Usutu Virus: An Emerging Arbovirus Threat

Bates, Tyler Alexander

04 February 2021

Mosquito-borne viruses, such as dengue virus (DENV), Zika virus (ZIKV), chikungunya virus (CHIKV), yellow fever virus (YFV), Japanese encephalitis virus (JEV), and West Nile virus (WNV) are major threats to global public health resulting in millions of infections and hundreds of thousands of deaths annually. The presence of these viruses and their increasing emergence/spread continues to escalate. Notably, Usutu virus (USUV; Genus: Flavivirus; Family: Flaviviridae) is one such pathogen currently causing mass die-offs of avian hosts throughout Europe. USUV is categorized in the Japanese Encephalitis virus (JEV) antigenic complex and thus shares many antigenic and pathologic characteristics with fellow members, such as JEV and WNV. Respective to human infections, USUV cases are generally asymptomatic; nonetheless, acute cases have been reported. These acute cases typically cause mild symptoms, such as fevers and rashes; however, more severe cases can result in neurologic diseases, such as encephalitis and/or meningoencephalitis. In addition to these pathologic similarities, USUV shares several ecological and geographical traits with WNV, a pathogen responsible for several outbreaks during its spread from Africa, to Europe, and eventually the United States. Currently, WNV is considered endemic in areas across the United States due to its transmission via Culex spp.; mosquitoes that are ubiquitous in the United States. These parallels suggest the possible emergence of USUV into the United States and therefore, it is imperative to broaden our knowledge of USUV and assess its potential to become a major global health concern. The overall goal of this thesis was to characterize USUV and evaluate its emergence potential in the United States by: (1) developing infectious clones of recent European and African USUV isolates as tools for characterization and analysis of USUV and (2) assessing the transmission potential of several species of North American mosquitoes. In Aim 1, we show that the aforementioned infectious clones infect and replicate similarly to their parental strains in vitro in both vertebrate and invertebrate models, as well as in transiently immunocompromised CD-1 and IFNAR-/- murine models, and thus serve as useful tools for future molecular studies focusing on USUV. Furthermore, in Aim 2, we describe the ability of field-caught (Southwest Virginia, USA) Culex spp. and Aedes spp. mosquitoes to become infected with a recent European isolate of USUV; although, we report an overall limited potential for these species to transmit this virus. Altogether, these studies form a foundation for understanding the potential emergence of USUV in the United States as well as provide necessary tools needed to aid future research on USUV emergence, transmission, and pathogenesis. / Master of Science / Usutu virus (USUV) is an emerging mosquito-borne virus that was first isolated from a mosquito in 1959 in South Africa, and since then, has become a major problem throughout Africa and Europe causing acute to severe infection in dozens of patients. Additionally, this virus is causing massive die-offs in Eurasian blackbird populations. This is particularly problematic because birds play a critical role in ecosystems as they act as forms of pest control, pollinators, and seed dispersers. Depletion of these species could lead to an imbalance and, eventually, collapse of our natural ecosystem. Additionally, there is a growing concern of USUV making its way into the United States, following a similar track of emergence to WNV's introduction in New York in 1999 and its subsequent spread throughout the states. WNV's introduction to the United States was detrimental to native bird populations and humans, and has caused tens of thousands of infections and thousands of deaths since this introduction. Research has shown USUV causes similar disease symptoms to WNV. The self-limiting illness from these viruses typically includes fever and rashes but some infections can result in more severe cases causing inflammation of the brain and surrounding areas. Like many other prominent mosquito-borne viruses, there is no specific treatment or vaccine for WNV or USUV. Because USUV is so closely related to WNV, and their similar characteristics may point towards similar emergence in the United States, it is essential to garner more information on USUV. The overall goal of this thesis was to establish a reliable tool(s) for further characterization of USUV and demonstrate the potential for USUV emergence in the United States. We first developed molecular tools, known as viral clones, that are valuable to the scientific community which allows the manipulation of USUV genetic material to perform further downstream studies. Our objective for this initial study was to create a molecular tool that would behave similarly to their natural, or "parental", virus. The results from this study suggest we have successfully produced these tools. Furthermore, we sought to determine the potential for field-caught mosquitoes from Southwest Virginia, USA to transmit a recently isolated strain of USUV. These data suggest that while these mosquitoes do have the ability to become infected with USUV, they have a limited potential to transmit this virus to animal hosts. Altogether, these studies have allowed us to expand our knowledge on USUV's potential emergence in the United States and develop powerful tools to continue this essential research.

Usutu virus

Flaviviridae

Flavivirus

Infectious clone

mosquito-borne

vector competence

Etude d'enzymes de modification d'ARN impliquées dans la réplication des flavivirus et des coronavirus

Bouvet, Mickaël

02 December 2011

Ce travail de thèse a porté sur l’étude d’activités enzymatiques virales impliquées dans la réplication de deux genres viraux : les Flavivirus et les Coronavirus. Dans un premier temps, nous avons étudié des activités enzymatiques impliquées dans la formation de la structure coiffe des ARNm viraux. En effet, du fait de leur cycle réplicatif cytoplasmique, ces virus n’ont pas accès à la machinerie de formation de la coiffe cellulaire et expriment donc une machinerie dédiée. Le processus canonique de formation de la coiffe fait appel à quatre activités enzymatiques, une ARN 5’-triphosphatase, une guanylyltransférase et deux méthyltransférases.Chez les flavivirus, nous avons développé des outils permettant d’identifier l’activité guanylyltransférase ainsi que des essais enzymatiques nécessaires à la caractérisation des activités méthyltransférases. Ces outils nous ont notamment permis d’évaluer l’effet inhibiteur de molécules choisies par des méthodes de criblages virtuels sur les deux activités méthyltransférases de la protéine NS5 nécessaires à la formation de la coiffe.Chez les coronavirus, nous nous sommes intéressés à une activité méthyltransférase impliquée dans la formation de la coiffe et notamment à sa régulation par un partenaire viral. Nous avons démontré que le processus de méthylation de la coiffe suit un ordre obligatoire, initié par la méthylation de la position N7 par la protéine nsp14. Dans une seconde étape, les structures coiffe-0 (7MeGpppA) sont converties en coiffe-1 (7MeGpppA2’OMe) par la protéine nsp16 en complexe avec nsp10. Nous avons démontré que l’activité 2’O-méthyltransférase portée par la protéine nsp16 nécessite une interaction spécifique avec la protéine nsp10 qui joue probablement un rôle d’échafaudage.Dans un second temps, nous avons démontré que l’activité exoribonucléase portée par la protéine nsp14 est également régulée par la protéine nsp10. La stimulation de l’activité passe par une interaction directe entre les deux protéines et il semble que les surfaces d’interaction de nsp10 avec nsp14 et nsp16 soient chevauchantes. Enfin, la caractérisation de l’activité exoribonucléase confirme la possibilité de son implication dans un mécanisme de réparation des erreurs incorporées lors de la synthèse d’ARN par la polymérase virale. / This work focused on enzymatic activities of two RNA virus genera, Flavivirus and Coronavirus.We first studied the mRNA cap synthesis machinery of these viruses. Indeed, as they replicate in the cytoplasm of the infected cell, these viruses encode their own mRNA cap-forming enzymes. The canonical mechanism of cap synthesis uses four enzymatic activities, a RNA 5’-triphosphatase, a guanylyltransferase and two methyltransferases.We tried to identify the guanylyltransferase activity involved in this process for flaviviruses and we developed enzymatic assays to characterize both guanylyltransferase and methyltransferase activities. We used the methyltransferase assay in order to test the inhibitor effect of molecules, selected by virtual screening, on the methyltransferase activities of the NS5 protein involved in the capping process.Concerning coronaviruses, we first focused on the methyltransferase activities of the nsp14 and nsp16 proteins. We have reconstituted the complete SARS-CoV mRNA cap methylation in vitro. We showed that mRNA cap methylation requires a third viral protein, nsp10, which acts as an essential trigger to complete RNA cap-1 formation. The obligate sequence of methylation events is initiated by nsp14, which first methylates capped RNA transcripts to generate cap-0 7MeGpppA-RNAs. The latter are then selectively 2′O-methylated by the 2′O-methyltransferase nsp16 in complex with its activator nsp10 to give rise to cap-1 7MeGpppA2′OMe-RNAs. Then, we took interest in the exoribonuclease activity of the nsp14 protein and found that this activity is also regulated by the same cofactor, the nsp10 protein. The interaction between the proteins is required to observe the stimulatory effect and it seems that the surface areas of nsp10 interacting with nsp14 and nsp16 overlap. The in vitro characterization of the nuclease activity of nsp14 is according with its potential implication in RNA proofreading mechanism.

Coronavirus

Flavivirus

Structure coiffe des ARNm

Méthyltransférase

Exoribonucléase

Interaction protéine-protéine

Coronavirus

Flavivirus

MRNA cap structure

Methyltransferase

Exoribonuclease

Protein-protein interaction

Avaliação em modelos animais de uma vacina para malária utilizando como vetor de expressão o vírus de febre amarela vacinal 17D

Cajaraville, Ana Carolina dos Reis Albuquerque

January 2012

Submitted by Priscila Nascimento (pnascimento@icict.fiocruz.br) on 2013-03-19T16:07:54Z No. of bitstreams: 1 Ana_Carolina.pdf: 2560132 bytes, checksum: 663a398860ff953a4b1de21a209ee151 (MD5) / Made available in DSpace on 2013-03-19T16:07:54Z (GMT). No. of bitstreams: 1 Ana_Carolina.pdf: 2560132 bytes, checksum: 663a398860ff953a4b1de21a209ee151 (MD5) Previous issue date: 2012 / Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Rio de Janeiro, RJ, Brasil. / O desenvolvimento de uma vacina para malária é considerado atualmente uma prioridade em saúde pública pelo impacto socioeconômico e morbidade da doença com 250 milhões de novos casos por ano. A vacina de febre amarela é considerada uma das vacinas mais bem sucedidas por sua imunogenicidade duradora obtida após uma única dose. Frente a elucidação das respostas polivalentes dirigidas ao vírus vacinal 17D, a utilização do mesmo como vetor de expressão para antígenos heterólogos têm sido encorajada. Tendo em vista que febre amarela e malária compartilham grandes zonas endêmicas nos continentes americano e africano, a construção de uma vacina para malária baseada no vetor de febre amarela 17D se tornou uma abordagem interessante. Foram construídos dois vírus recombinantes contendo a proteína heteróloga MSP-119de P. falciparum (FA17D/MSP-119fal) e P. vivax (FA17D/MSP-119vivax) entre os genes E/NS1 de FA. Esta proteína é constituída de um fragmento de 19 kDa obtido após o processamento proteolítico da proteína de superfície do merozoíta 1 (MSP-1) durante a invasão do eritrócito e é descrita como alvo de anticorpos protetores em animais e pessoas imunes. Os vírus recombinantes foram caracterizados in vitro quanto à capacidade proliferativa em células Vero, estabilidade genética e expressão da proteína heteróloga por microscopia confocal de imunofluorescência e western blotting. A imunização de camundongos BALB/c e primatas não-humanos da espécie Saimiri sciureus foi usada para avaliar as construções quanto à imunogenicidade. Ambos os vírus foram capazes de induzir a produção de anticorpos neutralizantes contra a FA, porém em menores títulos do que os induzidos pelo vírus vacinal 17DD. A indução de anticorpos específicos para a proteína heteróloga após a imunização com os diferentes vírus recombinantes, também foi demonstrada e resultou em baixos títulos de IgG.em ambos os modelos. Os anticorpos induzidos no modelo com macacos Saimiri reconheceram a proteína nativa do parasita em hemácias infectadas por P. falciparum. No entanto, o desafio realizado neste modelo de primata não-esplenectomizado após a imunização com FA17D/MSP-119fal não gerou resultados conclusivos. Estes resultados sugerem a necessidade de aprimoramento da plataforma de expressão em busca de maior imunogenicidade. / The development of a vaccine for malaria is currently considered a priority in public health due to the socioeconomic impact and morbidity of the disease with 250 million new cases registered every year. The yellow fever vaccine is considered one of the most successful vaccines for its longlasting immunogenicity obtained after a single dose. As a result of the elucidation of the polyvalent responses directed to YF17D vaccine virus, the use of this virus as an expression vector of heterologous antigens has been encouraged. Considering that yellow fever and malaria share the major endemic areas in American and African continents, the construction of a vaccine for malaria based on the yellow fever 17D vector became an interesting approach. Two recombinant viruses containing the heterologous protein MSP-119 from P. falciparum (YF17D/MSP-119fal) and P. vivax (YF17D/MSP-119vivax) inserted between the E/NS1 genes have been constructed. This protein consists of a 19 kDa fragment obtained after proteolytic processing of the merozoite surface protein 1 (MSP-1) during invasion of erythrocytes and is described as a target for protective antibodies in animals and immune people. Recombinant viruses were characterized in vitro for their proliferative capacity in Vero cells and genetic stability and expression of heterologous protein were assessed by confocal immunofluorescence and Western blotting. Immunization of BALB/c mice and non-human primate species Saimiri sciureus allowed the evaluation of the constructions in terms of immunogenicity. Both viruses were capable of inducing neutralizing antibodies to YF, but in lower titers than those induced by the vaccine virus 17DD.The induction of specific antibodies for the heterologous protein by the different recombinant viruses was also demonstrated by low levels of IgG in both models. The antibodies induced in this monkey model bound to the native protein in parasite-infected red blood cells by immunofluorescence. The challenge carried out in after immunization of Saimiri monkeys with FA17D/MSP-119fal did not generate conclusive results. These data suggest the need to improve the platform of expression towards higher viral immunogenicity.

Flavivirus

Vírus FA 17D

Malária

Flavivirus

Virus FA 17D

Malaria

Yellow fever virus

Flavivirus

Malária

Vírus da Febre Amarela

Avaliação de um modelo animal para estudo da infecção pelo vírus da dengue / Evaluation of an animal model for study of dengue virus infection

Xavier, Eric Almeida

18 August 2010

A dengue é a arbovirose (doença viral transmitida por artrópodes) mais difundida em países tropicais e subtropicais. Segundo a Organização Mundial da Saúde, estima-se que mais de 100 milhões de casos ocorrem anualmente em todo o mundo. Com base em testes sorológicos, os vírus da dengue são classificados em quatro sorotipos antigenicamente distintos (DENV-1, DENV-2, DENV-3 e DENV-4). A infecção de humanos com qualquer um dos quatro sorotipos de dengue pode levar ao desenvolvimento de três formas clínicas principais; doença febril indiferenciada, febre clássica da dengue (FD) e dengue hemorrágica com ou sem choque (DHF/DSS). Trabalhos anteriores ao usarem a linhagem de camundongos C57black/6 obtiveram resultados como hemorragia intraperitoneal e injuria ao fígado dos animais infectados, portanto foi de interesse estudar como se desenvolve a infecção por DENV-1 nestes animais. Então o objetivo principal foi estudar a infecção pelo DENV-1 em camundongos C57BL/6 inoculados via intraperitoneal. Foi analisada a presença do vírus DENV-1 em diferentes órgãos cérebro, Baco, fígado e rim além do soro dos animais C57 Black/6 imunologicamente competentes, pois trabalhos realizados anteriormente por diversos grupos de pesquisa da área tem resultados controversos mostrando que a detecção posterior do DENV seria dependente de fatores como carga viral, tipo de animal infectado e principalmente da cepa viral utilizada. Como principais conclusões de nosso trabalho os animais C57BL/6 selvagem infectados com o DENV-1 mochisuki apresentaram carga viral detectável até o décimo sexto dia, alem de plaquetopenia, aumento do Hematócrito e dos níveis de IL-10, IFN- e TNF- a partir do sétimo dia de infecção. Portanto o animal C57BL/6 selvagem pode ser usado como modelo experimental para infecção com DENV. 8 / Dengue is the arbovirus (arthropod-borne viral disease) more widespread in tropical and subtropical countries. According to World Health Organization estimates that more than 100 million cases occur annually worldwide. Based on serologic tests of dengue viruses are classified into four antigenically distinct serotypes (DENV-1, DENV-2, DENV-3 and DENV-4). The infection of humans with any of the four dengue serotypes can lead to the development of three main clinical forms, undifferentiated febrile illness, classic dengue fever (DF) and dengue hemorrhagic fever with or without shock (DHF / DSS). Previous work to use the strain of mice C57black / 6 obtained results as intraperitoneal hemorrhage and injury to the liver of infected animals, so it was of interest to study how it develops the DENV-1 infection in these animals. So the main objective was to study the DENV-1 infection in C57BL / 6 mice inoculated intraperitoneally. We analyzed the presence of DENV-1 in different organs brain, spleen, liver, kidney and serum from animals C57 Black/6 immunologically competent, as previous work by several research groups in the area is controversial results showing that the subsequent detection of DENV would depend on factors such as viral load, type of infected animals and especially the viral strain used. he main conclusions of our work, the C57BL / 6 infected with DENV-1 mochisuki had detectable viral load until the sixteenth day, in addition to thrombocytopenia, increased hematocrit and levels of IL-10, IFN- and TNF - from the seventh day of infection. So the animal C57BL / 6 wild can be used as an experimental model for infection with DENV

Adaptação do Dengue Tipo 1 (DENV-1)

Adaptation of Dengue type 1 (DENV-1)

Aumento da virulência

Cinética da virulência

Flavivirus

Flavivirus

Improves virulence

virulence Cineti

Pesquisa sentinela da introdução do vírus do Oeste do Nilo no Brasil pela análise de doadores de sangue do Amazonas e Mato Grosso do Sul / Sentinel survey of the introduction of West Nile virus in Brazil by analyzing blood donors of Amazonas and Mato Grosso do Sul

Geraldi, Marcelo Plaisant

18 September 2012

O vírus do Oeste do Nilo (VON) é um Flavivírus capaz de infectar muitas espécies de vertebrados, incluindo o homem. Embora reconhecida desde 1940, esta virose nunca havia sido descrita nas Américas, onde emergiu nos Estados Unidos ao final da década de 1990, com numerosos casos de meningoencefalite em humanos. Posteriormente, sua transmissão por transfusão de sangue e órgãos foi comprovada, levando à implantação de testes moleculares (NAT) para a triagem de doadores nos EUA e Canadá a partir de 2003. Nos anos seguintes, o VON foi sendo progressivamente detectado em países como México, Panamá e áreas do Caribe, sugerindo sua iminente introdução na América do Sul. De fato, evidências sorológicas foram reveladas em cavalos e aves na Colômbia, Venezuela, Argentina e muito recentemente no pantanal mato-grossense (em cavalos). A vigilância epidemiológica para este agente é de grande importância para a saúde pública, visto o potencial de morbimortalidade deste vírus para humanos. Sendo assim este trabalho tem o objetivo de investigar a presença do RNA do VON em amostras de doadores de sangue, pacientes com meningoencefalite ou febre de origem indeterminada e soros e amostras cerebrais de equinos. Foram analisadas 2.202 doações de sangue do Amazonas (HEMOAM), 3.144 do Mato Grosso do Sul (HEMOSUL); líquido cefalorraquidiano de 51 pacientes com suspeita de meningoencefalite viral (Hospital das Clínicas/FMUSP, São Paulo) e soro de 198 pacientes com síndrome febril aguda, negativos para Dengue e Malária (Fundação de Medicina Tropical de Manaus). Além disto, 293 amostras de soros de equinos da região do Pantanal e 63 biópsias de tecido cerebral de cavalos que foram a óbito por encefalite de etiologia desconhecida. Estas amostras foram submetidas ao teste automatizado cobas TaqScreen WNV (Roche) na plataforma cobas s201 em sistema de pool de 6 unidades (doações de sangue) ou individualmente (pacientes). Todas as amostras apresentaram amplificação satisfatória do controle da reação, porém nenhuma apresentou resultado positivo para a presença do RNA do VON. Embora já exista evidência da exposição de equinos no Brasil ao VON, não parece haver até o momento, disseminação importante deste agente entre humanos e equinos, uma vez que o RNA viral não foi detectado nem em doadores de sangue e nem em equinos, incluindo os de cidades próximas aos locais onde cavalos soropositivos foram encontrados (Corumbá MS). / The West Nile Virus (WNV) is a Flavivirus able to infect many species of vertebrates, including man. Recognized since 1940, this virus had never been described in the Americas, which emerged in the United States at the end of the 1990s, with numerous cases of meningoencephalitis in humans. Later, transmission by transfusion of blood and organs was confirmed, leading to the deployment of molecular testing (NAT) for screening of donors in the U.S. and Canada since 2003. In the following years, WNV has been progressively detected in countries like Mexico, Panama and the Caribbean areas, suggesting their imminent introduction in South America In fact, serological evidence was revealed in horses and birds in Colombia, Venezuela and Argentina and most recently in Pantanal, Mato Grosso (horses). Epidemiological surveillance for this agent is of great importance to public health, given the potential morbidity and mortality of this virus to humans. Therefore this study aims to investigate the presence of WNV RNA in samples of blood donors, patients with meningoencephalitis or fever of unknown origin and serum and brain samples from horses. We analyzed 2202 blood donations from Amazon (HEMOAM), 3144 from Mato Grosso do Sul (HEMOSUL); cerebrospinal fluid of 51 patients with suspected viral encephalitis (Hospital das Clínicas / FMUSP, São Paulo) and serum samples from 198 patients with acute febrile syndrome, negative for Dengue and malaria (Foundation for Tropical Medicine in Manaus). In addition, more 293 serum samples from horses of the Pantanal and 63 biopsies of brain tissue from horses that died of encephalitis of unknown etiology. These samples were subjected to automated cobas TaqScreen WNV test (Roche) on the platform in cobas S201with a system of 6 units pool (blood donations) or individually (patients). All samples showed satisfactory control amplification, but none showed as positive for the presence of RNA VON. Although there is already evidence in horses in Brazil of exposure to WNV, there seems to be far that an important spread of this agent between humans and horses, since the viral RNA was not detected either in blood donors or in horses, including cities near the locations where seropositive horses were found (Corumbá - MS).

Doação (Sangue)

Donation (Blood)

Equidae.

Equinos

Flavivirus

Flavivirus.

Polymerase chain reaction (PCR)

Reação em Cadeia por Polimerase (PCR)

Vírus do Oeste do Nilo

West Nile virus

Valorisation des éco-extraits de plantes médicinales réunionnaises dans la lutte contre les maladies virales émergentes de l'océan Indien / Valorization of medicinal plants eco-extracts from La Reunion against emerging viral diseases in the Indian Ocean

Clain, Marie Élodie

04 December 2018

Les maladies virales à transmission vectorielle émergentes et ré-émergentes comme la dengue, le chikungunya ou le zika sont responsables de nombreuses épidémies sévères à travers le monde. Récemment, la propagation rapide et très étendue du virus zika (ZIKV) ainsi que les complications neurologiques graves liées à l’infection par ZIKV ont incité l’Organisation Mondiale de la Santé (OMS) à déclarer le ZIKV comme une urgence de santé publique mondiale. Aujourd’hui, les mesures préventives ou curatives de l’infection par ZIKV sont quasiment inexistantes. D’autre part, la flore endémique de La Réunion est connue comme une source riche, renouvelable et prometteuse en produits naturels anti-infectieux. L’inscription à la pharmacopée française de 19 plantes médicinales réunionnaises souligne le potentiel thérapeutique des substances naturelles issues de la biodiversité locale. Les travaux ont été consacrés à l’identification de substances naturelles anti-ZIKV issues d’une sélection de sept plantes médicinales réunionnaises inscrites à la pharmacopée française. Dans une première étape, une extraction sans solvant assistée par micro-ondes a été appliquée sur les sept plantes médicinales sélectionnées afin d’obtenir des éco-extraits. Dans une deuxième étape, le criblage de l’activité antivirale, en utilisant un clone moléculaire du ZIKV avec un gène rapporteur, a permis d’identifier deux éco-extraits actifs provenant de Aphloia theiformis et de Psiloxylon mauritianum. Après avoir vérifié l’absence de cytotoxicité et de génotoxicité des extraits actifs, l’activité antivirale a été aussi démontrée sur d’autres types d’extraits réalisés via des méthodes d’extractions traditionnelles (infusion, décoction et macération). L’activité antivirale a été validée sur différentes souches de ZIKV (historique et épidémique) ainsi que sur les 4 sérotypes du virus de la dengue. Enfin, le mode d’action des deux extraits actifs a été étudié. Il a été montré que les éco-extraits d’A. theiformis et de P. mauritianum ciblent les phases précoces du cycle viral en inhibant l’attachement du virus à la cellule hôte. À l’aide de la microscopie électronique, il a été montré que l’éco-extrait d’A. theiformis déforme la particule virale empêchant cette dernière de s’attacher à la membrane de la cellule hôte. Ces résultats démontrent l’importance des plantes médicinales réunionnaises comme source de substances naturelles anti-infectieuses. / Emerging and re-emerging vector-borne viral diseases such as dengue, chikungunya or zika are responsible for many severe epidemics worldwide. Recently, the rapid spread of zika virus (ZIKV) worldwide and the serious neurological complications associated with ZIKV infection have prompted the World Health Organization (WHO) to declare ZIKV a public health emergency. Today, preventive or curative measures against ZIKV infection are almost non-existing. On the other hand, the endemic flora of Reunion Island is known as a rich, renewable and promising source of natural anti-infective products. The registration of 19 medicinal plants from Reunion Island in the French pharmacopoeia highlights the therapeutic potential of natural substances derived from local biodiversity. The work was dedicated to the identification of natural anti-ZIKV substances from a selection of seven medicinal plants from La Reunion registered in the French pharmacopoeia. In a first step, in collaboration with a local start-up (Bourbon Extracts), a solvent-free microwave-assisted extraction was applied to the seven selected plants in order to obtain eco-extracts. In a second step, the screening for antiviral activity, using a ZIKV molecular clone with a reporter gene, allowed the identification of two candidate plants: Aphloia theiformis and Psiloxylon mauritianum. After verifying the absence of cytotoxicity and genotoxicity of the active extracts, the antiviral activity was also demonstrated on other types of extracts using traditional extraction methods (infusion, decoction and maceration). The antiviral activity has been validated on different strains of ZIKV (historical and epidemic) as well as on the four serotypes of the dengue virus. Finally, the mode of action of the two active extracts has been studied. It has been shown that the eco-extracts from A. theiformis and P. mauritianum target the early steps of the viral cycle by inhibiting the attachment of the virus to the host cell. Using electron microscopy, it has been shown that the eco-extract of A. theiformis deforms the viral particle preventing its attachment to the membrane of the host cell. These results demonstrate the importance of medicinal plants from Reunion Island as a source of natural anti-infectious substances.

Virus zika

Flavivirus

Virus de la dengue

Plantes médicinales

Aphloia theiformis

Psiloxylon mauritianum

Activité antivirale

Attachement

Zika virus

Flavivirus

Dengue virus

Medicinal plants

Aphloia theiformis

Psiloxylon mauritianum

Antiviral activity

Attachment

Estudo da interação entre a proteína humana p54nrb/NonO e a proteína NS5 de Flavivirus e seu efeito na replicação viral

Terzian, Ana Carolina Bernardes

08 November 2013

Made available in DSpace on 2016-01-26T12:51:47Z (GMT). No. of bitstreams: 1 anacarolinabterzian_tese.pdf: 3328386 bytes, checksum: 0bae9bd7c5453a781cfbba32fac30196 (MD5) Previous issue date: 2013-11-08 / Fundação de Amparo a Pesquisa do Estado de São Paulo / Introduction. Yellow Fever Virus (YFV) causes a hemorrhagic fever and it is the prototype of genus Flavivirus. Kunjin virus (KUNV) is naturally attenuated and is used to develop vaccine candidates against more pathogenic WNV strains. Flavivirus replication is a complex mechanism that involves interaction between viral RNA and cellular and viral proteins. The NS5 protein is the largest and highly conserved viral protein and it is critical for many functions, including replication, RNA capping and virus-host interactions. Once protein-protein interactions present basic importance for the activation, the regulation and the control of diverse enzymatic functions related to these interactions, the identification and the characterization of them are essential for a better comprehension of the pathogenesis and for the rational design of drugs for YFV. Previously, it was identified that the cellular protein p54nrb/NonO interacts with the RNA dependent RNA polymerase domain of YFV NS5. The p54nrb/NonO protein is a nuclear transcription factor associated with nuclear membrane and exhibits multifunction characteristics in nuclear processes in eukaryotic cells, in frequent association with the U1A and PSF proteins. Interaction between NS5 and p54nrb/NonO may influence localization and transport of proteins and viral RNA within the cell. Objective. The purpose of this study was to confirm the interaction between p54nrb/NonO and YFV and KUNV NS5 and determine the role of p54nrb/NonO on viral replication. Material and Method. Co-immunoprecipitation, mass spectrometry and indirect immunofluorescence assays were realized to confirm the interaction and co-localization between the proteins. To determine the effect on viral replication, the p54nrb/NonO and PSF were overexpressed in cellular culture, as well, the silencing of p54nrb/NonO. After, the replication level was determined by Tempo Real PCR, plaque assay, measuring of β-galactosidase and luciferase activity assays. Results. Immunofluorescence assays showed co-localization of p54nrb/NonO with YFV NS4 in the perinuclar region and with NS5 in the nucleus. In contrast, KUNV NS5 co-localized with p54nrb/NonO in the perinuclear region and co-precipitated with p54nrb/NonO. The co-precipitation between p54nrb/NonO and NS5 YFV was not identified. Again, it was identified by mass spectrometry analysis the co-precipitation of p54nrb/NonO by monoclonal antibodies to KUNV NS5 protein. The p54nrb/NonO overexpression did not affect the YFV and KUNV replication, however, PSF overexpression showed inhibitory effect on viral replication. The RNA interference assays were inconclusive about the role of p54nrb/NonO silencing on YFV replication. Conclusion. p54nrb/NonO and KUNV NS5 interact physically and co-localize in the cytoplasm, while, the co-localization with YFV NS5 occcurs in the nucleus, although, there is no physical interaction between them. However, the overexpression of p54nrb/NonO does not affect the viral replication. PSF was confirmed as an interactive partern of p54nrb/NonO and, when it is overexpressed, it inhibits YFV and KUNV replication. / Introdução. O vírus da Febre Amarela (YFV) causa febre hemorrágica e é o protótipo do gênero Flavivirus. O vírus Kunjin (KUNV) é naturalmente atenuado e usado para o desenvolvimento de candidatos vacinais contra linhagens mais patogênicas do WNV. A replicação do Flavivirus é um mecanismo complexo que envolve interações entre o RNA viral e proteínas virais e celulares. A NS5 é a maior e mais conservada proteína viral e é crítica para muitas funções, incluindo replicação, capeamento do RNA e interação vírus-hospedeiro. Como interações proteicas são de fundamental importância para ativação, regulação e controle de diversas funções enzimáticas a elas relacionadas, fica clara a relevância da identificação e caracterização das interações participantes desse processo para uma melhor compreensão da patogênese e para o desenho racional de drogas para a febre amarela. Foi identificado previamente que a proteína celular p54nrb/NonO interage com o domínio RNA polimerase RNA dependente de NS5 de YFV. p54nrb/NonO é um fator de transcrição nuclear associada a membrana nuclear e apresenta características multifuncionais nos processos celulares em células eucariotas, ocorrendo frequentemente em associação com as proteínas U1A e PSF. Dessa forma, a interação entre p54nrb/NonO e NS5 pode influenciar a localização, transporte das proteínas e do RNA viral dentro da célula. Objetivo. O objetivo deste estudo foi confirmar a interação entre p54nrb/NonO e NS5 de YFV e KUNV, e determinar o efeito da interação sobre a replicação viral. Materiais e Métodos. Para tanto, experimentos de co-imunoprecipitação, espectrometria de massa e imunofluorescência indireta foram realizados para confirmar a interação e a co-localização entre as proteínas. Para determinar o efeito sobre a replicação viral, foi realizado, em cultura celular, a superexpressão p54nrb/NonO e PSF, bem como, o silenciamento de p54nrb/NonO. Posteriormente, a taxa de replicação viral foi determinada por técnicas de qPCR, ensaio de placa, mensuração da atividade de β-galactosidase e luciferase. Resultados. O ensaio de imunofluorescência mostrou co-localização entre p54nrb/NonO e NS4 de YFV na região perinuclear e com NS5 no núcleo. Em contraste, NS5 de KUN co-localizou com p54nrb/NonO na região perinuclear, e da mesma forma, NS5 de KUNV foi identificado co-precipitando p54nrb/NonO. Não foi identificada a co-precipitação entre p54nrb/NonO e NS5 de YFV. Novamente, p54nrb/NonO foi identificada co-precipitando com NS5 de KUNV pela análise por espectrometria de massa com o uso de anticorpo monoclonal para a proteína NS5 de KUNV. A superexpressão de p54nrb/NonO não mostrou afetar a replicação de YFV e KUNV, entretanto, a superexpressão de PSF mostrou efeito inibitório sobre a replicação viral. Os estudos com interferência de RNA, contudo, foram inconclusivos sobre o efeito do silenciamento de p54nrb/NonO sobre a replicação de YFV. Conclusão. p54nrb/NonO e NS5 de KUNV interagem fisicamente e co-localizam no citoplasma, enquanto que, a co-localização com NS5 de YFV ocorre no núcleo, embora não ocorra interação física. Entretanto, a superexpressão de p54nrb/NonO não afeta a replicação viral. PSF foi confirmada como parceira interativa de p54nrb/NonO e, quando superexpressa, inibe a replicação de YFV e KUNV.

Flavivirus

NS5

febre amarela

Kunjin

interações proteína-proteína

p54nrb/NonO

Flavivirus

NS5

yellow fever

Kunjin

protein-protein interaction

p54nrb/NonO

CNPQ::CIENCIAS DA SAUDE

Screening de novos antivirais inibidores de flavivirus

Pacca, Carolina Colombelli

01 November 2013

Made available in DSpace on 2016-01-26T12:51:48Z (GMT). No. of bitstreams: 1 carolinacolombellipacca_tese.pdf: 2227429 bytes, checksum: 4bcc12b8c06f6322170e32bfccfc8fa1 (MD5) Previous issue date: 2013-11-01 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Introduction. Arboviruses, arthropod-borne viruses, are frequently associated with human outbreaks and represent a serious health problem. The genus Flavivirus, which includes both the Yellow Fever Virus (YFV) and Saint Louis Encephalitis Virus (SLEV), are important pathogens that result in high morbidity and mortality rates worldwide. In Brazil, YFV has a sylvatic cycle and occurs annually, despite the efficiency of the vaccine. Saint Louis Encephalitis is an infectious illness that can cause acute fever caused by SLEV, which is widely distributed in the Americas. The emergence of SLEV became a serious concern after the first related outbreak in Brazil in 2006, in the city of Sao Jose do Rio Preto. There is no specific antiviral drug for these viruses, only supporting treatment that can alleviate the symptoms and prevent complications. The need to develop effective and safe antiviral drugs is indispensable for the treatment of these infections. Objective. The aim of this work was to identify new possible antiviral drugs against the arboviruses that can cause acute fever and encephalitis (YFV and SLEV) and to evaluate the capacity of inhibition of these compounds in ABR mice. Material and Methods. Plaque reduction assay, flow citometry, immunofluorescence and cellular viability were used to test the compounds in vitro. ABR mice were inoculated with YFV, and the biological samples were tested for the presence of the virus through the use of plaque reduction assay and qPCR. Neutralization assay was also performed. Results. Treated cells showed efficient inhibition of viral replication at concentrations that presented minimal toxicity to the cells. The assays showed that ftalyl-tiazole and fenoxytiosemicarbazone were more effective, and that they reduced viral replication by 60% and 75% for YFV and SLEV, respectively. The analysis also revealed that the ABR mice inoculated with YFV had histopathological alterations in the liver; however, the samples did not present viral title. Neutralization assay showed a high concentration of antibodies in the serum. Conclusion. The inhibitions of viral replication were confirmed through the use of some assays in vitro, and the effectiveness of the selected compounds show that they are an option in the treatment of these viruses. More detailed studies are needed to determine the mechanism of action of these molecules. The mice were found to have histopathological alterations, which indicates viral infection; however, they also presented with high concentrations of antibodies. More studies about animal models are necessary to make in vivo experiments. / Introdução: Os arbovírus, vírus transmitidos por artrópodes, são freqüentemente associadas a surtos em seres humanos e representam um problema sério de saúde pública. Os vírus pertencentes ao gênero Flavivirus, tais como vírus da Febre Amarela (YFV) e vírus da Encefalite de Saint Louis (SLEV), são importantes patógenos que podem causar alta taxa de morbidade e mortalidade no mundo. No Brasil, YFV é mantido em ciclo silvestre notificados anualmente, a despeito da segurança e eficiência da vacina. A encefalite de Saint Louis é uma doença infecciosa febril aguda causada pelo SLEV amplamente distribuída nas Américas. A emergência do SLEV passou a ser um fato preocupante no Brasil a partir da constatação do primeiro surto no país em 2006, na cidade de São Jose do Rio Preto. Não existe tratamento específico para estas viroses, somente tratamento de suporte para ajudar a aliviar os sintomas e prevenir complicações. Desta forma, há uma grande necessidade de que sejam desenvolvidos antivirais efetivos e seguros para o tratamento destas infecções. Objetivos: O objetivo deste trabalho foi identificar potenciais compostos antivirais contra os arbovírus causadores de doença febril aguda e encefalites (YFV e SLEV) in vitro e avaliar a capacidade de inibição da replicação viral dos compostos in vivo em camundongos ABR. Materiais e Métodos: Para tanto, foram realizados ensaios de redução de placas, citometria de fluxo, imunofluorescencia, bem como testes de viabilidade celular para as analises in vitro. Além disto, camundongos ABR foram inoculados com YFV e seus materiais biológicos testados para a presença de partículas virais por ensaio de redução de placas e qPCR. Adicionalmente, foi realizado ensaio de neutralização do soro dos animais. Resultados: Celulas tratadas com os compostos mostraram eficiente inibição da replicação viral em concentrações que apresentam baixa citotoxicidade. Os ensaios mostraram que derivados de ftalyl-tiazole e fenoxytiosemicarbazone foram os mais eficazes na ação antiviral, apresentando redução de 60% e 75% para YFV e SLEV, respectivamente. Camundongos ABR inoculados com YFV apresentaram alterações histológicas no fígado, entretanto, não foi constatado título viral nas amostras testadas. O ensaio de neutralização mostra altas concentrações de anticorpos no soro dos animais. Conclusões: A inibição da replicação foi comprovada por vários ensaios in vitro evidenciando as moléculas como potentes alternativas para o tratamento dos vírus. Mais estudos são necessários para a determinação do mecanismo de ação destas moléculas. Os camundongos apresentaram alterações histopatológicas sendo um indicativo de infecção, entretanto, apresentam altas taxas de anticorpos. Mais estudos sobre modelo animal são necessários para a realização de ensaios in vivo.

Flavivirus

Antiviral

Vírus da febre amarela

Vírus de Saint Louis

SLEV

YFV

Flavivirus

Saint Louis Encephalitis Virus

Yellow Fever

Antiviral

Avaliação de um modelo animal para estudo da infecção pelo vírus da dengue / Evaluation of an animal model for study of dengue virus infection

Eric Almeida Xavier

18 August 2010

A dengue é a arbovirose (doença viral transmitida por artrópodes) mais difundida em países tropicais e subtropicais. Segundo a Organização Mundial da Saúde, estima-se que mais de 100 milhões de casos ocorrem anualmente em todo o mundo. Com base em testes sorológicos, os vírus da dengue são classificados em quatro sorotipos antigenicamente distintos (DENV-1, DENV-2, DENV-3 e DENV-4). A infecção de humanos com qualquer um dos quatro sorotipos de dengue pode levar ao desenvolvimento de três formas clínicas principais; doença febril indiferenciada, febre clássica da dengue (FD) e dengue hemorrágica com ou sem choque (DHF/DSS). Trabalhos anteriores ao usarem a linhagem de camundongos C57black/6 obtiveram resultados como hemorragia intraperitoneal e injuria ao fígado dos animais infectados, portanto foi de interesse estudar como se desenvolve a infecção por DENV-1 nestes animais. Então o objetivo principal foi estudar a infecção pelo DENV-1 em camundongos C57BL/6 inoculados via intraperitoneal. Foi analisada a presença do vírus DENV-1 em diferentes órgãos cérebro, Baco, fígado e rim além do soro dos animais C57 Black/6 imunologicamente competentes, pois trabalhos realizados anteriormente por diversos grupos de pesquisa da área tem resultados controversos mostrando que a detecção posterior do DENV seria dependente de fatores como carga viral, tipo de animal infectado e principalmente da cepa viral utilizada. Como principais conclusões de nosso trabalho os animais C57BL/6 selvagem infectados com o DENV-1 mochisuki apresentaram carga viral detectável até o décimo sexto dia, alem de plaquetopenia, aumento do Hematócrito e dos níveis de IL-10, IFN- e TNF- a partir do sétimo dia de infecção. Portanto o animal C57BL/6 selvagem pode ser usado como modelo experimental para infecção com DENV. 8 / Dengue is the arbovirus (arthropod-borne viral disease) more widespread in tropical and subtropical countries. According to World Health Organization estimates that more than 100 million cases occur annually worldwide. Based on serologic tests of dengue viruses are classified into four antigenically distinct serotypes (DENV-1, DENV-2, DENV-3 and DENV-4). The infection of humans with any of the four dengue serotypes can lead to the development of three main clinical forms, undifferentiated febrile illness, classic dengue fever (DF) and dengue hemorrhagic fever with or without shock (DHF / DSS). Previous work to use the strain of mice C57black / 6 obtained results as intraperitoneal hemorrhage and injury to the liver of infected animals, so it was of interest to study how it develops the DENV-1 infection in these animals. So the main objective was to study the DENV-1 infection in C57BL / 6 mice inoculated intraperitoneally. We analyzed the presence of DENV-1 in different organs brain, spleen, liver, kidney and serum from animals C57 Black/6 immunologically competent, as previous work by several research groups in the area is controversial results showing that the subsequent detection of DENV would depend on factors such as viral load, type of infected animals and especially the viral strain used. he main conclusions of our work, the C57BL / 6 infected with DENV-1 mochisuki had detectable viral load until the sixteenth day, in addition to thrombocytopenia, increased hematocrit and levels of IL-10, IFN- and TNF - from the seventh day of infection. So the animal C57BL / 6 wild can be used as an experimental model for infection with DENV

Adaptação do Dengue Tipo 1 (DENV-1)

Aumento da virulência

Cinética da virulência

Flavivirus

Adaptation of Dengue type 1 (DENV-1)

Flavivirus

Improves virulence

virulence Cineti

La protéine non-structurale NS1 du virus West Nile : étude fonctionnelle et cible potentielle de nouvelles molécules antivirales / Functional study of sNS1 viral protein during West Nile Virus infection and screening of novel molecules anti-WNV

Furnon, Wilhelm

18 January 2018

Parmi les virus émergents transmis par des moustiques (arbovirus), le genre flavivirus est fortement représenté avec les virus Dengue, Zika, et le virus West Nile (WNV). Le WNV est responsable de nombreux cas de maladies neuroinvasives sévères, parfois mortelles, chez l'humain et les chevaux. Ce virus représente donc un problème de santé publique humaine et animale. Il n'existe pour le moment aucun vaccin humain ni aucun traitement spécifique anti-WNV.Parmi les déterminants viraux essentiels à l'infection par les flavivirus, la glycoprotéine non-structurale NS1 possède des propriétés multifonctionnelles. La forme sNS1, sécrétée dans le milieu extracellulaire, est fortement impliquée dans la dérégulation du système immunitaire de l'hôte. Ces mécanismes participent à l'évasion du virus à la réponse antivirale et, paradoxalement, à la pathogenèse observée dans les formes sévères de la maladie. L'essentiel de ces données concernant le virus de la Dengue, nous souhaitions étudier les propriétés fonctionnelles, in vitro, de la protéine sNS1WNV au cours de l'infection de cellules épithéliales, gliales et neuronales de mammifères. En effet, la structure des protéines sNS1 de flavivirus étant très similaire, notre hypothèse suppose un rôle de sNS1WNV dans les infections neuroinvasives.Si la protéine sNS1WNV ne semble pas moduler les étapes de l'infection virale, elle est cependant à l'origine d'un remodelage du cytosquelette d'actine dans les cellules épithéliales. Elle est aussi impliquée dans l'activation de voies antivirales chez les cellules neuronales non infectées. D'autre part, en ciblant sNS1 et la protéine d'enveloppe E du WNV, nous avons pu isoler, par criblage de molécules aRep (protéines artificielles à motifs répétés), des ligands de haute affinité pour ces déterminants viraux. Ces nouvelles molécules, capables de se lier spécifiquement aux protéines sNS1 et E, ont le potentiel pour servir de base au développement de nouveaux outils de diagnostics et d'agents thérapeutiques antiviraux / Among emerging mosquito-borne viruses (arboviruses), flaviviruses like Dengue, Zika and West Nile virus (WNV) are very often involved in outbreaks. WNV causes several neuroinvasive diseases, which can be lethal, in humans and horses each year. This virus is a threat for both, human and animal public health. Furthermore, there is no human vaccine currently or any specific antiviral treatments against WNV.Among viral factors which are essential for flavivirus infection, the nonstructural glycoprotein NS1 is a multifunctional protein. The secreted form sNS1, is released in the extracellular medium from infected cells and is strongly involved in immune system dysregulation. The functions of sNS1 play roles in immune escape and, paradoxically, in pathogenesis which is observed in severe forms of the disease. Because most of this data are about Dengue Virus, we would like to study, in vitro, functional properties of the sNS1WNV during infection of epithelial, glial and neuronal mammalian cells. Based on the high sNS1 protein structure similarities among flaviviruses, our hypothesis suggests a role of sNS1WNV in neuroinvasive infections.The sNS1WNV protein doesn’t seem to modulate viral infection steps. However, it is involved in actin cytoskeleton remodeling in epithelial cells. sNS1WNV is also involved in the activation of antiviral response pathways in non-infected neuronal cells. On the other hand, by targeting sNS1 and envelope protein E of WNV, we performed a screening of aRep molecules (artificial proteins with alphahelicoïdal repeats) and isolated ligands with high affinity for these viral factors. Because this new type of molecules is able to specifically bind to sNS1 and E, they have potential to be used for the development of new diagnostic tools and antiviral therapeutic agents

Arbovirus

Flavivirus

West Nile

Protéine NS1

Pathogenèse

Protéine E

Criblage

Molécules alphaRep

Arbovirus

Flavivirus

West Nile Virus

NS1 protein

Pathogenesis

E protein

Screening

AlphaRep molecules

579.2