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4. Temperature alters gene expression in mosquitoes during arbovirus infection

Author

Wimalasiri-Yapa, BMC Randika, Barrero, Roberto A, Stassen, Liesel, Hafner, Louise M, McGraw, Elizabeth A, Pyke, Alyssa T, Jansen, Cassie C, Suhrbier, Andreas, Yakob, Laith, Hu, Wenbiao, Devine, Gregor J, and Frentiu, Francesca D

Abstract

Arthropod-borne viruses (arboviruses) such as dengue, Zika and chikungunya constitute a significant proportion of the global disease burden. The principal vector of these pathogens is the mosquito Aedes (Ae.) aegypti, and its ability to transmit virus to a human host is influenced by environmental factors such as temperature. However, exactly how ambient temperature influences virus replication within mosquitoes remains poorly elucidated, particularly at the molecular level. Here, we use chikungunya virus (CHIKV) as a model to understand how the host mosquito transcriptome responds to arbovirus infection under different ambient temperatures. We exposed CHIKV-infected mosquitoes to 18 °C, 28 °C and 32 °C, and found higher temperature correlated with higher virus replication levels, particularly at early time points post-infection. Lower ambient temperatures resulted in reduced virus replication levels. Using RNAseq, we found that temperature significantly altered gene expression levels in mosquitoes, particularly components of the immune response. The highest number of significantly differentially expressed genes in response to CHIKV was observed at 28 °C, with a markedly more muted effect observed at either lower (18 °C) or higher (32 °C) temperatures. At the higher temperature, the expression of many classical immune genes, including Dicer-2 in the RNAi pathway, was not substantially altered in response to CHIKV. Upregulation of Toll, IMD and JAK-STAT pathways was only observed at 28 °C. Time post infection also led to substantially different gene expression profiles, and this effect varied depending upon the which temperature mosquitoes were exposed to. Taken together, our data indicate temperature significantly modulates mosquito gene expression in response to infection, potentially leading to impairment of immune defences at higher ambient temperatures.

Published
2020

5. Temperature modulates immune gene expression in mosquitoes during arbovirus infection

Author

Wimalasiri-Yapa, B. M.C.Randika, Barrero, Roberto A., Stassen, Liesel, Hafner, Louise M., McGraw, Elizabeth A., Pyke, Alyssa T., Jansen, Cassie C., Suhrbier, Andreas, Yakob, Laith, Hu, Wenbiao, Devine, Gregor J., Frentiu, Francesca D., Wimalasiri-Yapa, B. M.C.Randika, Barrero, Roberto A., Stassen, Liesel, Hafner, Louise M., McGraw, Elizabeth A., Pyke, Alyssa T., Jansen, Cassie C., Suhrbier, Andreas, Yakob, Laith, Hu, Wenbiao, Devine, Gregor J., and Frentiu, Francesca D.

Abstract

The principal vector of dengue, Zika and chikungunya viruses is the mosquito Aedes aegypti, with its ability to transmit pathogens influenced by ambient temperature. We use chikungunya virus (CHIKV) to understand how the mosquito transcriptome responds to arbovirus infection at different ambient temperatures. We exposed CHIKV-infected mosquitoes to 18, 28 and 32°C, and found that higher temperature correlated with higher virus levels, particularly at 3 days post infection, but lower temperature resulted in reduced virus levels. RNAseq analysis indicated significantly altered gene expression levels in CHIKV infection. The highest number of significantly differentially expressed genes was observed at 28°C, with a more muted effect at the other temperatures. At the higher temperature, the expression of many classical immune genes, including Dicer-2, was not substantially altered in response to CHIKV. The upregulation of Toll, IMD and JAK-STAT pathways was only observed at 28°C. Functional annotations suggested that genes in immune response and metabolic pathways related to energy supply and DNA replication were involved in temperature-dependent changes. Time post infection also led to substantially different gene expression profiles, and this varied with temperature. In conclusion, temperature significantly modulates mosquito gene expression in response to infection, potentially leading to impairment of immune defences at higher temperatures.

Published
2021

6. Temperature modulates immune gene expression in mosquitoes during arbovirus infection

Author

Wimalasiri-Yapa, B. M. C. Randika, primary, Barrero, Roberto A., additional, Stassen, Liesel, additional, Hafner, Louise M., additional, McGraw, Elizabeth A., additional, Pyke, Alyssa T., additional, Jansen, Cassie C., additional, Suhrbier, Andreas, additional, Yakob, Laith, additional, Hu, Wenbiao, additional, Devine, Gregor J., additional, and Frentiu, Francesca D., additional

Published
2021
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7. Temperature alters gene expression in mosquitoes during arbovirus infection

Author

Wimalasiri-Yapa, BMC Randika, primary, Barrero, Roberto A., additional, Stassen, Liesel, additional, Hafner, Louise M., additional, McGraw, Elizabeth A., additional, Pyke, Alyssa T., additional, Jansen, Cassie C., additional, Suhrbier, Andreas, additional, Yakob, Laith, additional, Hu, Wenbiao, additional, Devine, Gregor J., additional, and Frentiu, Francesca D., additional

Published
2020
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8. Supplementary Figures and Tables from Temperature modulates immune gene expression in mosquitoes during arbovirus infection

Author

B.M.C. Randika Wimalasiri-Yapa, Barrero, Roberto A., Stassen, Liesel, Hafner, Louise M., McGraw, Elizabeth A., Pyke, Alyssa T., Jansen, Cassie C., Suhrbier, Andreas, Yakob, Laith, Wenbiao Hu, Devine, Gregor J., and Frentiu, Francesca D.

Subjects
virus diseases
Abstract

The principal vector of dengue, Zika and chikungunya viruses is the mosquito Aedes aegypti, with its ability to transmit pathogens influenced by ambient temperature. We use chikungunya virus (CHIKV) to understand how the mosquito transcriptome responds to arbovirus infection at different ambient temperatures. We exposed CHIKV-infected mosquitoes to 18, 28 and 32°C and found that higher temperature correlated with higher virus levels, particularly at 3 days post infection, but lower temperature resulted in reduced virus levels. RNAseq analysis indicated significantly altered gene expression levels in CHIKV infection. The highest number of significantly differentially expressed genes was observed at 28°C, with a more muted effect at the other temperatures. At the higher temperature, the expression of many classical immune genes, including Dicer-2, was not substantially altered in response to CHIKV. The upregulation of Toll, IMD and JAK-STAT pathways was only observed at 28°C. Functional annotations suggested that genes in immune response and metabolic pathways related to energy supply and DNA replication were involved in temperature-dependent changes. Time post infection also led to substantially different gene expression profiles, and this varied with temperature. In conclusion, temperature significantly modulates mosquito gene expression in response to infection, potentially leading to impairment of immune defences at higher temperatures.

Published
2020
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11. Vector competence of Australian Aedes aegypti and Aedes albopictus for an epidemic strain of Zika virus

Author

Hugo, Leon, Stassen, Liesel, La, Jessica, Gosden, Edward, Ekwudu, O'mezie, Winterford, Clay, Viennet, Elvina, Faddy, Helen, Devine, Gregor, Frentiu, Francesca, Hugo, Leon, Stassen, Liesel, La, Jessica, Gosden, Edward, Ekwudu, O'mezie, Winterford, Clay, Viennet, Elvina, Faddy, Helen, Devine, Gregor, and Frentiu, Francesca

Abstract

Background Recent epidemics of Zika virus (ZIKV) in the Pacific and the Americas have highlighted its potential as an emerging pathogen of global importance. Both Aedes (Ae.) aegypti and Ae. albopictus are known to transmit ZIKV but variable vector competence has been observed between mosquito populations from different geographical regions and different virus strains. Since Australia remains at risk of ZIKV introduction, we evaluated the vector competence of local Ae. aegypti and Ae. albopictus for a Brazilian epidemic ZIKV strain. In addition, we evaluated the impact of daily temperature fluctuations around a mean of 28°C on ZIKV transmission and extrinsic incubation period. Methodology/Principal findings Mosquitoes were orally challenged with a Brazilian ZIKV strain (8.8 log CCID50/ml) and maintained at either 28°C constant or fluctuating temperature conditions. At 3, 7 and 14 days post-infection (dpi), ZIKV RNA copies were quantified in mosquito bodies, as well as wings and legs, using qRT-PCR, while virus antigen in saliva (a proxy for transmission) was detected using a cell culture ELISA. Despite high body and disseminated infection rates in both vectors, the transmission rates of ZIKV in saliva of Ae. aegypti (50–60%) were significantly higher than in Ae. albopictus (10%) at 14 dpi. Both species supported a high viral load in bodies, with no significant differences between constant and fluctuating temperature conditions. However, a significant difference in viral load in wings and legs between species was observed, with higher titres in Ae. aegypti maintained at constant temperature conditions. For ZIKV transmission to occur in Ae. aegypti, a disseminated virus load threshold of 7.59 log10 copies had to be reached. Conclusions/Significance Australian Ae. ae

Published
2019

12. Chikungunya Virus Transmission at Low Temperature by Aedes albopictus Mosquitoes

Author

Yapa, Badal Madiththegedara Chamini, Stassen, Liesel, Hu, Wenbiao, Yakob, Laith, McGraw, Elizabeth, Pyke, Alyssa, Jansen, Cassie, Devine, Gregor, Frentiu, Francesca, Yapa, Badal Madiththegedara Chamini, Stassen, Liesel, Hu, Wenbiao, Yakob, Laith, McGraw, Elizabeth, Pyke, Alyssa, Jansen, Cassie, Devine, Gregor, and Frentiu, Francesca

Abstract

Aedes albopictus is an important vector of chikungunya virus (CHIKV). In Australia, Ae. albopictus is currently only known to be present on the islands of the Torres Strait but, should it invade the mainland, it is projected to spread to temperate regions. The ability of Australian Ae. albopictus to transmit CHIKV at the lower temperatures typical of temperate areas has not been assessed. Ae. albopictus mosquitoes were orally challenged with a CHIKV strain from either Asian or East/Central/South African (ECSA) genotypes (107 pfu/mL), and maintained at a constant temperature of either 18 °C or 28 °C. At 3- and 7-days post-infection (dpi), CHIKV RNA copies were quantified in mosquito bodies, and wings and legs using real time polymerase chain reaction (qRT-PCR), while the detection of virus in saliva (a proxy for transmission) was performed by amplification in cell culture followed by observation of cytopathic effect in Vero cells. Of the ≥95% of Ae. albopictus that survived to 7 dpi, all mosquitoes became infected and showed body dissemination of CHIKV at both temperatures and time points. Both the Asian and ECSA CHIKV genotypes were potentially transmissible by Australian Ae. albopictus at 28 °C within 3 days of oral challenge. In contrast, at 18 °C none of the mosquitoes showed evidence of ability to transmit either genotype of CHIKV at 3 dpi. Further, at 18 °C only Ae. albopictus infected with the ECSA genotype showed evidence of virus in saliva at 7 dpi. Overall, infection with the ECSA CHIKV genotype produced higher virus loads in mosquitoes compared to infection with the Asian CHIKV genotype. Our results suggest that lower ambient temperatures may impede transmission of some CHIKV strains by Ae. albopictus at early time points post infection.

Published
2019

13. Chikungunya virus in Asia - Pacific: a systematic review

Author

Yapa, Badal Madiththegedara Chamini, Stassen, Liesel, Huang, Xiaodong, Hafner, Louise, Hu, Wenbiao, Devine, Gregor, Yakob, Laith, Jansen, Cassie, Faddy, Helen, Viennet, Elvina, Frentiu, Francesca, Yapa, Badal Madiththegedara Chamini, Stassen, Liesel, Huang, Xiaodong, Hafner, Louise, Hu, Wenbiao, Devine, Gregor, Yakob, Laith, Jansen, Cassie, Faddy, Helen, Viennet, Elvina, and Frentiu, Francesca

Abstract

Chikungunya virus (CHIKV) is a mosquito-borne pathogen that causes an acute febrile syndrome and severe, debilitating rheumatic disorders in humans that may persist for months. CHIKV’s presence in Asia dates from at least 1954, but its epidemiological profile in the region remains poorly understood. We systematically reviewed CHIKV emergence, epidemiology, clinical features, atypical manifestations and distribution of virus genotypes, in 47 countries from South East Asia (SEA) and the Western Pacific Region (WPR) during the period 1954–2017. Following the Cochrane Collaboration guidelines, Pubmed and Scopus databases, surveillance reports available in the World Health Organisation (WHO) and government websites were systematically reviewed. Of the 3504 records identified, 461 were retained for data extraction. Although CHIKV has been circulating in Asia almost continuously since the 1950s, it has significantly expanded its geographic reach in the region from 2005 onwards. Most reports identified in the review originated from India. Although all ages and both sexes can be affected, younger children and the elderly are more prone to severe and occasionally fatal forms of the disease, with child fatalities recorded since 1963 from India. The most frequent clinical features identified were arthralgia, rash, fever and headache. Both the Asian and East-Central-South African (ECSA) genotypes circulate in SEA and WPR, with ECSA genotype now predominant. Our findings indicate a substantial but poorly documented burden of CHIKV infection in the Asia-Pacific region. An evidence-based consensus on typical clinical features of chikungunya could aid in enhanced diagnosis and improved surveillance of the disease.

Published
2019

14. Chikungunya virus in Asia – Pacific: a systematic review

Author

Wimalasiri-Yapa, B. M. C. Randika, primary, Stassen, Liesel, additional, Huang, Xiaodong, additional, Hafner, Louise M., additional, Hu, Wenbiao, additional, Devine, Gregor J., additional, Yakob, Laith, additional, Jansen, Cassie C., additional, Faddy, Helen M., additional, Viennet, Elvina, additional, and Frentiu, Francesca D., additional

Published
2019
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16. Zika virus in the male reproductive tract

Author

Stassen, Liesel, Armitage, Charles, Van Der Heide, David, Beagley, Kenneth, Frentiu, Francesca, Stassen, Liesel, Armitage, Charles, Van Der Heide, David, Beagley, Kenneth, and Frentiu, Francesca

Abstract

Arthropod-borne viruses (arboviruses) are resurging across the globe. Zika virus (ZIKV) has caused significant concern in recent years because it can lead to congenital malformations in babies and Guillain-Barré syndrome in adults. Unlike other arboviruses, ZIKV can be sexually transmitted and may persist in the male reproductive tract. There is limited information regarding the impact of ZIKV on male reproductive health and fertility. Understanding the mechanisms that underlie persistent ZIKV infections in men is critical to developing effective vaccines and therapies. Mouse and macaque models have begun to unravel the pathogenesis of ZIKV infection in the male reproductive tract, with the testes and prostate gland implicated as potential reservoirs for persistent ZIKV infection. Here, we summarize current knowledge regarding the pathogenesis of ZIKV in the male reproductive tract, the development of animal models to study ZIKV infection at this site, and prospects for vaccines and therapeutics against persistent ZIKV infection.

Published
2018

17. Establishment of different plasmid only-based reverse genetics systems for the recovery of African horse sickness virus

Author

10085637 - Potgieter, Abraham Christiaan, Conradie, Andelé M., Potgieter, Christiaan A., Stassen, Liesel, Huisman, Henk, Theron, Jacques, 10085637 - Potgieter, Abraham Christiaan, Conradie, Andelé M., Potgieter, Christiaan A., Stassen, Liesel, Huisman, Henk, and Theron, Jacques

Abstract

In an effort to simplify and expand the utility of African horse sickness virus (AHSV) reverse genetics, different plasmid-based reverse genetics systems were developed. Plasmids containing cDNAs corresponding to each of the full-length double-stranded RNA genome segments of AHSV-4 under control of a T7 RNA polymerase promoter were co-transfected in cells expressing T7 RNA polymerase, and infectious AHSV-4 was recovered. This reverse genetics system was improved by reducing the required plasmids from 10 to five and resulted in enhanced virus recovery. Subsequently, a T7 RNA polymerase expression cassette was incorporated into one of the AHSV-4 rescue plasmids. This modified 5-plasmid set enabled virus recovery in BSR or L929 cells, thus offering the possibility to generate AHSV-4 in any cell line. Moreover, mutant and cross-serotype reassortant viruses were recovered. These plasmid DNA-based reverse genetics systems thus offer new possibilities for investigating AHSV biology and development of designer AHSV vaccine strains

Published
2016

19. Functional characterization of the African horse sickness virus VP5 protein, and studies regarding virus-induced apoptosis in cultured mammalian cells

Author

Stassen, Liesel and Stassen, Liesel

Subjects
African horse sickness virus., African Horse Sickness Virus, Virus de la peste équine., African horse sickness virus.
Abstract

African horse sickness virus (AHSV) is a member of the genus Orbivirus in the family Reoviridae and is the causative agent of African horse sickness (AHS), an acute disease in horses with a high mortality rate. AHSV consists of two concentric capsids that enclose the viral double-stranded RNA genome. The outer capsid is composed of two major structural proteins of the virion, VP2 and VP5. A focus of this investigation was on the functional characterization of the VP5 protein, which is known only to play a supportive role to VP2 in enhancing the protective immune response in horses and is cytotoxic when expressed in Spodoptera frugiperda insect cells. Silencing of VP5 gene expression in AHSV-infected mammalian cells by short hairpin RNA (shRNA) and small interfering RNA (siRNA) proved inefficient as means to determine the in vivo functional role of the VP5 protein. Subsequently, characterization of a series of baculovirus-expressed N- and C-terminal truncated VP5 proteins in S. frugiperda cells, as well as relevant peptides based on the predicted structural features of the VP5 protein, indicated that the N-terminal 43 amino acids of the VP5 protein correlated with increased membrane permeabilization. These results suggest that this property of VP5 may be of importance during the initial stages of virus entry into susceptible host cells by facilitating the release of core particles from early endosomes. Infection of mammalian cell cultures with AHSV is known to result in dramatic cytopathic effects (CPE), but no CPE is observed in infected insect cell cultures despite productive virus replication. The basis for this phenomenon has not yet been investigated, but is suggestive of apoptosis being induced following virus infection of the mammalian cells. A second focus of this investigation was therefore to determine whether AHSV can induce apoptosis in infected mammalian cells and by which mechanism. To investigate, Culicoides sonorensis (KC) insect cells and BHK-21 mammalian cells were infected with AHSV-9 and analyzed for morphological and biochemical hallmarks of apoptosis. In contrast to KC cells, infection of BHK-21 cells with AHSV-9 resulted in ultrastructural changes and nuclear DNA fragmentation, both of which are associated with the induction of apoptosis. Results also indicated that AHSV-9 infection of BHK-21 cells resulted in activation of caspase-3, a key agent in apoptosis, and in mitochondrial membrane depolarization. Cumulatively, the data indicate that the intrinsic pathway is activated in AHSV-induced apoptosis.

Published
2011

21. Chikungunya virus in Asia – Pacific: a systematic review

Author

Wimalasiri-Yapa, B. M. C. Randika, Stassen, Liesel, Huang, Xiaodong, Hafner, Louise M., Hu, Wenbiao, Devine, Gregor J., Yakob, Laith, Jansen, Cassie C., Faddy, Helen M., Viennet, Elvina, and Frentiu, Francesca D.

Subjects
virus diseases, 3. Good health
Abstract

Chikungunya virus (CHIKV) is a mosquito-borne pathogen that causes an acute febrile syndrome and severe, debilitating rheumatic disorders in humans that may persist for months. CHIKV’s presence in Asia dates from at least 1954, but its epidemiological profile in the region remains poorly understood. We systematically reviewed CHIKV emergence, epidemiology, clinical features, atypical manifestations and distribution of virus genotypes, in 47 countries from South East Asia (SEA) and the Western Pacific Region (WPR) during the period 1954–2017. Following the Cochrane Collaboration guidelines, Pubmed and Scopus databases, surveillance reports available in the World Health Organisation (WHO) and government websites were systematically reviewed. Of the 3504 records identified, 461 were retained for data extraction. Although CHIKV has been circulating in Asia almost continuously since the 1950s, it has significantly expanded its geographic reach in the region from 2005 onwards. Most reports identified in the review originated from India. Although all ages and both sexes can be affected, younger children and the elderly are more prone to severe and occasionally fatal forms of the disease, with child fatalities recorded since 1963 from India. The most frequent clinical features identified were arthralgia, rash, fever and headache. Both the Asian and East-Central-South African (ECSA) genotypes circulate in SEA and WPR, with ECSA genotype now predominant. Our findings indicate a substantial but poorly documented burden of CHIKV infection in the Asia-Pacific region. An evidence-based consensus on typical clinical features of chikungunya could aid in enhanced diagnosis and improved surveillance of the disease.

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