9-split-eGFP reporter virus. NS1 proteins are highly conserved glycoproteins that regulate replication, spread, and neurovirulence. POWV NS1 contains three putative N-linked glycosylation sites that we modified individually in infectious recLI9 mutants (N85Q, N208Q, and N224Q). NS1 glycosylation site mutations reduced replication kinetics and were attenuated, with 1-2 log decreases in titer. Severely attenuated recLI9-N224Q exhibited a 2- to 3-day delay in focal cell-to-cell spread and reduced NS1 secretion but was lethal when intracranially inoculated into suckling mice. However, footpad inoculation of recLI9-N224Q resulted in the survival of 80% of mice and demonstrated that NS1-N224Q mutations reduce POWV neuroinvasion in vivo . To monitor NS1 trafficking, we CPER fused a split GFP11-tag to the NS1 C-terminus and generated an infectious reporter virus, recLI9-NS1-GFP11. Cells infected with recLI9-NS1-GFP11 revealed NS1 trafficking in live cells and the novel formation of large NS1-lined intracellular vesicles. An infectious recLI9-NS1-GFP11 reporter virus permits real-time analysis of NS1 functions in POWV replication, assembly, and secretion and provides a platform for evaluating antiviral compounds. Collectively, our robust POWV reverse genetics system permits analysis of viral spread and neurovirulence determinants in vitro and in vivo and enables the rational genetic design of live attenuated POWV vaccines. IMPORTANCE Our findings newly establish a mechanism for genetically modifying Powassan viruses (POWVs), systematically defining pathogenic determinants and rationally designing live attenuated POWV vaccines. This initial study demonstrates that mutating POWV NS1 glycosylation sites attenuates POWV spread and neurovirulence in vitro and in vivo . Our findings validate a robust circular polymerase extension reaction approach as a mechanism for developing, and evaluating, attenuated genetically modified POWVs. We further designed an infectious GFP-tagged reporter POWV that permits us to monitor secretory trafficking of POWV in live cells, which can be applied to screen potential POWV replication inhibitors. This robust system for modifying POWVs provides the ability to define attenuating POWV mutations and create genetically attenuated recPOWV vaccines., Competing Interests: The authors declare no conflict of interest. more...

Published

2023

6. Field trial assessing the antimicrobial decontamination efficacy of gaseous ozone in a public bus setting.

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Author

Neves ES, Ng CT, Pek HB, Goh VSL, Mohamed R, Osman S, Ng YK, Kadir SA, Nazeem M, She A, Sim G, Aik J, Ng LC, Octavia S, Fang Z, Wong JCC, and Setoh YX

Subjects

Mice, Animals, Humans, SARS-CoV-2, Decontamination methods, Staphylococcus aureus, Pandemics prevention & control, Disinfection methods, COVID-19 prevention & control, Ozone, Anti-Infective Agents

Abstract

The widespread COVID-19 pandemic caused by the Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2) necessitated measures aimed at preventing the spread of SARS-CoV-2. To mitigate the risk of fomite-mediated transmission, environmental cleaning and disinfection regimes have been widely implemented. However, conventional cleaning approaches such as surface wipe downs can be laborious and more efficient and effective disinfecting technologies are needed. Gaseous ozone disinfection is one technology which has been shown to be effective in laboratory studies. Here, we evaluated its efficacy and feasibility in a public bus setting, using murine hepatitis virus (a related betacoronavirus surrogate) and the bacteria Staphylococcus aureus as test organisms. An optimal gaseous ozone regime resulted in a 3.65-log reduction of murine hepatitis virus and a 4.73-log reduction of S. aureus, and decontamination efficacy correlated with exposure duration and relative humidity in the application space. These findings demonstrated gaseous ozone disinfection in field settings which can be suitably translated to public and private fleets that share analogous characteristics., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.) more...

Published

2023

7. Viable mpox virus in the environment of a patient room.

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Author

Marimuthu K, Wong JCC, Lim PL, Octavia S, Huan X, Ng YK, Yang JJ, Sutjipto S, Linn KZ, Setoh YX, Ong CHC, Griffiths J, Farhanah S, Cheok TS, Sulaiman NAB, Congcong SB, Neves ES, Loo LH, Hakim L, Sim S, Lim M, Nazeem M, Vasoo S, Tham KW, Ng OT, and Ng LC more...

Subjects

Humans, Dust, Prospective Studies, Water, Mpox, Monkeypox, Monkeypox virus isolation & purification, Patients' Rooms

Abstract

We conducted a prospective environmental surveillance study to investigate the air, surface, dust, and water contamination of a room occupied by a patient infected with mpox virus (MPXV) at various stages of the illness. The patient tested positive for MPXV from a throat swab and skin lesions. Environmental sampling was conducted in a negative pressure room with 12 unidirectional high efficiency particulate air filter (HEPA) air changes per hour and daily cleaning of the surfaces. A total of 179 environmental samples were collected on days 7, 8, 13, and 21 of illness. Among the days of sampling, air, surface, and dust contamination showed the highest contamination rates on day 7 and 8 of illness, with a gradual decline to the lowest contamination level by day 21. Viable MPXV was isolated from surfaces and dust samples and no viable virus was isolated from the air and water samples., Competing Interests: Declaration of competing interest The authors have no competing interests to declare., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.) more...

Published

2023

8. Rapid Diagnostic Tests for the Detection of the Four Dengue Virus Serotypes in Clinically Relevant Matrices.

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Author

Pollak NM, Olsson M, Ahmed M, Tan J, Lim G, Setoh YX, Wong JCC, Lai YL, Hobson-Peters J, Macdonald J, and McMillan D

Subjects

Humans, Rapid Diagnostic Tests, Recombinases, Sensitivity and Specificity, Serogroup, Dengue diagnosis, Dengue Virus classification, Dengue Virus isolation & purification

Abstract

The efficient and accurate diagnosis of dengue, a major mosquito-borne disease, is of primary importance for clinical care, surveillance, and outbreak control. The identification of specific dengue virus serotype 1 (DENV-1) to DENV-4 can help in understanding the transmission dynamics and spread of dengue disease. The four rapid low-resource serotype-specific dengue tests use a simple sample preparation reagent followed by reverse transcription-isothermal recombinase polymerase amplification (RT-RPA) combined with lateral flow detection (LFD) technology. Results are obtained directly from clinical sample matrices in 35 min, requiring only a heating block and pipettes for liquid handling. In addition, we demonstrate that the rapid sample preparation step inactivates DENV, improving laboratory safety. Human plasma and serum were spiked with DENV, and DENV was detected with analytical sensitivities of 333 to 22,500 median tissue culture infectious doses (TCID 50 )/mL. The analytical sensitivities in blood were 94,000 to 333,000 TCID 50 /mL. Analytical specificity testing confirmed that each test could detect multiple serotype-specific strains but did not respond to strains of other serotypes, closely related flaviviruses, or chikungunya virus. Clinical testing on 80 human serum samples demonstrated test specificities of between 94 and 100%, with a DENV-2 test sensitivity of 100%, detecting down to 0.004 PFU/μL, similar to the sensitivity of the PCR test; the other DENV tests detected down to 0.03 to 10.9 PFU/μL. Collectively, our data suggest that some of our rapid dengue serotyping tests provide a potential alternative to conventional labor-intensive RT-quantitative PCR (RT-qPCR) detection, which requires expensive thermal cycling instrumentation, technical expertise, and prolonged testing times. Our tests provide performance and speed without compromising specificity in human plasma and serum and could become promising tools for the detection of high DENV loads in resource-limited settings. IMPORTANCE The efficient and accurate diagnosis of dengue, a major mosquito-borne disease, is of primary importance for clinical care, surveillance, and outbreak control. This study describes the evaluation of four rapid low-resource serotype-specific dengue tests for the detection of specific DENV serotypes in clinical sample matrices. The tests use a simple sample preparation reagent followed by reverse transcription-isothermal recombinase polymerase amplification (RT-RPA) combined with lateral flow detection (LFD) technology. These tests have several advantages compared to RT-qPCR detection, such as a simple workflow, rapid sample processing and turnaround times (35 min from sample preparation to detection), minimal equipment needs, and improved laboratory safety through the inactivation of the virus during the sample preparation step. The low-resource formats of these rapid dengue serotyping tests have the potential to support effective dengue disease surveillance and enhance the diagnostic testing capacity in resource-limited countries with both endemic dengue and intense coronavirus disease 2019 (COVID-19) transmission. more...

Published

2023

9. Assessing the efficacy of male Wolbachia-infected mosquito deployments to reduce dengue incidence in Singapore: study protocol for a cluster-randomized controlled trial.

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Author

Ong J, Ho SH, Soh SXH, Wong Y, Ng Y, Vasquez K, Lai YL, Setoh YX, Chong CS, Lee V, Wong JCC, Tan CH, Sim S, Ng LC, and Lim JT

Subjects

Animals, Male, Humans, Mosquito Control methods, Mosquito Vectors, Incidence, Seroepidemiologic Studies, Singapore epidemiology, Randomized Controlled Trials as Topic, Wolbachia, Dengue epidemiology, Dengue prevention & control, Aedes

Abstract

Background: Dengue is a severe environmental public health challenge in tropical and subtropical regions. In Singapore, decreasing seroprevalence and herd immunity due to successful vector control has paradoxically led to increased transmission potential of the dengue virus. We have previously demonstrated that incompatible insect technique coupled with sterile insect technique (IIT-SIT), which involves the release of X-ray-irradiated male Wolbachia-infected mosquitoes, reduced the Aedes aegypti population by 98% and dengue incidence by 88%. This novel vector control tool is expected to be able to complement current vector control to mitigate the increasing threat of dengue on a larger scale. We propose a multi-site protocol to study the efficacy of IIT-SIT at reducing dengue incidence., Methods/design: The study is designed as a parallel, two-arm, non-blinded cluster-randomized (CR) controlled trial to be conducted in high-rise public housing estates in Singapore, an equatorial city-state. The aim is to determine whether large-scale deployment of male Wolbachia-infected Ae. aegypti mosquitoes can significantly reduce dengue incidence in intervention clusters. We will use the CR design, with the study area comprising 15 clusters with a total area of 10.9 km 2 , covering approximately 722,204 residents in 1713 apartment blocks. Eight clusters will be randomly selected to receive the intervention, while the other seven will serve as non-intervention clusters. Intervention efficacy will be estimated through two primary endpoints: (1) odds ratio of Wolbachia exposure distribution (i.e., probability of living in an intervention cluster) among laboratory-confirmed reported dengue cases compared to test-negative controls and (2) laboratory-confirmed reported dengue counts normalized by population size in intervention versus non-intervention clusters., Discussion: This study will provide evidence from a multi-site, randomized controlled trial for the efficacy of IIT-SIT in reducing dengue incidence. The trial will provide valuable information to estimate intervention efficacy for this novel vector control approach and guide plans for integration into national vector control programs in dengue-endemic settings., Trial Registration: ClinicalTrials.gov, identifier: NCT05505682 . Registered on 16 August 2022. Retrospectively registered., (© 2022. The Author(s).) more...

Published

2022

10. Zika virus noncoding RNA cooperates with the viral protein NS5 to inhibit STAT1 phosphorylation and facilitate viral pathogenesis.

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Author

Slonchak A, Wang X, Aguado J, Sng JDJ, Chaggar H, Freney ME, Yan K, Torres FJ, Amarilla AA, Balea R, Setoh YX, Peng N, Watterson D, Wolvetang E, Suhrbier A, and Khromykh AA

Subjects

Pregnancy, Humans, Female, Animals, Mice, Phosphorylation, Viral Proteins, Placenta, RNA, Viral genetics, Antiviral Agents, RNA, Untranslated genetics, STAT1 Transcription Factor genetics, Zika Virus, Zika Virus Infection genetics

Abstract

All flaviviruses, including Zika virus, produce noncoding subgenomic flaviviral RNA (sfRNA), which plays an important role in viral pathogenesis. However, the exact mechanism of how sfRNA enables viral evasion of antiviral response is not well defined. Here, we show that sfRNA is required for transplacental virus dissemination in pregnant mice and subsequent fetal brain infection. We also show that sfRNA promotes apoptosis of neural progenitor cells in human brain organoids, leading to their disintegration. In infected human placental cells, sfRNA inhibits multiple antiviral pathways and promotes apoptosis, with signal transducer and activator of transcription 1 (STAT1) identified as a key shared factor. We further show that the production of sfRNA leads to reduced phosphorylation and nuclear translocation of STAT1 via a mechanism that involves sfRNA binding to and stabilizing viral protein NS5. Our results suggest the cooperation between viral noncoding RNA and a viral protein as a novel strategy for counteracting antiviral responses. more...

Published

2022

11. Synthetic Heparan Sulfate Mimetic Pixatimod (PG545) Potently Inhibits SARS-CoV-2 by Disrupting the Spike-ACE2 Interaction.

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Author

Guimond SE, Mycroft-West CJ, Gandhi NS, Tree JA, Le TT, Spalluto CM, Humbert MV, Buttigieg KR, Coombes N, Elmore MJ, Wand M, Nyström K, Said J, Setoh YX, Amarilla AA, Modhiran N, Sng JDJ, Chhabra M, Young PR, Rawle DJ, Lima MA, Yates EA, Karlsson R, Miller RL, Chen YH, Bagdonaite I, Yang Z, Stewart J, Nguyen D, Laidlaw S, Hammond E, Dredge K, Wilkinson TMA, Watterson D, Khromykh AA, Suhrbier A, Carroll MW, Trybala E, Bergström T, Ferro V, Skidmore MA, and Turnbull JE more...

Abstract

Heparan sulfate (HS) is a cell surface polysaccharide recently identified as a coreceptor with the ACE2 protein for the S1 spike protein on SARS-CoV-2 virus, providing a tractable new therapeutic target. Clinically used heparins demonstrate an inhibitory activity but have an anticoagulant activity and are supply-limited, necessitating alternative solutions. Here, we show that synthetic HS mimetic pixatimod (PG545), a cancer drug candidate, binds and destabilizes the SARS-CoV-2 spike protein receptor binding domain and directly inhibits its binding to ACE2, consistent with molecular modeling identification of multiple molecular contacts and overlapping pixatimod and ACE2 binding sites. Assays with multiple clinical isolates of SARS-CoV-2 virus show that pixatimod potently inhibits the infection of monkey Vero E6 cells and physiologically relevant human bronchial epithelial cells at safe therapeutic concentrations. Pixatimod also retained broad potency against variants of concern (VOC) including B.1.1.7 (Alpha), B.1.351 (Beta), B.1.617.2 (Delta), and B.1.1.529 (Omicron). Furthermore, in a K18-hACE2 mouse model, pixatimod significantly reduced SARS-CoV-2 viral titers in the upper respiratory tract and virus-induced weight loss. This demonstration of potent anti-SARS-CoV-2 activity tolerant to emerging mutations establishes proof-of-concept for targeting the HS-Spike protein-ACE2 axis with synthetic HS mimetics and provides a strong rationale for clinical investigation of pixatimod as a potential multimodal therapeutic for COVID-19., Competing Interests: The authors declare the following competing financial interest(s): E. Hammond and K. Dredge are employees of Zucero Therapeutics. V. Ferro, E. Hammond, and K. Dredge are inventors on pixatimod patents., (© 2022 The Authors. Published by American Chemical Society.) more...

Published

2022

12. The distinguishing NS5-M114V mutation in American Zika virus isolates has negligible impacts on virus replication and transmission potential.

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Author

Peng NYG, Amarilla AA, Hugo LE, Modhiran N, Sng JDJ, Slonchak A, Watterson D, Setoh YX, and Khromykh AA

Subjects

Animals, Interferon-alpha, Interferon-beta genetics, Mice, Mosquito Vectors, Mutation, United States, Virus Replication, Aedes, Viral Nonstructural Proteins genetics, Zika Virus, Zika Virus Infection

Abstract

During 2015-2016, outbreaks of Zika virus (ZIKV) occurred in Southeast Asia and the Americas. Most ZIKV infections in humans are asymptomatic, while clinical manifestation is usually a self-limiting febrile disease with maculopapular rash. However, ZIKV is capable of inducing a range of severe neurological complications collectively described as congenital Zika syndrome (CZS). Notably, the scale and magnitude of outbreaks in Southeast Asia were significantly smaller compared to those in the Americas. Sequence comparison between epidemic-associated ZIKV strains from Southeast Asia with those from the Americas revealed a methionine to valine substitution at residue position 114 of the NS5 protein (NS5-M114V) in all the American isolates. Using an American isolate of ZIKV (Natal), we investigated the impact of NS5-M114V mutation on virus replication in cells, virulence in interferon (IFN) α/β receptor knockout (Ifnar-/-) mice, as well as replication and transmission potential in Aedes aegypti mosquitoes. We demonstrated that NS5-M114V mutation had insignificant effect on ZIKV replication efficiency in cells, its ability to degrade STAT2, and virulence in vivo, albeit viremia was slightly prolonged in mice. Furthermore, NS5-M114V mutation decreased mosquito infection and dissemination rates but had no effect on virus secretion into the saliva. Taken together, our findings support the notion that NS5-M114V mutation is unlikely to be a major determinant for virus replication and transmission potential., Competing Interests: The authors have declared that no competing interests exist. more...

Published

2022

13. First nosocomial cluster of COVID-19 due to the Delta variant in a major acute care hospital in Singapore: investigations and outbreak response.

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Author

Lim WY, Tan GSE, Htun HL, Phua HP, Kyaw WM, Guo H, Cui L, Mak TM, Poh BF, Wong JCC, Setoh YX, Ang BSP, and Chow ALP

Subjects

Disease Outbreaks, Hospitals, Humans, Pandemics prevention & control, Phylogeny, SARS-CoV-2 genetics, Singapore epidemiology, COVID-19 epidemiology, COVID-19 prevention & control, Cross Infection epidemiology, Cross Infection prevention & control

Abstract

Objectives: The first large nosocomial cluster of coronavirus disease 2019 (COVID-19) in Singapore in April 2021 led to partial closure of a major acute care hospital. This study examined factors associated with infection among patients, staff and visitors; investigated the possible role of aerosol-based transmission; evaluated the effectiveness of BNT162.b2 and mRNA1273 vaccines; and described the successful containment of the cluster., Methods: Close contacts of patients with COVID-19 and the affected ward were identified and underwent surveillance for severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) infection. Patient, staff and visitor cohorts were constructed and factors associated with infection were evaluated. Phylogenetic analysis of patient samples was performed. Ward air exhaust filters were tested for SARS-CoV-2., Results: In total, there were 47 cases, comprising 29 patients, nine staff, six visitors and three household contacts. All infections were of the Delta variant. Ventilation studies showed turbulent air flow and swabs from air exhaust filters were positive for SARS-CoV-2. Vaccine breakthrough infections were seen in both patients and staff. Among patients, vaccination was associated with a 79% lower odds of infection with COVID-19 (adjusted odds ratio 0.21, 95% confidence interval 0.05-0.95)., Conclusions: This cluster occurred despite enhancement of infection control measures that the hospital had undertaken at the onset of the COVID-19 pandemic. It was brought under control rapidly through case isolation, extensive contact tracing and quarantine measures, and led to enhanced use of hospital personal protective equipment, introduction of routine rostered testing of inpatients and staff, and changes in hospital infrastructure to improve ventilation within general wards., (Copyright © 2021 The Healthcare Infection Society. Published by Elsevier Ltd. All rights reserved.) more...

Published

2022

14. Minimizing errors in RT-PCR detection and quantification of SARS-CoV-2 RNA for wastewater surveillance.

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Author

Ahmed W, Simpson SL, Bertsch PM, Bibby K, Bivins A, Blackall LL, Bofill-Mas S, Bosch A, Brandão J, Choi PM, Ciesielski M, Donner E, D'Souza N, Farnleitner AH, Gerrity D, Gonzalez R, Griffith JF, Gyawali P, Haas CN, Hamilton KA, Hapuarachchi HC, Harwood VJ, Haque R, Jackson G, Khan SJ, Khan W, Kitajima M, Korajkic A, La Rosa G, Layton BA, Lipp E, McLellan SL, McMinn B, Medema G, Metcalfe S, Meijer WG, Mueller JF, Murphy H, Naughton CC, Noble RT, Payyappat S, Petterson S, Pitkänen T, Rajal VB, Reyneke B, Roman FA Jr, Rose JB, Rusiñol M, Sadowsky MJ, Sala-Comorera L, Setoh YX, Sherchan SP, Sirikanchana K, Smith W, Steele JA, Sabburg R, Symonds EM, Thai P, Thomas KV, Tynan J, Toze S, Thompson J, Whiteley AS, Wong JCC, Sano D, Wuertz S, Xagoraraki I, Zhang Q, Zimmer-Faust AG, and Shanks OC more...

Subjects

Humans, Prospective Studies, RNA, Viral, Reproducibility of Results, Retrospective Studies, Reverse Transcriptase Polymerase Chain Reaction, SARS-CoV-2, Wastewater, Wastewater-Based Epidemiological Monitoring, COVID-19, Pandemics

Abstract

Wastewater surveillance for pathogens using reverse transcription-polymerase chain reaction (RT-PCR) is an effective and resource-efficient tool for gathering community-level public health information, including the incidence of coronavirus disease-19 (COVID-19). Surveillance of Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2) in wastewater can potentially provide an early warning signal of COVID-19 infections in a community. The capacity of the world's environmental microbiology and virology laboratories for SARS-CoV-2 RNA characterization in wastewater is increasing rapidly. However, there are no standardized protocols or harmonized quality assurance and quality control (QA/QC) procedures for SARS-CoV-2 wastewater surveillance. This paper is a technical review of factors that can cause false-positive and false-negative errors in the surveillance of SARS-CoV-2 RNA in wastewater, culminating in recommended strategies that can be implemented to identify and mitigate some of these errors. Recommendations include stringent QA/QC measures, representative sampling approaches, effective virus concentration and efficient RNA extraction, PCR inhibition assessment, inclusion of sample processing controls, and considerations for RT-PCR assay selection and data interpretation. Clear data interpretation guidelines (e.g., determination of positive and negative samples) are critical, particularly when the incidence of SARS-CoV-2 in wastewater is low. Corrective and confirmatory actions must be in place for inconclusive results or results diverging from current trends (e.g., initial onset or reemergence of COVID-19 in a community). It is also prudent to perform interlaboratory comparisons to ensure results' reliability and interpretability for prospective and retrospective analyses. The strategies that are recommended in this review aim to improve SARS-CoV-2 characterization and detection for wastewater surveillance applications. A silver lining of the COVID-19 pandemic is that the efficacy of wastewater surveillance continues to be demonstrated during this global crisis. In the future, wastewater should also play an important role in the surveillance of a range of other communicable diseases., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2021. Published by Elsevier B.V. All rights reserved.) more...

Published

2022

15. Non-intrusive wastewater surveillance for monitoring of a residential building for COVID-19 cases.

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Author

Wong JCC, Tan J, Lim YX, Arivalan S, Hapuarachchi HC, Mailepessov D, Griffiths J, Jayarajah P, Setoh YX, Tien WP, Low SL, Koo C, Yenamandra SP, Kong M, Lee VJM, and Ng LC

Subjects

Humans, Prevalence, SARS-CoV-2, Singapore, Wastewater, COVID-19

Abstract

Wastewater-based surveillance for SARS-CoV-2 has been used for the early warning of transmission or objective trending of the population-level disease prevalence. Here, we describe a new use-case of conducting targeted wastewater surveillance to complement clinical testing for case identification in a small community at risk of COVID-19 transmission. On 2 July 2020, a cluster of COVID-19 cases in two unrelated households residing on different floors in the same stack of an apartment building was reported in Singapore. After cases were conveyed to healthcare facilities and six healthy household contacts were quarantined in their respective apartments, wastewater surveillance was implemented for the entire residential block. SARS-CoV-2 was subsequently detected in wastewaters in an increasing frequency and concentration, despite the absence of confirmed COVID-19 cases, suggesting the presence of fresh case/s in the building. Phone interviews of six residents in quarantine revealed that no one was symptomatic (fever/respiratory illness). However, when nasopharyngeal swabs from six quarantined residents were tested by PCR tests, one was positive for SARS-CoV-2. The positive case reported episodes of diarrhea and the case's stool sample was also positive for SARS-CoV-2, explaining the SARS-CoV-2 spikes observed in wastewaters. After the case was conveyed to a healthcare facility, wastewaters continued to yield positive signals for five days, though with a decreasing intensity. This was attributed to the return of recovered cases, who had continued to shed the virus. Our findings demonstrate the utility of wastewater surveillance as a non-intrusive tool to monitor high-risk COVID-19 premises, which is able to trigger individual tests for case detection, highlighting a new use-case for wastewater testing., Competing Interests: Declaration of competing interest The authors have no conflicts of interest to declare., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.) more...

Published

2021

16. N95 respirator decontamination: a study in reusability.

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Author

Wang CG, Li Z, Liu S, Ng CT, Marzuki M, Jeslyn Wong PS, Tan B, Lee A, Hui Lim CF, Bifani P, Fang Z, Ching Wong JC, Setoh YX, Yang YY, Mun CH, Fiona Phua SZ, Lim WQ, Lin L, Cook AR, Tanoto H, Ng LC, Singhal A, Leong YW, and Loh XJ more...

Abstract

The coronavirus disease 2019 (COVID-19) pandemic had caused a severe depletion of the worldwide supply of N95 respirators. The development of methods to effectively decontaminate N95 respirators while maintaining their integrity is crucial for respirator regeneration and reuse. In this study, we systematically evaluated five respirator decontamination methods using vaporized hydrogen peroxide (VHP) or ultraviolet (254 nm wavelength, UVC) radiation. Through testing the bioburden, filtration, fluid resistance, and fit (shape) of the decontaminated respirators, we found that the decontamination methods using BioQuell VHP, custom VHP container, Steris VHP, and Sterrad VHP effectively inactivated Cardiovirus (3-log 10 reduction) and bacteria (6-log 10 reduction) without compromising the respirator integrity after 2-15 cycles. Hope UVC system was capable of inactivating Cardiovirus (3-log 10 reduction) but exhibited relatively poorer bactericidal activity. These methods are capable of decontaminating 10-1000 respirators per batch with varied decontamination times (10-200 min). Our findings show that N95 respirators treated by the previously mentioned decontamination methods are safe and effective for reuse by industry, laboratories, and hospitals., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 The Author(s).) more...

Published

2021

17. A versatile reverse genetics platform for SARS-CoV-2 and other positive-strand RNA viruses.

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Author

Amarilla AA, Sng JDJ, Parry R, Deerain JM, Potter JR, Setoh YX, Rawle DJ, Le TT, Modhiran N, Wang X, Peng NYG, Torres FJ, Pyke A, Harrison JJ, Freney ME, Liang B, McMillan CLD, Cheung STM, Guevara DJDC, Hardy JM, Bettington M, Muller DA, Coulibaly F, Moore F, Hall RA, Young PR, Mackenzie JM, Hobson-Peters J, Suhrbier A, Watterson D, and Khromykh AA more...

Subjects

Amino Acid Sequence, Animals, Base Sequence, Chlorocebus aethiops, Culicidae virology, Furin metabolism, Genome, Viral, HEK293 Cells, Humans, Mice, Mutation genetics, NIH 3T3 Cells, Polymerase Chain Reaction, RAW 264.7 Cells, Receptors, Virus metabolism, Vero Cells, Viral Proteins chemistry, Virus Replication, Reverse Genetics, SARS-CoV-2 genetics

Abstract

The current COVID-19 pandemic is caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). We demonstrate that despite the large size of the viral RNA genome (~30 kb), infectious full-length cDNA is readily assembled in vitro by a circular polymerase extension reaction (CPER) methodology without the need for technically demanding intermediate steps. Overlapping cDNA fragments are generated from viral RNA and assembled together with a linker fragment containing CMV promoter into a circular full-length viral cDNA in a single reaction. Transfection of the circular cDNA into mammalian cells results in the recovery of infectious SARS-CoV-2 virus that exhibits properties comparable to the parental virus in vitro and in vivo. CPER is also used to generate insect-specific Casuarina virus with ~20 kb genome and the human pathogens Ross River virus (Alphavirus) and Norovirus (Calicivirus), with the latter from a clinical sample. Additionally, reporter and mutant viruses are generated and employed to study virus replication and virus-receptor interactions. more...

Published

2021

18. Assessing the potential of unmanned aerial vehicle spraying of aqueous ozone as an outdoor disinfectant for SARS-CoV-2.

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Author

Albert S, Amarilla AA, Trollope B, Sng JDJ, Setoh YX, Deering N, Modhiran N, Weng SH, Melo MC, Hutley N, Nandy A, Furlong MJ, Young PR, Watterson D, Grinham AR, and Khromykh AA

Subjects

Disinfection, Humans, Pandemics, SARS-CoV-2, COVID-19, Disinfectants, Ozone

Abstract

The COVID-19 pandemic has revealed gaps in our understanding of safe, effective and efficient means of disinfecting high use public spaces. Whilst this creates an opportunity for development and application of innovative approaches such as unmanned aerial vehicle (UAV) based disinfection, unregulated outdoor disinfection using chlorine has led to environmental and public health risks. This study has quantified the efficiency, safety and efficacy of UAV-based spraying of aqueous ozone. Optimised UAV flight characteristics of 4.7 km/h at 1.7 m elevation spraying 2.4 L/min were able to provide >97% and >92% coverage of a 1 m and 2 m wide swath respectively. During spraying operations using 1 mg/L aqueous ozone, atmospheric concentrations of ozone remained within background levels (<0.04 ppm). Highly efficient inactivation of two different isolates of SARS-CoV-2 virus was achieved at aqueous ozone concentrations of 0.75 mg/L after an incubation period of only 5 min, with 0.375 mg/L achieving 82-91.5% inactivation in this time. Exposure of diamondback moth larvae and parasitic wasps to 1 mg/L aqueous ozone did not significantly affect their survivorship. These results indicate for the first time that aqueous ozone may provide the required balance between human and environmental safety and viral inactivation efficacy for targeted application in high risk outdoor settings., (Copyright © 2021 Elsevier Inc. All rights reserved.) more...

Published

2021

19. A paucigranulocytic asthma host environment promotes the emergence of virulent influenza viral variants.

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Author

Hulme KD, Karawita AC, Pegg C, Bunte MJ, Bielefeldt-Ohmann H, Bloxham CJ, Van den Hoecke S, Setoh YX, Vrancken B, Spronken M, Steele LE, Verzele NA, Upton KR, Khromykh AA, Chew KY, Sukkar M, Phipps S, and Short KR more...

Subjects

Animals, Female, Host-Pathogen Interactions, Male, Mice, Mice, Inbred C57BL, Receptor for Advanced Glycation End Products deficiency, Asthma virology, Influenza A Virus, H1N1 Subtype pathogenicity, Orthomyxoviridae Infections virology

Abstract

Influenza virus has a high mutation rate, such that within one host different viral variants can emerge. Evidence suggests that influenza virus variants are more prevalent in pregnant and/or obese individuals due to their impaired interferon response. We have recently shown that the non-allergic, paucigranulocytic subtype of asthma is associated with impaired type I interferon production. Here, we seek to address if this is associated with an increased emergence of influenza virus variants. Compared to controls, mice with paucigranulocytic asthma had increased disease severity and an increased emergence of influenza virus variants. Specifically, PB1 mutations exclusively detected in asthmatic mice were associated with increased polymerase activity. Furthermore, asthmatic host-derived virus led to increased disease severity in wild-type mice. Taken together, these data suggest that at least a subset of patients with asthma may be more susceptible to severe influenza and may be a possible source of new influenza virus variants., Competing Interests: KH, AK, CP, MB, HB, CB, SV, YS, BV, MS, LS, NV, KU, AK, KC, MS, SP, KS No competing interests declared, (© 2021, Hulme et al.) more...

Published

2021

20. An Optimized High-Throughput Immuno-Plaque Assay for SARS-CoV-2.

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Author

Amarilla AA, Modhiran N, Setoh YX, Peng NYG, Sng JDJ, Liang B, McMillan CLD, Freney ME, Cheung STM, Chappell KJ, Khromykh AA, Young PR, and Watterson D

Abstract

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) has been identified as the causative agent of coronavirus disease 2019 and is capable of human-to-human transmission and rapid global spread. The rapid emergence and global spread of SARS-CoV-2 has encouraged the establishment of a rapid, sensitive, and reliable viral detection and quantification methodology. Here, we present an alternative assay, termed immuno-plaque assay (iPA), which utilizes a combination of plaque assay and immunofluorescence techniques. We have extensively optimized the conditions for SARS-CoV-2 infection and demonstrated the great flexibility of iPA detection using several antibodies and dual-probing with two distinct epitope-specific antibodies. In addition, we showed that iPA could be utilized for ultra-high-throughput viral titration and neutralization assay within 24 h and is amenable to a 384-well format. These advantages will significantly accelerate SARS-CoV-2 research outcomes during this pandemic period., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Amarilla, Modhiran, Setoh, Peng, Sng, Liang, McMillan, Freney, Cheung, Chappell, Khromykh, Young and Watterson.) more...

Published

2021

21. A broadly protective antibody that targets the flavivirus NS1 protein.

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Author

Modhiran N, Song H, Liu L, Bletchly C, Brillault L, Amarilla AA, Xu X, Qi J, Chai Y, Cheung STM, Traves R, Setoh YX, Bibby S, Scott CAP, Freney ME, Newton ND, Khromykh AA, Chappell KJ, Muller DA, Stacey KJ, Landsberg MJ, Shi Y, Gao GF, Young PR, and Watterson D more...

Subjects

Animals, Antibodies, Monoclonal therapeutic use, Antibodies, Neutralizing immunology, Antibodies, Neutralizing therapeutic use, Antibodies, Viral immunology, Antibodies, Viral therapeutic use, CHO Cells, Cell Line, Cricetulus, Cross Reactions, Dengue prevention & control, Dengue therapy, Disease Models, Animal, Humans, Mice, Protein Domains, Viral Nonstructural Proteins chemistry, Viremia therapy, West Nile Fever prevention & control, West Nile Fever therapy, Zika Virus Infection prevention & control, Zika Virus Infection therapy, Antibodies, Neutralizing chemistry, Antibodies, Viral chemistry, Dengue Virus immunology, Viral Nonstructural Proteins immunology, West Nile virus immunology, Zika Virus immunology

Abstract

There are no approved flaviviral therapies and the development of vaccines against flaviruses has the potential of being undermined by antibody-dependent enhancement (ADE). The flavivirus nonstructural protein 1 (NS1) is a promising vaccine antigen with low ADE risk but has yet to be explored as a broad-spectrum therapeutic antibody target. Here, we provide the structural basis of NS1 antibody cross-reactivity through cocrystallization of the antibody 1G5.3 with NS1 proteins from dengue and Zika viruses. The 1G5.3 antibody blocks multi-flavivirus NS1-mediated cell permeability in disease-relevant cell lines, and therapeutic application of 1G5.3 reduces viremia and improves survival in dengue, Zika, and West Nile virus murine models. Finally, we demonstrate that 1G5.3 protection is independent of effector function, identifying the 1G5.3 epitope as a key site for broad-spectrum antiviral development., (Copyright © 2021, American Association for the Advancement of Science.) more...

Published

2021

22. Antigenic Characterization of New Lineage II Insect-Specific Flaviviruses in Australian Mosquitoes and Identification of Host Restriction Factors.

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Author

Harrison JJ, Hobson-Peters J, Colmant AMG, Koh J, Newton ND, Warrilow D, Bielefeldt-Ohmann H, Piyasena TBH, O'Brien CA, Vet LJ, Paramitha D, Potter JR, Davis SS, Johansen CA, Setoh YX, Khromykh AA, and Hall RA more...

Subjects

Animals, Australia, Cell Line, Chickens, Chlorocebus aethiops, Evolution, Molecular, Flavivirus isolation & purification, Genome, Viral, Host Microbial Interactions, Humans, Mammals, Mosquito Vectors virology, Species Specificity, Vero Cells, Antigens, Viral genetics, Culicidae virology, Flavivirus classification, Flavivirus immunology, Phylogeny, Virus Replication

Abstract

We describe two new insect-specific flaviviruses (ISFs) isolated from mosquitoes in Australia, Binjari virus (BinJV) and Hidden Valley virus (HVV), that grow efficiently in mosquito cells but fail to replicate in a range of vertebrate cell lines. Phylogenetic analysis revealed that BinJV and HVV were closely related (90% amino acid sequence identity) and clustered with lineage II (dual-host affiliated) ISFs, including the Lammi and Nounané viruses. Using a panel of monoclonal antibodies prepared to BinJV viral proteins, we confirmed a close relationship between HVV and BinJV and revealed that they were antigenically quite divergent from other lineage II ISFs. We also constructed chimeric viruses between BinJV and the vertebrate-infecting West Nile virus (WNV) by swapping the structural genes (prM and E) to produce BinJ/WNV KUN -prME and WNV KUN /BinJV-prME. This allowed us to assess the role of different regions of the BinJV genome in vertebrate host restriction and revealed that while BinJV structural proteins facilitated entry to vertebrate cells, the process was inefficient. In contrast, the BinJV replicative components in wild-type BinJV and BinJ/WNV KUN -prME failed to initiate replication in a wide range of vertebrate cell lines at 37°C, including cells lacking components of the innate immune response. However, trace levels of replication of BinJ/WNV KUN -prME could be detected in some cultures of mouse embryo fibroblasts (MEFs) deficient in antiviral responses (IFNAR -/- MEFs or RNase L -/- MEFs) incubated at 34°C after inoculation. This suggests that BinJV replication in vertebrate cells is temperature sensitive and restricted at multiple stages of cellular infection, including inefficient cell entry and susceptibility to antiviral responses. IMPORTANCE The globally important flavivirus pathogens West Nile virus, Zika virus, dengue viruses, and yellow fever virus can infect mosquito vectors and be transmitted to humans and other vertebrate species in which they cause significant levels of disease and mortality. However, the subgroup of closely related flaviviruses, known as lineage II insect-specific flaviviruses (Lin II ISFs), only infect mosquitoes and cannot replicate in cells of vertebrate origin. Our data are the first to uncover the mechanisms that restrict the growth of Lin II ISFs in vertebrate cells and provides new insights into the evolution of these viruses and the mechanisms associated with host switching that may allow new mosquito-borne viral diseases to emerge. The new reagents generated in this study, including the first Lin II ISF-reactive monoclonal antibodies and Lin II ISF mutants and chimeric viruses, also provide new tools and approaches to enable further research advances in this field., (© Crown copyright 2020.) more...

Published

2020

23. Protective Efficacy of a Chimeric Insect-Specific Flavivirus Vaccine against West Nile Virus.

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Author

Vet LJ, Setoh YX, Amarilla AA, Habarugira G, Suen WW, Newton ND, Harrison JJ, Hobson-Peters J, Hall RA, and Bielefeldt-Ohmann H

Abstract

Virulent strains of West Nile virus (WNV) are highly neuro-invasive and human infection is potentially lethal. However, no vaccine is currently available for human use. Here, we report the immunogenicity and protective efficacy of a vaccine derived from a chimeric virus, which was constructed using the structural proteins (prM and E) of the Kunjin strain of WNV (WNV KUN ) and the genome backbone of the insect-specific flavivirus Binjari virus (BinJV). This chimeric virus (BinJ/WNV KUN -prME) exhibits an insect-specific phenotype and does not replicate in vertebrate cells. Importantly, it authentically presents the prM-E proteins of WNV KUN , which is antigenically very similar to other WNV strains and lineages. Therefore BinJ/WNV KUN -prME represents an excellent candidate to assess as a vaccine against virulent WNV strains, including the highly pathogenic WNV NY99 . When CD1 mice were immunized with purified BinJ/WNV KUN -prME, they developed robust neutralizing antibody responses after a single unadjuvanted dose of 1 to 5 μg. We further demonstrated complete protection against viremia and mortality after lethal challenge with WNV NY99 , with no clinical or subclinical pathology observed in vaccinated animals. These data suggest that BinJ/WNV KUN -prME represents a safe and effective WNV vaccine candidate that warrants further investigation for use in humans or in veterinary applications. more...

Published

2020

24. Zika virus noncoding RNA suppresses apoptosis and is required for virus transmission by mosquitoes.

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Author

Slonchak A, Hugo LE, Freney ME, Hall-Mendelin S, Amarilla AA, Torres FJ, Setoh YX, Peng NYG, Sng JDJ, Hall RA, van den Hurk AF, Devine GJ, and Khromykh AA

Subjects

Aedes cytology, Aedes virology, Animals, Cells, Cultured, Chlorocebus aethiops, Gene Expression Regulation, Humans, Insect Proteins genetics, Insect Proteins metabolism, Mosquito Vectors cytology, Mosquito Vectors virology, RNA, Messenger genetics, RNA, Messenger metabolism, RNA, Untranslated genetics, RNA, Untranslated metabolism, RNA, Viral metabolism, Vero Cells, Virus Replication genetics, Zika Virus physiology, Zika Virus Infection transmission, Zika Virus Infection virology, Aedes genetics, Apoptosis genetics, Mosquito Vectors genetics, RNA, Viral genetics, Zika Virus genetics, Zika Virus Infection genetics

Abstract

Flaviviruses, including Zika virus (ZIKV), utilise host mRNA degradation machinery to produce subgenomic flaviviral RNA (sfRNA). In mammalian hosts, this noncoding RNA facilitates replication and pathogenesis of flaviviruses by inhibiting IFN-signalling, whereas the function of sfRNA in mosquitoes remains largely elusive. Herein, we conduct a series of in vitro and in vivo experiments to define the role of ZIKV sfRNA in infected Aedes aegypti employing viruses deficient in production of sfRNA. We show that sfRNA-deficient viruses have reduced ability to disseminate and reach saliva, thus implicating the role for sfRNA in productive infection and transmission. We also demonstrate that production of sfRNA alters the expression of mosquito genes related to cell death pathways, and prevents apoptosis in mosquito tissues. Inhibition of apoptosis restored replication and transmission of sfRNA-deficient mutants. Hence, we propose anti-apoptotic activity of sfRNA as the mechanism defining its role in ZIKV transmission. more...

Published

2020

25. A recombinant platform for flavivirus vaccines and diagnostics using chimeras of a new insect-specific virus.

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Author

Hobson-Peters J, Harrison JJ, Watterson D, Hazlewood JE, Vet LJ, Newton ND, Warrilow D, Colmant AMG, Taylor C, Huang B, Piyasena TBH, Chow WK, Setoh YX, Tang B, Nakayama E, Yan K, Amarilla AA, Wheatley S, Moore PR, Finger M, Kurucz N, Modhiran N, Young PR, Khromykh AA, Bielefeldt-Ohmann H, Suhrbier A, and Hall RA more...

Subjects

Animals, Antigens, Viral immunology, Flavivirus ultrastructure, Horses, Humans, Immunoassay, Male, Mice, Inbred C57BL, Phylogeny, Receptor, Interferon alpha-beta deficiency, Receptor, Interferon alpha-beta metabolism, Vaccination, Virion metabolism, Virus Replication, Chimera immunology, Flavivirus immunology, Flavivirus Infections diagnosis, Flavivirus Infections immunology, Insect Viruses physiology, Recombination, Genetic genetics, Viral Vaccines immunology

Abstract

Flaviviruses such as dengue, yellow fever, Zika, West Nile, and Japanese encephalitis virus present substantial global health burdens. New vaccines are being sought to address safety and manufacturing issues associated with current live attenuated vaccines. Here, we describe a new insect-specific flavivirus, Binjari virus, which was found to be remarkably tolerant for exchange of its structural protein genes (prME) with those of the aforementioned pathogenic vertebrate-infecting flaviviruses (VIFs). Chimeric BinJ/VIF-prME viruses remained replication defective in vertebrate cells but replicated with high efficiency in mosquito cells. Cryo-electron microscopy and monoclonal antibody binding studies illustrated that the chimeric BinJ/VIF-prME virus particles were structurally and immunologically similar to their parental VIFs. Pilot manufacturing in C6/36 cells suggests that high yields can be reached up to 10 9.5 cell culture infectious dose/ml or ≈7 mg/liter. BinJ/VIF-prME viruses showed utility in diagnostic (microsphere immunoassays and ELISAs using panels of human and equine sera) and vaccine applications (illustrating protection against Zika virus challenge in murine IFNAR -/- mouse models). BinJ/VIF-prME viruses thus represent a versatile, noninfectious (for vertebrate cells), high-yield technology for generating chimeric flavivirus particles with low biocontainment requirements., (Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.) more...

Published

2019

26. Chimeric viruses of the insect-specific flavivirus Palm Creek with structural proteins of vertebrate-infecting flaviviruses identify barriers to replication of insect-specific flaviviruses in vertebrate cells.

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Author

Piyasena TBH, Newton ND, Hobson-Peters J, Vet LJ, Setoh YX, Bielefeldt-Ohmann H, Khromykh AA, and Hall RA

Subjects

Animals, Cell Line, Chlorocebus aethiops, Cricetinae, Culicidae, Flavivirus genetics, Mice, Mutation, Recombinant Proteins genetics, Recombinant Proteins metabolism, Serial Passage, Viral Structural Proteins genetics, Viral Structural Proteins metabolism, Virus Internalization, Virus Release, Virus Replication, Flavivirus growth & development, Host Specificity, Viral Tropism

Abstract

Here we report the generation of novel chimeric flaviviruses, which express the prM and E proteins of either dengue or Zika viruses on the genomic backbone of Palm Creek virus (PCV), an insect-specific flavivirus. The chimeric virus particles were antigenically indistinguishable from their parental prM-E donors, but were unable to infect vertebrate cells. An additional chimera (PCV structural genes in the backbone of West Nile virus - WNV/PCV-prME) was also unable to infect vertebrate cells, but transfection with RNA from this virus resulted in detectable RNA replication and translation but no infectious virion production. These data suggest multiple blocks at the entry, RNA replication and assembly/release stages of insect-specific flavivirus (ISF) infection in vertebrate cells. Serial passaging of these chimeric viruses in mosquito cells identified amino acid substitutions that may lead to increased replication efficiency. These chimeric viruses provide unique tools to further dissect the mechanisms of the host restriction of ISFs. more...

Published

2019

27. West Nile virus infection and interferon alpha treatment alter the spectrum and the levels of coding and noncoding host RNAs secreted in extracellular vesicles.

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Author

Slonchak A, Clarke B, Mackenzie J, Amarilla AA, Setoh YX, and Khromykh AA

Subjects

Animals, Cell Line, Extracellular Vesicles drug effects, Gene Expression Profiling, Humans, Extracellular Vesicles genetics, Interferon-alpha pharmacology, MicroRNAs metabolism, RNA, Messenger metabolism, RNA, Small Untranslated metabolism, West Nile virus physiology

Abstract

Background: Extracellular vesicles (EVs) are small membrane vesicles secreted by the cells that mediate intercellular transfer of molecules and contribute to transduction of various signals. Viral infection and action of pro-inflammatory cytokines has been shown to alter molecular composition of EV content. Transfer of antiviral proteins by EVs is thought to contribute to the development of inflammation and antiviral state. Altered incorporation of selected host RNAs into EVs in response to infection has also been demonstrated for several viruses, but not for WNV. Considering the medical significance of flaviviruses and the importance of deeper knowledge about the mechanisms of flavivirus-host interactions we assessed the ability of West Nile virus (WNV) and type I interferon (IFN), the main cytokine regulating antiviral response to WNV, to alter the composition of EV RNA cargo., Results: We employed next generation sequencing to perform transcriptome-wide profiling of RNA cargo in EVs produced by cells infected with WNV or exposed to IFN-alpha. RNA profile of EVs secreted by uninfected cells was also determined and used as a reference. We found that WNV infection significantly changed the levels of certain host microRNAs (miRNAs), small noncoding RNAs (sncRNAs) and mRNAs incorporated into EVs. Treatment with IFN-alpha also altered miRNA and mRNA profiles in EV but had less profound effect on sncRNAs. Functional classification of RNAs differentially incorporated into EVs upon infection and in response to IFN-alpha treatment demonstrated association of enriched in EVs mRNAs and miRNAs with viral processes and pro-inflammatory pathways. Further analysis revealed that WNV infection and IFN-alpha treatment changed the levels of common and unique mRNAs and miRNAs in EVs and that IFN-dependent and IFN-independent processes are involved in regulation of RNA sorting into EVs during infection., Conclusions: WNV infection and IFN-alpha treatment alter the spectrum and the levels of mRNAs, miRNAs and sncRNAs in EVs. Differentially incorporated mRNAs and miRNAs in EVs produced in response to WNV infection and to IFN-alpha treatment are associated with viral processes and host response to infection. WNV infection affects composition of RNA cargo in EVs via IFN-dependent and IFN-independent mechanisms. more...

Published

2019

28. Author Correction: Infectious DNAs derived from insect-specific flavivirus genomes enable identification of pre- and post-entry host restrictions in vertebrate cells.

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Author

Piyasena TBH, Setoh YX, Hobson-Peters J, Newton ND, Bielefeldt-Ohmann H, McLean BJ, Vet LJ, Khromykh AA, and Hall RA

Abstract

A correction to this article has been published and is linked from the HTML and PDF versions of this paper. The error has not been fixed in the paper.

Published

2019

29. CCR2 Plays a Protective Role in Rocio Virus-Induced Encephalitis by Promoting Macrophage Infiltration Into the Brain.

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Author

Amarilla AA, Santos-Junior NN, Figueiredo ML, Luiz JPM, Fumagalli MJ, Colón DF, Lippi V, Alfonso HL, Lima-Junior DS, Trabuco AC, Spinieli RL, Desidera AC, Leite-Panissi CRA, Lauretti F, Mendoza SES, Silva CLA, Rego EM, Galvao-Lima LJ, Bassi GS, Penharvel Martíns SLB, Manrique WG, Alves-Filho JC, Cunha FQ, Peng NYG, Modhiran N, Setoh YX, Khromykh AA, Figueiredo LTM, and Aquino VH more...

Subjects

Animals, Brain, Brazil, Encephalitis virology, Female, Flavivirus Infections virology, Macrophages virology, Mice, Mice, Inbred C57BL, Mice, Knockout, Encephalitis metabolism, Flavivirus pathogenicity, Flavivirus Infections metabolism, Macrophages metabolism, Receptors, CCR2 metabolism

Abstract

Rocio virus (ROCV) is a highly neuropathogenic mosquito-transmitted flavivirus responsible for an unprecedented outbreak of human encephalitis during 1975-1976 in Sao Paulo State, Brazil. Previous studies have shown an increased number of inflammatory macrophages in the central nervous system (CNS) of ROCV-infected mice, implying a role for macrophages in the pathogenesis of ROCV. Here, we show that ROCV infection results in increased expression of CCL2 in the blood and in infiltration of macrophages into the brain. Moreover, we show, using CCR2 knockout mice, that CCR2 expression is essential for macrophage infiltration in the brain during ROCV infection and that the lack of CCR2 results in increased disease severity and mortality. Thus, our findings show the protective role of CCR2-mediated infiltration of macrophages in the brain during ROCV infection., (© The Author(s) 2019. Published by Oxford University Press for the Infectious Diseases Society of America. All rights reserved. For permissions, e-mail: journals.permissions@oup.com.) more...

Published

2019

30. Determinants of Zika virus host tropism uncovered by deep mutational scanning.

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Author

Setoh YX, Amarilla AA, Peng NYG, Griffiths RE, Carrera J, Freney ME, Nakayama E, Ogawa S, Watterson D, Modhiran N, Nanyonga FE, Torres FJ, Slonchak A, Periasamy P, Prow NA, Tang B, Harrison J, Hobson-Peters J, Cuddihy T, Cooper-White J, Hall RA, Young PR, Mackenzie JM, Wolvetang E, Bloom JD, Suhrbier A, and Khromykh AA more...

Subjects

Aedes virology, Animals, Biological Evolution, Chlorocebus aethiops, Female, Host Specificity, Humans, Mice, Mice, Inbred C57BL, Models, Molecular, Mosquito Vectors virology, Mutation, Selection, Genetic, Vero Cells, Viral Envelope Proteins chemistry, Viral Envelope Proteins genetics, Viral Envelope Proteins metabolism, Virus Replication, Zika Virus chemistry, Zika Virus genetics, DNA Mutational Analysis methods, Viral Tropism, Zika Virus physiology, Zika Virus Infection virology

Abstract

Arboviruses cycle between, and replicate in, both invertebrate and vertebrate hosts, which for Zika virus (ZIKV) involves Aedes mosquitoes and primates 1 . The viral determinants required for replication in such obligate hosts are under strong purifying selection during natural virus evolution, making it challenging to resolve which determinants are optimal for viral fitness in each host. Herein we describe a deep mutational scanning (DMS) strategy 2-5 whereby a viral cDNA library was constructed containing all codon substitutions in the C-terminal 204 amino acids of ZIKV envelope protein (E). The cDNA library was transfected into C6/36 (Aedes) and Vero (primate) cells, with subsequent deep sequencing and computational analyses of recovered viruses showing that substitutions K316Q and S461G, or Q350L and T397S, conferred substantial replicative advantages in mosquito and primate cells, respectively. A 316Q/461G virus was constructed and shown to be replication-defective in mammalian cells due to severely compromised virus particle formation and secretion. The 316Q/461G virus was also highly attenuated in human brain organoids, and illustrated utility as a vaccine in mice. This approach can thus imitate evolutionary selection in a matter of days and identify amino acids key to the regulation of virus replication in specific host environments. more...

Published

2019

31. Misperceived Risks of Zika-related Microcephaly in India.

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Author

Grubaugh ND, Ishtiaq F, Setoh YX, and Ko AI

Subjects

Female, Humans, India epidemiology, Microcephaly epidemiology, Mutation, Pregnancy, Pregnancy Complications, Infectious virology, Risk Factors, Zika Virus genetics, Zika Virus Infection complications, Zika Virus Infection epidemiology, Communication, Microcephaly psychology, Microcephaly virology, Pregnancy Complications, Infectious psychology, Zika Virus Infection psychology

Abstract

After the discovery that Zika virus (ZIKV) could cause microcephaly and other birth defects, we have scrambled to understand how. Now, spreading along with the virus is misinformation that a ZIKV mutation is responsible for microcephaly. Putting too much onus on a single mutation could enhance a crisis in India., (Copyright © 2019 Elsevier Ltd. All rights reserved.) more...

Published

2019

32. Fetal Brain Infection Is Not a Unique Characteristic of Brazilian Zika Viruses.

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Author

Setoh YX, Peng NY, Nakayama E, Amarilla AA, Prow NA, Suhrbier A, and Khromykh AA

Subjects

Animals, Chlorocebus aethiops, Disease Models, Animal, Female, Humans, Mice, Mice, Inbred C57BL, Mice, Knockout, Placenta virology, Pregnancy, Receptor, Interferon alpha-beta deficiency, Receptor, Interferon alpha-beta genetics, Vero Cells, Viremia, Virus Replication, Zika Virus physiology, Brain virology, Fetus virology, Pregnancy Complications, Infectious virology, Zika Virus Infection pathology, Zika Virus Infection virology

Abstract

The recent emergence of Zika virus (ZIKV) in Brazil was associated with an increased number of fetal brain infections that resulted in a spectrum of congenital neurological complications known as congenital Zika syndrome (CZS). Herein, we generated de novo from sequence data an early Asian lineage ZIKV isolate (ZIKV-MY; Malaysia, 1966) not associated with microcephaly and compared the in vitro replication kinetics and fetal brain infection in interferon α/β receptor 1 knockout (IFNAR1 -/- ) dams of this isolate and of a Brazilian isolate (ZIKV-Natal; Natal, 2015) unequivocally associated with microcephaly. The replication efficiencies of ZIKV-MY and ZIKV-Natal in A549 and Vero cells were similar, while ZIKV-MY replicated more efficiently in wild-type (WT) and IFNAR -/- mouse embryonic fibroblasts. Viremias in IFNAR1 -/- dams were similar after infection with ZIKV-MY or ZIKV-Natal, and importantly, infection of fetal brains was also not significantly different. Thus, fetal brain infection does not appear to be a unique feature of Brazilian ZIKV isolates. more...

Published

2018

33. Ilheus and Saint Louis encephalitis viruses elicit cross-protection against a lethal Rocio virus challenge in mice.

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Author

Amarilla AA, Fumagalli MJ, Figueiredo ML, Lima-Junior DS, Santos-Junior NN, Alfonso HL, Lippi V, Trabuco AC, Lauretti F, Muller VD, Colón DF, Luiz JPM, Suhrbier A, Setoh YX, Khromykh AA, Figueiredo LTM, and Aquino VH more...

Subjects

Animals, Antibodies, Neutralizing blood, Antibodies, Neutralizing immunology, Antibodies, Viral blood, Antibodies, Viral immunology, Disease Susceptibility, Encephalitis Virus, St. Louis pathogenicity, Evolution, Molecular, Female, Flavivirus Infections immunology, Flavivirus Infections mortality, Flavivirus Infections veterinary, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Survival Rate, Encephalitis Virus, St. Louis immunology, Flavivirus pathogenicity, Flavivirus Infections prevention & control

Abstract

Rocio virus (ROCV) was the causative agent of an unprecedented outbreak of encephalitis during the 1970s in the Vale do Ribeira, Sao Paulo State, in the Southeast region of Brazil. Surprisingly, no further cases of ROCV infection were identified after this outbreak; however, serological surveys have suggested the circulation of ROCV among humans and animals in different regions of Brazil. Cross-protective immunity among flaviviruses is well documented; consequently, immunity induced by infections with other flaviviruses endemic to Brazil could potentially be responsible for the lack of ROCV infections. Herein, we evaluated the cross-protection mediated by other flaviviruses against ROCV infection using an experimental C57BL/6 mouse model. Cross-protection against ROCV infection was observed when animals had prior exposure to Ilheus virus or Saint Louis encephalitis virus, suggesting that cross-reactive anti-flavivirus antibodies may limit ROCV disease outbreaks., Competing Interests: The authors have declared that no competing interests exist. more...

Published

2018

34. A vaccinia-based single vector construct multi-pathogen vaccine protects against both Zika and chikungunya viruses.

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Author

Prow NA, Liu L, Nakayama E, Cooper TH, Yan K, Eldi P, Hazlewood JE, Tang B, Le TT, Setoh YX, Khromykh AA, Hobson-Peters J, Diener KR, Howley PM, Hayball JD, and Suhrbier A

Subjects

Animals, Antibodies, Neutralizing biosynthesis, CHO Cells, Chikungunya Fever immunology, Chlorocebus aethiops, Cricetulus, Enzyme-Linked Immunosorbent Assay, Female, HeLa Cells, Humans, Male, Maternal-Fetal Exchange, Mice, Inbred C57BL, Pregnancy, Receptor, Interferon alpha-beta genetics, Vero Cells, Viral Vaccines administration & dosage, Zika Virus Infection immunology, Chikungunya Fever prevention & control, Chikungunya virus immunology, Genetic Vectors, Vaccinia virus genetics, Viral Vaccines genetics, Viral Vaccines immunology, Zika Virus immunology, Zika Virus Infection prevention & control

Abstract

Zika and chikungunya viruses have caused major epidemics and are transmitted by Aedes aegypti and/or Aedes albopictus mosquitoes. The "Sementis Copenhagen Vector" (SCV) system is a recently developed vaccinia-based, multiplication-defective, vaccine vector technology that allows manufacture in modified CHO cells. Herein we describe a single-vector construct SCV vaccine that encodes the structural polyprotein cassettes of both Zika and chikungunya viruses from different loci. A single vaccination of mice induces neutralizing antibodies to both viruses in wild-type and IFNAR -/- mice and protects against (i) chikungunya virus viremia and arthritis in wild-type mice, (ii) Zika virus viremia and fetal/placental infection in female IFNAR -/- mice, and (iii) Zika virus viremia and testes infection and pathology in male IFNAR -/- mice. To our knowledge this represents the first single-vector construct, multi-pathogen vaccine encoding large polyproteins, and offers both simplified manufacturing and formulation, and reduced "shot burden" for these often co-circulating arboviruses. more...

Published

2018

35. Characterization of Recombinant Flaviviridae Viruses Possessing a Small Reporter Tag.

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Author

Tamura T, Fukuhara T, Uchida T, Ono C, Mori H, Sato A, Fauzyah Y, Okamoto T, Kurosu T, Setoh YX, Imamura M, Tautz N, Sakoda Y, Khromykh AA, Chayama K, and Matsuura Y

Subjects

Animals, Antiviral Agents pharmacology, Cell Line, Dose-Response Relationship, Drug, Drug Discovery, Drug Evaluation, Preclinical, Flaviviridae drug effects, Genome, Viral, Hepacivirus genetics, Humans, Mice, Mutagenesis, Insertional, Flaviviridae genetics, Gene Expression, Genes, Reporter, Recombination, Genetic

Abstract

The family Flaviviridae consists of four genera, Flavivirus , Pestivirus , Pegivirus , and Hepacivirus , and comprises important pathogens of human and animals. Although the construction of recombinant viruses carrying reporter genes encoding fluorescent and bioluminescent proteins has been reported, the stable insertion of foreign genes into viral genomes retaining infectivity remains difficult. Here, we applied the 11-amino-acid subunit derived from NanoLuc luciferase to the engineering of the Flaviviridae viruses and then examined the biological characteristics of the viruses. We successfully generated recombinant viruses carrying the split-luciferase gene, including dengue virus, Japanese encephalitis virus, hepatitis C virus (HCV), and bovine viral diarrhea virus. The stability of the viruses was confirmed by five rounds of serial passages in the respective susceptible cell lines. The propagation of the recombinant luciferase viruses in each cell line was comparable to that of the parental viruses. By using a purified counterpart luciferase protein, this split-luciferase assay can be applicable in various cell lines, even when it is difficult to transduce the counterpart gene. The efficacy of antiviral reagents against the recombinant viruses could be monitored by the reduction of luciferase expression, which was correlated with that of viral RNA, and the recombinant HCV was also useful to examine viral dynamics in vivo Taken together, our findings indicate that the recombinant Flaviviridae viruses possessing the split NanoLuc luciferase gene generated here provide powerful tools to understand viral life cycle and pathogenesis and a robust platform to develop novel antivirals against Flaviviridae viruses. IMPORTANCE The construction of reporter viruses possessing a stable transgene capable of expressing specific signals is crucial to investigations of viral life cycle and pathogenesis and the development of antivirals. However, it is difficult to maintain the stability of a large foreign gene, such as those for fluorescence and bioluminescence, after insertion into a viral genome. Here, we successfully generated recombinant Flaviviridae viruses carrying the 11-amino-acid subunit derived from NanoLuc luciferase and demonstrated that these viruses are applicable to in vitro and in vivo experiments, suggesting that these recombinant Flaviviridae viruses are powerful tools for increasing our understanding of viral life cycle and pathogenesis and that these recombinant viruses will provide a robust platform to develop antivirals against Flaviviridae viruses., (Copyright © 2018 American Society for Microbiology.) more...

Published

2018

36. Full genome sequence of Rocio virus reveal substantial variations from the prototype Rocio virus SPH 34675 sequence.

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Author

Setoh YX, Amarilla AA, Peng NY, Slonchak A, Periasamy P, Figueiredo LTM, Aquino VH, and Khromykh AA

Subjects

Amino Acid Sequence, Gene Expression Regulation, Viral, Nucleic Acid Conformation, RNA, Viral, Viral Proteins genetics, Viral Proteins metabolism, Flavivirus classification, Flavivirus genetics, Genome, Viral

Abstract

Rocio virus (ROCV) is an arbovirus belonging to the genus Flavivirus, family Flaviviridae. We present an updated sequence of ROCV strain SPH 34675 (GenBank: AY632542.4), the only available full genome sequence prior to this study. Using next-generation sequencing of the entire genome, we reveal substantial sequence variation from the prototype sequence, with 30 nucleotide differences amounting to 14 amino acid changes, as well as significant changes to predicted 3'UTR RNA structures. Our results present an updated and corrected sequence of a potential emerging human-virulent flavivirus uniquely indigenous to Brazil (GenBank: MF461639). more...

Published

2018

37. Differential Diagnosis of Flavivirus Infections in Horses Using Viral Envelope Protein Domain III Antigens in Enzyme-Linked Immunosorbent Assay.

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Author

Piyasena TBH, Setoh YX, Hobson-Peters J, Prow NA, Bielefeldt-Ohmann H, Khromykh AA, Perera D, Cardosa MJ, Kirkland PD, and Hall RA

Subjects

Animals, Antibodies, Viral, Disease Outbreaks, Encephalitis, Arbovirus diagnosis, Encephalitis, Arbovirus virology, Horse Diseases diagnosis, Horses, Neutralization Tests veterinary, New South Wales epidemiology, Viral Proteins, West Nile Fever diagnosis, West Nile Fever virology, Encephalitis Virus, Murray Valley isolation & purification, Encephalitis, Arbovirus veterinary, Enzyme-Linked Immunosorbent Assay veterinary, Horse Diseases virology, West Nile Fever veterinary, West Nile virus isolation & purification

Abstract

In Australia, infection of horses with the West Nile virus (WNV) or Murray Valley encephalitis virus (MVEV) occasionally results in severe neurological disease that cannot be clinically differentiated. Confirmatory serological tests to detect antibody specific for MVEV or WNV in horses are often hampered by cross-reactive antibodies induced to conserved epitopes on the envelope (E) protein. This study utilized bacterially expressed recombinant antigens derived from domain III of the E protein (rE-DIII) of MVEV and WNV, respectively, to determine whether these subunit antigens provided specific diagnostic markers of infection with these two viruses. When a panel of 130 serum samples, from horses with known flavivirus infection status, was tested in enzyme-linked immunosorbent assay (ELISA) using rE-DIII antigens, a differential diagnosis of MVEV or WNV was achieved for most samples. Time-point samples from horses exposed to flavivirus infection during the 2011 outbreak of equine encephalitis in south-eastern Australia also indicated that the rE-DIII antigens were capable of detecting and differentiating MVEV and WNV infection in convalescent sera with similar sensitivity and specificity to virus neutralization tests and blocking ELISAs. Overall, these results indicate that the rE-DIII is a suitable antigen for use in rapid immunoassays for confirming MVEV and WNV infections in horses in the Australian context and warrant further assessment on sensitive, high-throughput serological platforms such as multiplex immune assays. more...

Published

2017

38. Helicase Domain of West Nile Virus NS3 Protein Plays a Role in Inhibition of Type I Interferon Signalling.

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Author

Setoh YX, Periasamy P, Peng NYG, Amarilla AA, Slonchak A, and Khromykh AA

Subjects

Animals, DNA Helicases genetics, DNA Helicases metabolism, Humans, Interferon Type I antagonists & inhibitors, Interferon Type I metabolism, Mice, Peptide Hydrolases chemistry, Peptide Hydrolases metabolism, Viral Nonstructural Proteins genetics, Virulence, Virus Assembly, Virus Replication, West Nile Fever virology, West Nile virus enzymology, West Nile virus genetics, West Nile virus immunology, DNA Helicases chemistry, Interferon Type I immunology, Signal Transduction, Viral Nonstructural Proteins chemistry, Viral Nonstructural Proteins physiology, West Nile virus physiology

Abstract

West Nile virus (WNV) is a neurotropic flavivirus that can cause encephalitis in mammalian and avian hosts. In America, the virulent WNV strain (NY99) is causing yearly outbreaks of encephalitis in humans and horses, while in Australia the less virulent Kunjin strain of WNV strain has not been associated with significant disease outbreaks until a recent 2011 large outbreak in horses (but not in humans) caused by NSW2011 strain. Using chimeric viruses between NY99 and NSW2011 strains we previously identified a role for the non-structural proteins of NY99 strain and especially the NS3 protein, in enhanced virus replication in type I interferon response-competent cells and increased virulence in mice. To further define the role of NY99 NS3 protein in inhibition of type I interferon response, we have generated and characterised additional chimeric viruses containing the protease or the helicase domains of NY99 NS3 on the background of the NSW2011 strain. The results identified the role for the helicase but not the protease domain of NS3 protein in the inhibition of type I interferon signalling and showed that helicase domain of the more virulent NY99 strain performs this function more efficiently than helicase domain of the less virulent NSW2011 strain. Further analysis with individual amino acid mutants identified two amino acid residues in the helicase domain primarily responsible for this difference. Using chimeric replicons, we also showed that the inhibition of type I interferon (IFN) signalling was independent of other known functions of NS3 in RNA replication and assembly of virus particles., Competing Interests: The authors declare no conflict of interest. more...

Published

2017

39. Infectious DNAs derived from insect-specific flavivirus genomes enable identification of pre- and post-entry host restrictions in vertebrate cells.

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Author

Piyasena TBH, Setoh YX, Hobson-Peters J, Newton ND, Bielefeldt-Ohmann H, McLean BJ, Vet LJ, Khromykh AA, and Hall RA

Subjects

Animals, Cell Line, Cells, Cultured, Chlorocebus aethiops, Dogs, Flavivirus drug effects, Flavivirus physiology, Humans, Interferons pharmacology, Phenotype, Promoter Regions, Genetic, Vero Cells, Vertebrates, Virus Internalization, Virus Replication drug effects, DNA, Viral, Flavivirus genetics, Flavivirus Infections virology, Genome, Viral, Host-Pathogen Interactions, Insecta virology, Viral Tropism

Abstract

Flaviviruses such as West Nile virus (WNV), dengue virus and Zika virus are mosquito-borne pathogens that cause significant human diseases. A novel group of insect-specific flaviviruses (ISFs), which only replicate in mosquitoes, have also been identified. However, little is known about the mechanisms of ISF host restriction. We report the generation of infectious cDNA from two Australian ISFs, Parramatta River virus (PaRV) and Palm Creek virus (PCV). Using circular polymerase extension cloning (CPEC) with a modified OpIE2 insect promoter, infectious cDNA was generated and transfected directly into mosquito cells to produce infectious virus indistinguishable from wild-type virus. When infectious PaRV cDNA under transcriptional control of a mammalian promoter was used to transfect mouse embryo fibroblasts, the virus failed to initiate replication even when cell entry steps were by-passed and the type I interferon response was lacking. We also used CPEC to generate viable chimeric viruses between PCV and WNV. Analysis of these hybrid viruses revealed that ISFs are also restricted from replication in vertebrate cells at the point of entry. The approaches described here to generate infectious ISF DNAs and chimeric viruses provide unique tools to further dissect the mechanisms of their host restriction. more...

Published

2017

40. Genetic characterization of Cacipacoré virus from ticks collected in São Paulo State, Brazil.

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Author

de Figueiredo GG, Amarilla AA, de Souza WM, Fumagalli MJ, de Figueiredo MLG, Szabó MPJ, Badra SJ, Setoh YX, Khromykh AA, Aquino VH, and Figueiredo LTM

Subjects

Animals, Brazil, Flavivirus classification, Flavivirus Infections transmission, Flavivirus Infections virology, Genome, Viral, Phylogeny, Rodent Diseases transmission, Rodentia, Viral Proteins genetics, Arachnid Vectors virology, Flavivirus genetics, Flavivirus isolation & purification, Flavivirus Infections veterinary, Rodent Diseases virology, Ticks virology

Abstract

Cacipacoré virus (CPCV) is a potential emerging virus classified in the genus Flavivirus, family Flaviviridae. In the present study, we present the genetic characterization of a CPCV isolated from ticks (Amblyomma cajennense) collected from a sick capybara (Hydrochoerus hydrochaeris) in São Paulo State, Brazil. The CPCV isolate shares the typical genomic organization of flaviviruses with 10,857 nucleotides in length and a single open reading frame of 10,284 nucleotides encoding a polyprotein of 3,427 amino acids. Phylogenetic analysis revealed that CPCV is unique, as a potentially tick-borne virus, in the Japanese encephalitis virus serogroup. more...

Published

2017

41. De Novo Generation and Characterization of New Zika Virus Isolate Using Sequence Data from a Microcephaly Case.

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Author

Setoh YX, Prow NA, Peng N, Hugo LE, Devine G, Hazlewood JE, Suhrbier A, and Khromykh AA

Abstract

Zika virus (ZIKV) has recently emerged and is the etiological agent of congenital Zika syndrome (CZS), a spectrum of congenital abnormalities arising from neural tissue infections in utero . Herein, we describe the de novo generation of a new ZIKV isolate, ZIKV Natal , using a modified circular polymerase extension reaction protocol and sequence data obtained from a ZIKV-infected fetus with microcephaly. ZIKV Natal thus has no laboratory passage history and is unequivocally associated with CZS. ZIKV Natal could be used to establish a fetal brain infection model in IFNAR -/- mice (including intrauterine growth restriction) without causing symptomatic infections in dams. ZIKV Natal was also able to be transmitted by Aedes aegypti mosquitoes. ZIKV Natal thus retains key aspects of circulating pathogenic ZIKVs and illustrates a novel methodology for obtaining an authentic functional viral isolate by using data from deep sequencing of infected tissues. IMPORTANCE The major complications of an ongoing Zika virus outbreak in the Americas and Asia are congenital defects caused by the virus's ability to cross the placenta and infect the fetal brain. The ability to generate molecular tools to analyze viral isolates from the current outbreak is essential for furthering our understanding of how these viruses cause congenital defects. The majority of existing viral isolates and infectious cDNA clones generated from them have undergone various numbers of passages in cell culture and/or suckling mice, which is likely to result in the accumulation of adaptive mutations that may affect viral properties. The approach described herein allows rapid generation of new, fully functional Zika virus isolates directly from deep sequencing data from virus-infected tissues without the need for prior virus passaging and for the generation and propagation of full-length cDNA clones. The approach should be applicable to other medically important flaviviruses and perhaps other positive-strand RNA viruses. more...

Published

2017

42. Chimeric viruses between Rocio and West Nile: the role for Rocio prM-E proteins in virulence and inhibition of interferon-α/β signaling.

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Author

Amarilla AA, Setoh YX, Periasamy P, Peng NY, Pali G, Figueiredo LT, Khromykh AA, and Aquino VH

Subjects

Animals, Cloning, Molecular, DNA, Complementary genetics, Female, HEK293 Cells, Humans, Janus Kinases metabolism, Mice, Inbred C57BL, Phosphorylation, STAT Transcription Factors metabolism, Virulence, Virus Replication, Flaviviridae pathogenicity, Interferon-alpha metabolism, Interferon-beta metabolism, Signal Transduction, Viral Proteins metabolism, West Nile virus pathogenicity

Abstract

Mosquito-transmitted flavivirus Rocio (ROCV) was responsible for an outbreak of encephalitis in the Ribeira Valley, located in the south coast of Sao Paulo State, Brazil, in 1975-1976. ROCV also causes fatal encephalitis in adult mice. Seroprevalence studies in humans, horses and water buffaloes in different regions of Brazil have suggested that ROCV is still circulating in the country, indicating the risk of re-emergence of this virus. West Nile virus (WNV) is also a mosquito-transmitted encephalitic flavivirus, however, WNV strains circulating in Australia have not been associated with outbreaks of disease in humans and exhibit low virulence in adult mice. To identify viral determinants of ROCV virulence, we have generated reciprocal chimeric viruses between ROCV and the Australian strain of WNV by swapping structural prM and E genes. Chimeric WNV containing ROCV prM-E genes replicated more efficiently than WNV or chimeric ROCV containing WNV prM-E genes in mammalian cells, was as virulent as ROCV in adult mice, and inhibited type I IFN signaling as efficiently as ROCV. The results show that ROCV prM and E proteins are major virulence determinants and identify unexpected function of these proteins in inhibition of type I interferon response. more...

Published

2017

43. Successful post-exposure prophylaxis of Ebola infected non-human primates using Ebola glycoprotein-specific equine IgG.

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Author

Pyankov OV, Setoh YX, Bodnev SA, Edmonds JH, Pyankova OG, Pyankov SA, Pali G, Belford S, Lu L, La M, Lovrecz G, Volchkova VA, Chappell KJ, Watterson D, Marsh G, Young PR, Agafonov AA, Farmer JF, Volchkov VE, Suhrbier A, and Khromykh AA more...

Subjects

Animals, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Antibodies, Viral isolation & purification, Antibody Specificity immunology, Glycoproteins immunology, Horses, Immunoglobulin G immunology, Immunoglobulin G isolation & purification, Macaca fascicularis, Antibodies, Viral administration & dosage, Antigens, Viral immunology, Ebolavirus immunology, Hemorrhagic Fever, Ebola immunology, Hemorrhagic Fever, Ebola prevention & control, Immunoglobulin G administration & dosage, Post-Exposure Prophylaxis

Abstract

Herein we describe production of purified equine IgG obtained from horses immunized with plasmid DNA followed by boosting with Kunjin replicon virus-like particles both encoding a modified Ebola glycoprotein. Administration of the equine IgG over 5 days to cynomolgus macaques infected 24 hours previously with a lethal dose of Ebola virus suppressed viral loads by more than 5 logs and protected animals from mortality. Animals generated their own Ebola glycoprotein-specific IgG responses 9-15 days after infection, with circulating virus undetectable by day 15-17. Such equine IgG may find utility as a post-exposure prophylactic for Ebola infection and provides a low cost, scalable alternative to monoclonal antibodies, with extensive human safety data and WHO-standardized international manufacturing capability available in both high and low income countries., Competing Interests: No competing financial interests for all authors. JFF is employed by the United Nations and views expressed herein are those of the author(s) and do not necessarily reflect the views of the United Nations. more...

Published

2017

44. Virulence and Evolution of West Nile Virus, Australia, 1960-2012.

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Author

Prow NA, Edmonds JH, Williams DT, Setoh YX, Bielefeldt-Ohmann H, Suen WW, Hobson-Peters J, van den Hurk AF, Pyke AT, Hall-Mendelin S, Northill JA, Johansen CA, Warrilow D, Wang J, Kirkland PD, Doggett S, Andrade CC, Brault AC, Khromykh AA, and Hall RA more...

Subjects

Amino Acid Sequence, Animals, Antibodies, Monoclonal, Antibody Specificity, Antigens, Viral genetics, Australia epidemiology, Cell Line, Evolution, Molecular, Genome, Viral, Humans, Mice, Virulence, West Nile Fever epidemiology, West Nile Fever virology, West Nile virus genetics, West Nile virus pathogenicity

Abstract

Worldwide, West Nile virus (WNV) causes encephalitis in humans, horses, and birds. The Kunjin strain of WNV (WNVKUN) is endemic to northern Australia, but infections are usually asymptomatic. In 2011, an unprecedented outbreak of equine encephalitis occurred in southeastern Australia; most of the ≈900 reported cases were attributed to a newly emerged WNVKUN strain. To investigate the origins of this virus, we performed genetic analysis and in vitro and in vivo studies of 13 WNVKUN isolates collected from different regions of Australia during 1960-2012. Although no disease was recorded for 1984, 2000, or 2012, isolates collected during those years (from Victoria, Queensland, and New South Wales, respectively) exhibited levels of virulence in mice similar to that of the 2011 outbreak strain. Thus, virulent strains of WNVKUN have circulated in Australia for >30 years, and the first extensive outbreak of equine disease in Australia probably resulted from a combination of specific ecologic and epidemiologic conditions. more...

Published

2016

45. Detection of emergent strains of West Nile virus with a blood screening assay.

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Author

Faddy HM, Flower RL, Seed CR, Ismay S, Ong E, Linnen JM, Cory R, Holmberg JA, Hall RA, Setoh YX, Deerain JM, and Prow NA

Subjects

Animals, Horses, Humans, Mass Screening standards, Nucleic Acid Amplification Techniques standards, Real-Time Polymerase Chain Reaction methods, Real-Time Polymerase Chain Reaction standards, Transfusion Reaction, West Nile Fever prevention & control, West Nile Fever transmission, Blood Donors, Mass Screening methods, Nucleic Acid Amplification Techniques methods, West Nile virus genetics

Abstract

Background: West Nile virus (WNV) is a threat to transfusion safety. WNV Kunjin strain (WNVKUN ) is endemic across parts of Australia; however, human infection is believed to be infrequent and is often associated with relatively minor symptoms. A virulent strain, closely related to WNVKUN (termed WNVNSW2011 ) was recently identified as the etiologic agent of encephalitis in Australian horses. The aim of this project was to investigate whether a commercially available WNV blood screening assay can detect different strains of WNVKUN , including the virulent WNVNSW2011 , in human blood donor samples., Study Design and Methods: Plasma samples were spiked with four different strains of WNVKUN , as well as a prototype WNV strain, at high, medium, and low viral loads. Spiking was confirmed with real-time reverse transcription-polymerase chain reaction (RT-PCR), before testing with the Procleix WNV transcription-mediated amplification (TMA) blood screening assay (Grifols)., Results: All WNV strains used were detectable by RT-PCR after being spiked into plasma. Additionally, all viral spiked samples were reactive by WNV TMA., Conclusion: We experimentally demonstrate that a commercially available WNV blood screening assay can detect different strains of WNVKUN . Given that WNV can be transfusion transmissible, it is essential to confirm that emergent strains are detectable by existing blood screening methods., (© 2015 AABB.) more...

Published

2016

46. End-point disease investigation for virus strains of intermediate virulence as illustrated by flavivirus infections.

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Author

Suen WW, Prow NA, Setoh YX, Hall RA, and Bielefeldt-Ohmann H

Subjects

Animals, Histocytochemistry, Injections, Intraperitoneal, Mice, Nervous System pathology, Nervous System virology, Reproducibility of Results, Survival Analysis, Viral Load, Virulence, Disease Models, Animal, Encephalitis Virus, Murray Valley physiology, Flavivirus Infections pathology, Flavivirus Infections virology, West Nile virus physiology

Abstract

Viruses of intermediate virulence are defined as isolates causing an intermediate morbidity/mortality rate in a specific animal model system, involving specific host and inoculation parameters (e.g. dose and route). Therefore, variable disease phenotype may exist between animals that develop severe disease or die and those that are asymptomatic or survive after infection with these isolates. There may also be variability amongst animals within each of these subsets. Such potential variability may confound the use of time-point sacrifice experiments to investigate pathogenesis of this subset of virus strains, as uniformity in disease outcome is a fundamental assumption for time-course sacrifice experiments. In the current study, we examined the disease phenotype, neuropathology, neural infection and glial cell activity in moribund/dead and surviving Swiss white (CD-1) mice after intraperitoneal infection with various Australian flaviviruses, including West Nile virus (WNV) strains of intermediate virulence (WNVNSW2011 and WNVNSW2012), and highly virulent Murray Valley encephalitis virus (MVEV) isolates. We identified notable intragroup variation in the end-point disease in mice infected with either WNVNSW strain, but to a lesser extent in mice infected with MVEV strains. The variable outcomes associated with WNVNSW infection suggest that pathogenesis investigations using time-point sacrifice of WNVNSW-infected mice may not be the best approach, as the assumption of uniformity in outcomes is violated. Our study has therefore highlighted a previously unacknowledged challenge to investigating pathogenesis of virus isolates of intermediate virulence. We have also set a precedent for routine examination of the disease phenotype in moribund/dead and surviving mice during survival challenge experiments. more...

Published

2016

47. A Kunjin Replicon Virus-like Particle Vaccine Provides Protection Against Ebola Virus Infection in Nonhuman Primates.

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Author

Pyankov OV, Bodnev SA, Pyankova OG, Solodkyi VV, Pyankov SA, Setoh YX, Volchkova VA, Suhrbier A, Volchkov VV, Agafonov AA, and Khromykh AA

Subjects

Africa, Western, Animals, Chlorocebus aethiops, Glycoproteins immunology, Immunization methods, Primates, Viral Proteins immunology, Ebola Vaccines immunology, Ebolavirus immunology, Hemorrhagic Fever, Ebola immunology, Replicon immunology, Vaccines, Virus-Like Particle immunology, West Nile virus immunology

Abstract

The current unprecedented outbreak of Ebola virus (EBOV) disease in West Africa has demonstrated the urgent need for a vaccine. Here, we describe the evaluation of an EBOV vaccine candidate based on Kunjin replicon virus-like particles (KUN VLPs) encoding EBOV glycoprotein with a D637L mutation (GP/D637L) in nonhuman primates. Four African green monkeys (Cercopithecus aethiops) were injected subcutaneously with a dose of 10(9) KUN VLPs per animal twice with an interval of 4 weeks, and animals were challenged 3 weeks later intramuscularly with 600 plaque-forming units of Zaire EBOV. Three animals were completely protected against EBOV challenge, while one vaccinated animal and the control animal died from infection. We suggest that KUN VLPs encoding GP/D637L represent a viable EBOV vaccine candidate., (© The Author 2015. Published by Oxford University Press on behalf of the Infectious Diseases Society of America. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.) more...

Published

2015

48. Post-translational regulation and modifications of flavivirus structural proteins.

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Author

Roby JA, Setoh YX, Hall RA, and Khromykh AA

Subjects

Glycosylation, Humans, Protein Multimerization, Proteolysis, Virus Assembly, Virus Release, Capsid Proteins metabolism, Flavivirus physiology, Gene Expression Regulation, Viral, Host-Pathogen Interactions, Protein Processing, Post-Translational, Viral Envelope Proteins metabolism

Abstract

Flaviviruses are a group of single-stranded, positive-sense RNA viruses that generally circulate between arthropod vectors and susceptible vertebrate hosts, producing significant human and veterinary disease burdens. Intensive research efforts have broadened our scientific understanding of the replication cycles of these viruses and have revealed several elegant and tightly co-ordinated post-translational modifications that regulate the activity of viral proteins. The three structural proteins in particular - capsid (C), pre-membrane (prM) and envelope (E) - are subjected to strict regulatory modifications as they progress from translation through virus particle assembly and egress. The timing of proteolytic cleavage events at the C-prM junction directly influences the degree of genomic RNA packaging into nascent virions. Proteolytic maturation of prM by host furin during Golgi transit facilitates rearrangement of the E proteins at the virion surface, exposing the fusion loop and thus increasing particle infectivity. Specific interactions between the prM and E proteins are also important for particle assembly, as prM acts as a chaperone, facilitating correct conformational folding of E. It is only once prM/E heterodimers form that these proteins can be secreted efficiently. The addition of branched glycans to the prM and E proteins during virion transit also plays a key role in modulating the rate of secretion, pH sensitivity and infectivity of flavivirus particles. The insights gained from research into post-translational regulation of structural proteins are beginning to be applied in the rational design of improved flavivirus vaccine candidates and make attractive targets for the development of novel therapeutics. more...

Published

2015

49. Systematic analysis of viral genes responsible for differential virulence between American and Australian West Nile virus strains.

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Author

Setoh YX, Prow NA, Rawle DJ, Tan CSE, Edmonds JH, Hall RA, and Khromykh AA

Subjects

Animals, Australia, Disease Models, Animal, Genetic Complementation Test, Horses, Humans, Immune Evasion, Interferon Type I antagonists & inhibitors, Mice, Recombination, Genetic, United States, Viral Nonstructural Proteins genetics, Viral Nonstructural Proteins metabolism, Virulence, Virus Replication, West Nile Fever pathology, West Nile Fever virology, West Nile virus growth & development, West Nile virus isolation & purification, Genes, Viral, West Nile virus genetics, West Nile virus physiology

Abstract

A variant Australian West Nile virus (WNV) strain, WNVNSW2011, emerged in 2011 causing an unprecedented outbreak of encephalitis in horses in south-eastern Australia. However, no human cases associated with this strain have yet been reported. Studies using mouse models for WNV pathogenesis showed that WNVNSW2011 was less virulent than the human-pathogenic American strain of WNV, New York 99 (WNVNY99). To identify viral genes and mutations responsible for the difference in virulence between WNVNSW2011 and WNVNY99 strains, we constructed chimeric viruses with substitution of large genomic regions coding for the structural genes, non-structural genes and untranslated regions, as well as seven individual non-structural gene chimeras, using a modified circular polymerase extension cloning method. Our results showed that the complete non-structural region of WNVNSW2011, when substituted with that of WNVNY99, significantly enhanced viral replication and the ability to suppress type I IFN response in cells, resulting in higher virulence in mice. Analysis of the individual non-structural gene chimeras showed a predominant contribution of WNVNY99 NS3 to increased virus replication and evasion of IFN response in cells, and to virulence in mice. Other WNVNY99 non-structural proteins (NS2A, NS4B and NS5) were shown to contribute to the modulation of IFN response. Thus a combination of non-structural proteins, likely NS2A, NS3, NS4B and NS5, is primarily responsible for the difference in virulence between WNVNSW2011 and WNVNY99 strains, and accumulative mutations within these proteins would likely be required for the Australian WNVNSW2011 strain to become significantly more virulent., (© 2015 The Authors.) more...

Published

2015

50. The I22V and L72S substitutions in West Nile virus prM protein promote enhanced prM/E heterodimerisation and nucleocapsid incorporation.

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Author

Setoh YX, Tan CS, Prow NA, Hobson-Peters J, Young PR, Khromykh AA, and Hall RA

Subjects

Amino Acid Substitution, Animals, Mutant Proteins genetics, Mutant Proteins metabolism, West Nile virus genetics, Protein Multimerization, Viral Envelope Proteins genetics, Viral Envelope Proteins metabolism, Virus Release, West Nile virus physiology

Abstract

Background: Amino acid substitutions I22V and L72S in the prM protein of West Nile virus Kunjin strain (WNVKUN) were previously shown to enhance virus secretion and virulence, but a mechanism by which this occurred was not determined., Findings: Using pulse-chase experiments followed by co-immunoprecipitation with anti-E antibody, we demonstrated that the I22V and L72S substitutions enhanced prM/E heterodimerization for both the E-glycosylated and E-unglycosylated virus. Furthermore, analysis of secreted particles revealed that I22V and L72S substitutions also enhanced nucleocapsid incorporation., Conclusions: We have demonstrated mechanistically that improved secretion of virus particles in the presence of I22V and L72S substitutions was contributed by more efficient prM/E heterodimerization. more...

Published

2015