Your search keyword '"Abbo, Sandra R."' showing total 14 results

1. The potential role of the Asian bush mosquito Aedes japonicus as spillover vector for West Nile virus in the Netherlands

Author

Linthout, Charlotte, Martins, Afonso Dimas, de Wit, Mariken, Delecroix, Clara, Abbo, Sandra R., Pijlman, Gorben P., and Koenraadt, Constantianus J. M.

Published

2024

2. Safety concern of recombination between self-amplifying mRNA vaccines and viruses is mitigated in vivo

Author

Hick, Tessy A.H., Geertsema, Corinne, Nguyen, Wilson, Bishop, Cameron R., van Oosten, Linda, Abbo, Sandra R., Dumenil, Troy, van Kuppeveld, Frank J.M., Langereis, Martijn A., Rawle, Daniel J., Tang, Bing, Yan, Kexin, van Oers, Monique M., Suhrbier, Andreas, and Pijlman, Gorben P.

Published

2024

3. Zika vector competence data reveals risks of outbreaks: the contribution of the European ZIKAlliance project

Author

Obadia, Thomas, Gutierrez-Bugallo, Gladys, Duong, Veasna, Nuñez, Ana I., Fernandes, Rosilainy S., Kamgang, Basile, Hery, Liza, Gomard, Yann, Abbo, Sandra R., Jiolle, Davy, Glavinic, Uros, Dupont-Rouzeyrol, Myrielle, Atyame, Célestine M., Pocquet, Nicolas, Boyer, Sébastien, Dauga, Catherine, Vazeille, Marie, Yébakima, André, White, Michael T., Koenraadt, Constantianus J. M., Mavingui, Patrick, Vega-Rua, Anubis, Veronesi, Eva, Pijlman, Gorben P., Paupy, Christophe, Busquets, Núria, Lourenço-de-Oliveira, Ricardo, De Lamballerie, Xavier, and Failloux, Anna-Bella

Published

2022

4. Subgenomic flavivirus RNA binds the mosquito DEAD/H-box helicase ME31B and determines Zika virus transmission by Aedes aegypti

Author

Göertz, Giel P., van Bree, Joyce W. M., Hiralal, Anwar, Fernhout, Bas M., Steffens, Carmen, Boeren, Sjef, Visser, Tessa M., Vogels, Chantal B. F., Abbo, Sandra R., Fros, Jelke J., Koenraadt, Constantianus J. M., van Oers, Monique M., and Pijlman, Gorben P.

Published

2019

5. Functional RNA during Zika virus infection

Author

Göertz, Giel P., Abbo, Sandra R., Fros, Jelke J., and Pijlman, Gorben P.

Published

2018

6. The virome of the invasive Asian bush mosquito Aedes japonicus in Europe.

Author

Abbo, Sandra R, Almeida, João P P de, Olmo, Roenick P, Balvers, Carlijn, Griep, Jet S, Linthout, Charlotte, Koenraadt, Constantianus J M, Silva, Bruno M, Fros, Jelke J, Aguiar, Eric R G R, Marois, Eric, Pijlman, Gorben P, and Marques, João T

Subjects

REVERSE transcriptase polymerase chain reaction, AEDES, RNA replicase, SMALL interfering RNA, MOSQUITOES

Abstract

The Asian bush mosquito Aedes japonicus is rapidly invading North America and Europe. Due to its potential to transmit multiple pathogenic arthropod–borne (arbo)viruses including Zika virus, West Nile virus, and chikungunya virus, it is important to understand the biology of this vector mosquito in more detail. In addition to arboviruses, mosquitoes can also carry insect-specific viruses that are receiving increasing attention due to their potential effects on host physiology and arbovirus transmission. In this study, we characterized the collection of viruses, referred to as the virome, circulating in Ae. japonicus populations in the Netherlands and France. Applying a small RNA-based metagenomic approach to Ae. japonicus , we uncovered a distinct group of viruses present in samples from both the Netherlands and France. These included one known virus, Ae. japonicus narnavirus 1 (AejapNV1), and three new virus species that we named Ae. japonicus totivirus 1 (AejapTV1), Ae. japonicus anphevirus 1 (AejapAV1) and Ae. japonicus bunyavirus 1 (AejapBV1). We also discovered sequences that were presumably derived from two additional novel viruses: Ae. japonicus bunyavirus 2 (AejapBV2) and Ae. japonicus rhabdovirus 1 (AejapRV1). All six viruses induced strong RNA interference responses, including the production of twenty-one nucleotide-sized small interfering RNAs, a signature of active replication in the host. Notably, AejapBV1 and AejapBV2 belong to different viral families; however, no RNA-dependent RNA polymerase sequence has been found for AejapBV2. Intriguingly, our small RNA-based approach identified an ∼1-kb long ambigrammatic RNA that is associated with AejapNV1 as a secondary segment but showed no similarity to any sequence in public databases. We confirmed the presence of AejapNV1 primary and secondary segments, AejapTV1, AejapAV1, and AejapBV1 by reverse transcriptase polymerase chain reaction (PCR) in wild-caught Ae. japonicus mosquitoes. AejapNV1 and AejapTV1 were found at high prevalence (87–100 per cent) in adult females, adult males, and larvae. Using a small RNA-based, sequence-independent metagenomic strategy, we uncovered a conserved and prevalent virome among Ae. japonicus mosquito populations. The high prevalence of AejapNV1 and AejapTV1 across all tested mosquito life stages suggests that these viruses are intimately associated with Ae. japonicus. [ABSTRACT FROM AUTHOR]

Published

2023

7. Competition between two Usutu virus isolates in cell culture and in the common house mosquito Culex pipiens.

Author

van Bree, Joyce W. M., Linthout, Charlotte, van Dijk, Teije, Abbo, Sandra R., Fros, Jelke J., Koenraadt, Constantianus J. M., Pijlman, Gorben P., and Haidong Wang

Subjects

CULEX pipiens, CELL culture, MOSQUITOES, MOSQUITO vectors, CULEX, MIXED infections, CELL lines

Abstract

Usutu virus (USUV) is a mosquito-borne flavivirus of African origin. Over the past decades, USUV has spread through Europe causing mass die-offs among multiple bird species. The natural transmission cycle of USUV involves Culex spp. mosquitoes as vectors and birds as amplifying hosts. Next to birds and mosquitoes, USUV has also been isolated from multiple mammalian species, including humans, which are considered dead-end hosts. USUV isolates are phylogenetically classified into an African and European branch, subdivided into eight genetic lineages (Africa 1, 2, and 3 and Europe 1, 2, 3, 4, and 5 lineages). Currently, multiple African and European lineages are co-circulating in Europe. Despite increased knowledge of the epidemiology and pathogenicity of the different lineages, the effects of co-infection and transmission effcacy of the co- circulating USUV strains remain unclear. In this study, we report a comparative study between two USUV isolates as follows: a Dutch isolate (USUV-NL, Africa lineage 3) and an Italian isolate (USUV-IT, Europe lineage 2). Upon co-infection, USUV-NL was consistently outcompeted by USUV-IT in mosquito, mammalian, and avian cell lines. In mosquito cells, the fitness advantage of USUV-IT was most prominently observed in comparison to the mammalian or avian cell lines. When Culex pipiensmosquitoes were orally infected with the different isolates, no overall differences in vector competence for USUV-IT and USUV-NL were observed. However, during the in vivo co-infection assay, it was observed that USUV-NL infectivity and transmission were negatively affected by USUV-IT but not vice versa. [ABSTRACT FROM AUTHOR]

Published

2023

8. Comparative Efficacy of Mayaro Virus-Like Particle Vaccines Produced in Insect or Mammalian Cells.

Author

Abbo, Sandra R., Nguyen, Wilson, Abma-Henkens, Marleen H. C., vandeKamer, Denise, Savelkoul, NiekH. A., Geertsema, Corinne, Le, Thuy T. T., Tang, Bing, Yan, Kexin, Dumenil, Troy, van Oers, Monique M., Suhrbier, Andreas, and Pijlman, Gorben P.

Subjects

*VIRUS-like particles, *MICE, *CHIKUNGUNYA virus, *VACCINES, *ANTIBODY titer, *TROPICAL medicine

Abstract

Mayaro virus (MAYV) is a mosquito-transmitted alphavirus that causes often debilitating rheumatic disease in tropical Central and South America. There are currently no licensed vaccines or antiviral drugs available for MAYV disease. Here, we generated Mayaro virus-like particles (VLPs) using the scalable baculovirus-insect cell expression system. High-level secretion of MAYV VLPs in the culture fluid of Sf9 insect cells was achieved, and particles with a diameter of 64 to 70 nm were obtained after purification. We characterize a C57BL/6J adult wild-type mouse model of MAYV infection and disease and used this model to compare the immunogenicity of VLPs from insect cells with that of VLPs produced in mammalian cells. Mice received two intramuscular immunizations with 1 mg of nonadjuvanted MAYV VLPs. Potent neutralizing antibody responses were generated against the vaccine strain, BeH407, with comparable activity seen against a contemporary 2018 isolate from Brazil (BR-18), whereas neutralizing activity against chikungunya virus was marginal. Sequencing of BR-18 illustrated that this virus segregates with genotype D isolates, whereas MAYV BeH407 belongs to genotype L. The mammalian cell-derived VLPs induced higher mean neutralizing antibody titers than those produced in insect cells. Both VLP vaccines completely protected adult wild-type mice against viremia, myositis, tendonitis, and joint inflammation after MAYV challenge. [ABSTRACT FROM AUTHOR]

Published

2023

9. Effect of blood source on vector competence of Culex pipiens biotypes for Usutu virus.

Author

Abbo, Sandra R., Visser, Tessa M., Koenraadt, Constantianus J. M., Pijlman, Gorben P., and Wang, Haidong

Subjects

*CULEX pipiens, *ARBOVIRUS diseases, *ARTHROPOD vectors, *MOSQUITO vectors, *MOSQUITOES, *INFECTIOUS disease transmission, *SALIVA

Abstract

Background: Infectious blood meal experiments have been frequently performed with different virus-vector combinations to assess the transmission potential of arthropod-borne (arbo)viruses. A wide variety of host blood sources have been used to deliver arboviruses to their arthropod vectors in laboratory studies. The type of blood used during vector competence experiments does not always reflect the blood from the viremic vertebrate hosts in the field, but little is known about the effect of blood source on the experimental outcome of vector competence studies. Here we investigated the effect of avian versus human blood on the infection and transmission rates of the zoonotic Usutu virus (USUV) in its primary mosquito vector Culex pipiens. Methods: Cx. pipiens biotypes (pipiens and molestus) were orally infected with USUV through infectious blood meals containing either chicken or human whole blood. The USUV infection and transmission rates were determined by checking mosquito bodies and saliva for USUV presence after 14 days of incubation at 28 °C. In addition, viral titers were determined for USUV-positive mosquito bodies and saliva. Results: Human and chicken blood lead to similar USUV transmission rates for Cx. pipiens biotype pipiens (18% and 15%, respectively), while human blood moderately but not significantly increased the transmission rate (30%) compared to chicken blood (17%) for biotype molestus. USUV infection rates with human blood were consistently higher in both Cx. pipiens biotypes compared to chicken blood. In virus-positive mosquitoes, USUV body and saliva titers did not differ between mosquitoes taking either human or chicken blood. Importantly, biotype molestus had much lower USUV saliva titers compared to biotype pipiens, regardless of which blood was offered. Conclusions: Infection of mosquitoes with human blood led to higher USUV infection rates as compared to chicken blood. However, the blood source had no effect on the vector competence for USUV. Interestingly, biotype molestus is less likely to transmit USUV compared to biotype pipiens due to very low virus titers in the saliva. [ABSTRACT FROM AUTHOR]

Published

2021

10. Competition between Usutu virus and West Nile virus during simultaneous and sequential infection of Culex pipiens mosquitoes.

Author

Wang, Haidong, Abbo, Sandra R., Visser, Tessa M., Westenberg, Marcel, Geertsema, Corinne, Fros, Jelke J., Koenraadt, Constantianus J. M., and Pijlman, Gorben P.

Published

2020

11. The invasive Asian bush mosquito Aedes japonicus found in the Netherlands can experimentally transmit Zika virus and Usutu virus.

Author

Abbo, Sandra R., Visser, Tessa M., Wang, Haidong, Göertz, Giel P., Fros, Jelke J., Abma-Henkens, Marleen H. C., Geertsema, Corinne, Vogels, Chantal B. F., Koopmans, Marion P. G., Reusken, Chantal B. E. M., Hall-Mendelin, Sonja, Hall, Roy A., van Oers, Monique M., Koenraadt, Constantianus J. M., and Pijlman, Gorben P.

Subjects

*ALPHAVIRUSES, *ZIKA virus, *AEDES, *MOSQUITOES, *SMALL interfering RNA, *WEST Nile virus

Abstract

Background: The Asian bush mosquito Aedes japonicus is invading Europe and was first discovered in Lelystad, the Netherlands in 2013, where it has established a permanent population. In this study, we investigated the vector competence of Ae. japonicus from the Netherlands for the emerging Zika virus (ZIKV) and zoonotic Usutu virus (USUV). ZIKV causes severe congenital microcephaly and Guillain-Barré syndrome in humans. USUV is closely related to West Nile virus, has recently spread throughout Europe and is causing mass mortality of birds. USUV infection in humans can result in clinical manifestations ranging from mild disease to severe neurological impairments. Methodology/Principal findings: In our study, field-collected Ae. japonicus females received an infectious blood meal with ZIKV or USUV by droplet feeding. After 14 days at 28°C, 3% of the ZIKV-blood fed mosquitoes and 13% of the USUV-blood fed mosquitoes showed virus-positive saliva, indicating that Ae. japonicus can transmit both viruses. To investigate the effect of the mosquito midgut barrier on virus transmission, female mosquitoes were intrathoracically injected with ZIKV or USUV. Of the injected mosquitoes, 96% (ZIKV) and 88% (USUV) showed virus-positive saliva after 14 days at 28°C. This indicates that ZIKV and USUV can efficiently replicate in Ae. japonicus but that a strong midgut barrier is normally restricting virus dissemination. Small RNA deep sequencing of orally infected mosquitoes confirmed active replication of ZIKV and USUV, as demonstrated by potent small interfering RNA responses against both viruses. Additionally, de novo small RNA assembly revealed the presence of a novel narnavirus in Ae. japonicus. Conclusions/Significance: Given that Ae. japonicus can experimentally transmit arthropod-borne viruses (arboviruses) like ZIKV and USUV and is currently expanding its territories, we should consider this mosquito as a potential vector for arboviral diseases in Europe. Author summary: Arthropod-borne viruses (arboviruses) cause a high disease burden in humans and animals. Zika virus (ZIKV) causes microcephaly and Guillain-Barré syndrome in humans, whereas Usutu virus (USUV) induces high mortality in birds and neurological disease in humans. The spread of arboviruses such as ZIKV and USUV is determined by the presence of mosquitoes that can transmit these viruses from one vertebrate host to the next. Here, we investigate the risk of transmission of ZIKV and USUV by the Asian bush mosquito Aedes japonicus. This mosquito is invading Europe and is currently present in the Netherlands. We found that field-collected Ae. japonicus mosquitoes can experimentally transmit ZIKV and USUV. Of the orally infected mosquitoes, 3% (ZIKV) and 13% (USUV) showed virus-positive saliva after 14 days at 28°C. We also found that ZIKV and USUV activated the antiviral RNA interference immune response of Ae. japonicus. Moreover, a strong barrier in the mosquito midgut restricted virus dissemination, since 96% (ZIKV) and 88% (USUV) of the mosquitoes injected with ZIKV or USUV showed virus-positive saliva. Additionally, we discovered a narnavirus in Ae. japonicus. Given that Ae. japonicus can transmit ZIKV and USUV, we should consider this mosquito as a potential vector for arboviral diseases in Europe. [ABSTRACT FROM AUTHOR]

Published

2020

12. Competition between Usutu virus and West Nile virus during simultaneous and sequential infection of Culex pipiens mosquitoes.

Author

Haidong Wang, Abbo, Sandra R., Visser, Tessa M., Westenberg, Marcel, Geertsema, Corinne, Fros, Jelke J., Koenraadt, Constantianus J. M., and Pijlman, Gorben P.

Published

2020

13. Relocation of the attTn7 Transgene Insertion Site in Bacmid DNA Enhances Baculovirus Genome Stability and Recombinant Protein Expression in Insect Cells.

Author

Pijlman, Gorben P., Grose, Carissa, Hick, Tessy A. H., Breukink, Herman E., van den Braak, Robin, Abbo, Sandra R., Geertsema, Corinne, van Oers, Monique M., Martens, Dirk E., Esposito, Dominic, Varanda, Carla, and Materatski, Patrick

Subjects

RECOMBINANT proteins, PROTEIN expression, PROTEIN stability, GENOMES, EUKARYOTIC cells, TRANSGENE expression, DNA insertion elements

Abstract

Baculovirus expression vectors are successfully used for the commercial production of complex (glyco)proteins in eukaryotic cells. The genome engineering of single-copy baculovirus infectious clones (bacmids) in E. coli has been valuable in the study of baculovirus biology, but bacmids are not yet widely applied as expression vectors. An important limitation of first-generation bacmids for large-scale protein production is the rapid loss of gene of interest (GOI) expression. The instability is caused by the mini-F replicon in the bacmid backbone, which is non-essential for baculovirus replication in insect cells, and carries the adjacent GOI in between attTn7 transposition sites. In this paper, we test the hypothesis that relocation of the attTn7 transgene insertion site away from the mini-F replicon prevents deletion of the GOI, thereby resulting in higher and prolonged recombinant protein expression levels. We applied lambda red genome engineering combined with SacB counterselection to generate a series of bacmids with relocated attTn7 sites and tested their performance by comparing the relative expression levels of different GOIs. We conclude that GOI expression from the odv-e56 (pif-5) locus results in higher overall expression levels and is more stable over serial passages compared to the original bacmid. Finally, we evaluated this improved next-generation bacmid during a bioreactor scale-up of Sf9 insect cells in suspension to produce enveloped chikungunya virus-like particles as a model vaccine. [ABSTRACT FROM AUTHOR]

Published

2020

14. Forced Zika Virus Infection of Culex pipiens Leads to Limited Virus Accumulation in Mosquito Saliva.

Author

Abbo, Sandra R., Vogels, Chantal B. F., Visser, Tessa M., Geertsema, Corinne, van Oers, Monique M., Koenraadt, Constantianus J. M., and Pijlman, Gorben P.

Abstract

Zika virus (ZIKV) is a mosquito-borne pathogen that caused a large outbreak in the Americas in 2015 and 2016. The virus is currently present in tropical areas around the globe and can cause severe disease in humans, including Guillain-Barré syndrome and congenital microcephaly. The tropical yellow fever mosquito, Aedes aegypti, is the main vector in the urban transmission cycles of ZIKV. The discovery of ZIKV in wild-caught Culex mosquitoes and the ability of Culex quinquefasciatus mosquitoes to transmit ZIKV in the laboratory raised the question of whether the common house mosquito Culex pipiens, which is abundantly present in temperate regions in North America, Asia and Europe, could also be involved in ZIKV transmission. In this study, we investigated the vector competence of Cx. pipiens (biotypes molestus and pipiens) from the Netherlands for ZIKV, using Usutu virus as a control. After an infectious blood meal containing ZIKV, none of the tested mosquitoes accumulated ZIKV in the saliva, although 2% of the Cx. pipiens pipiens mosquitoes showed ZIKV–positive bodies. To test the barrier function of the mosquito midgut on virus transmission, ZIKV was forced into Cx. pipiens mosquitoes by intrathoracic injection, resulting in 74% (molestus) and 78% (pipiens) ZIKV–positive bodies. Strikingly, 14% (molestus) and 7% (pipiens) of the tested mosquitoes accumulated ZIKV in the saliva after injection. This is the first demonstration of ZIKV accumulation in the saliva of Cx. pipiens upon forced infection. Nevertheless, a strong midgut barrier restricted virus dissemination in the mosquito after oral exposure and we, therefore, consider Cx. pipiens as a highly inefficient vector for ZIKV. [ABSTRACT FROM AUTHOR]

Published

2020