30 resultados para Bunyaviridae


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Oropouche, Caraparu, Guama, Guaroa and Tacaiuma viruses (Orthobunyavirus genus) cause human febrile illnesses and/or encephalitis. To achieve a therapeutical agent to prevent and/or treat these diseases we evaluated the antiviral action of Interferon-alpha (IFN-alpha) on these orthobunyaviruses. In vitro results showed that all the studied orthobunyaviruses are susceptible to antiviral action of IFN-alpha, but this susceptibility is limited and dependent on both concentration of drug and treatment period. In vivo results demonstrated that IFN-alpha present antiviral action on Oropouche and Guaroa viruses when used as a prophylactic treatment. Moreover, a treatment initiated 3 It after infection prevented the death of Guaroa virus infected-mice. Additionally, mortality of mice was related to the migration and replication of viruses in their brains. Our results suggest that IFN-alpha could be potentially useful in the prevention of diseases caused by Oropouche virus and in the prevention and/or treatment of diseases caused by Guaroa virus. (C) 2007 Elsevier B.V. All rights reserved.

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Hantaviruses belong to the Bunyaviridae family, which consists of vector-borne viruses. These viruses can provoke two infection types: hemorrhagic fever with renal syndrome (HFRS) - which occurs in the Old World - and hantavirus cardiopulmonary syndrome (HCPS) - an emergent zoonosis that can be found in many countries of the western hemisphere. Rodents are hantavirus reservoirs and each species seems to host a different virus type. Humans acquire the infection by inhaling contaminated aerosol particles eliminated by infected animals. The factors involved in the emergence of hantavirus infections in the human population include ecological modifications and changes in human activities. The most important risk factor is contact between man and rodents, as a result of agricultural, forestry or military activities. Rodent control remains the primary strategy for preventing hantavirus diseases, including via health education and hygienic habits.

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Objective: Oropouche, Caraparu, Guama, Guaroa and Tacaiuma are ssRNA viruses that belong to the genus Orthobunyavirus and have been associated with human febrile illnesses and/or encephalitis. In this study, we evaluated the antiviral action of mycophenolic acid (MPA) on these orthobunyaviruses to achieve a therapeutic agent to treat the diseases caused by these viruses. Methods: the in vitro antiviral evaluation to MPA was done by using plaque assay at different periods of treatment. Results: Results showed that MPA at a concentration of 10 mu g/ml has significant antiviral activity on Tacaiuma virus when treatment was initiated either 24 h before or 2 h after viral infection. Moreover, MPA has an inhibitory effect on Guama virus replication, but only when treatment was initiated before cell infection. Addition of guanosine in the culture reverted the inhibitory effect of MPA on Tacaiuma and Guama viruses, suggesting that the antiviral activity of this substance was via depletion of the intracellular guanosine pool. Conclusion: Our results suggest that MPA would not be a good therapeutic agent to treat the diseases caused by Oropouche, Caraparu, Guama, Guaroa, and Tacaiuma viruses.

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O vírus Morumbi é membro do sorogrupo Phlebotomus fever (família Bunyavírídae: gênero Phlebovírus) nativo da Região Amazônica. Seu vetor é desconhecido, mas supõem-se ser transmitido por flebotomíneos. Foi isolado em 1988 de ser humano apresentando quadro febril agudo. Este arbovírus, quando inoculado em camundongo por via cerebral, demonstrou viscerotropismo, induzindo inclusive lesões no fígado do animal inoculado. Com os objetivos de: i) estabelecer as características anátomo-patológicas e imuno-histoquímicas em fígado de camundongos albinos Swíss recém-nascidos experimentalmente infectados pelo vírus Morumbi; ii) verificar se o vírus apresenta hepatotropismo diferenciado na dependência de inoculação pelas vias cerebral, peritoneal ou subcutânea; iii) caracterizar detalhadamente os padrões anátomo-patológicos sequenciais no fígado; iv) demonstrar a localização do antígeno viral no tecido hepático ao longo da infecção experimental; v) estudar possíveis inter-relações entre os achados anátomo-patológicos e os imuno-histoquímicos. Foram estudados experimentalmente 71 camundongos Swíss recém-nascidos (dois e três dias), distribuídos ao final do experimento como segue: 21 animais inoculados por via intracerebral (IC), 21 por via intraperitoneal (IP) e 29 animais inoculados por via subcutânea (SC). Utilizou-se a dose infectante 5,0DL 50 /0,02ml de suspensão de vírus. Outros trinta, animais que não receberam inóculos, foram utilizados como grupo controle. Subgrupos de oito animais (seis inoculados e dois do grupo controle) foram sacrificados diariamente a intervalos de 24 em 24 horas, até 96 horas para os grupos IC e IP e até 120 horas para o grupo SC. Fragmentos de fígado de todos os animais foram fixados em solução de formalina neutra a 10%, incluídos em parafina, de onde foram obtidos cortes de 5 mm que foram corados pela técnica de hematoxilina-eosina para análise morfológica e, cortes adicionais, foram submetidos à técnica de imuno-histoquímica (Sistema Envision, DAKO, USA), utilizando a fosfatase alcalina e soro hiperimune do vírus Morumbi preparado em camundongos jovens, para detecção de antígeno viral. Foram estudados seis parâmetros de lesão em áreas portais e nove outros nos lóbulos, que foram semiquantificados numa escala que variou de zero (0) a três cruzes (+++), onde zero significou ausência de lesão e três cruzes lesão intensa. À microscopia óptica, ficou evidente que o vírus Morumbi inoculado em camundongos por três diferentes vias induz lesões em áreas portais e lobulares, caracterizando uma hepatite aguda com presença de corpúsculos acidófilos, semelhantes aos corpúsculos de Councilman -Rocha Lima, de distribuição irregular nos lóbulos, cujo aparecimento foi observado 24 horas pós-inoculação (p.i.) e atingiu o máximo de intensidade às 72 horas p.i. em animais inoculados por via IP. O exame imuno-histoquímico mostrou presença leve de antígeno viral a partir de 24 horas p.i. no grupo IC e a partir de 48 horas p.i. nos grupos IP e SC, havendo certo paralelismo em relação a intensidade de lesão morfológica, tendo- se observado o máximo de detecção de antígeno viral em animais inoculados por via IP e sacrificados às 72 horas p.i. A distribuição geral de antígeno foi observada especificamente nos lóbulos hepáticos, no citoplasma de hepatócitos íntegros e necrosados e no interior de células de Kupffer, não havendo preferência por nenhuma das três zonas do lóbulo. Concluiu-se que: i) o modelo de infecção experimental em camundongos foi excelente para o estudo das lesões causadas pelo vírus Morumbi, podendo ser selecionada a via IP como referencial; ii) em todas as vias utilizadas (IP, IC e SC) se confirmou a infecção pelo vírus Morumbi com marcante detecção de seu antígeno, no tecido hepático de camundongos Swiss; iii) a presença de antígeno do vírus Morumbi no fígado desses camundongos associou-se ao aparecimento de hepatite aguda, com necrose focal; iv)hepatite intensa pôde ser observada em fígado de camundongos sacrificados 72 h p.i. com o vírus Morumbi por via IP, o que não foi verificado com as outras duas vias; v) a hepatite aguda mostrou-se limitada, neste experimento, tendendo a desaparecer na maioria dos camundongos inoculados, com avançar das horas; vi) colestase não alteração freqüente na hepatite experimental pelo vírus Morumbi, quando inoculada por via IC, IP e SC; vii) o antígeno do vírus Morumbi teve predominância pela localização intracitoplasmática, padrão granular, nos hepatócitos e células de Kupffer; viii) antígeno viral foi detectado em fragmento hepático de animais experimentalmente inoculados com o vírus Morumbi, a partir das 24 horas via IC e a partir de 48 horas nas vias IP e SC.

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A região Amazônica brasileira mantém a maior variedade de arbovírus e o estado do Pará corresponde a 26% desse território, o presente trabalho teve como objetivo determinar a prevalência e a distribuição de anticorpos detectados por inibição de hemaglutinação (IH) para 19 arbovírus em herbívoros domésticos no estado do Pará e padronizar testes de ELISA sanduíche indireto em equinos, bovinos, bubalinos e ovinos. Em todas as espécies de animais estudadas e em todo estado do Pará ocorreu detecção de anticorpos para todos os arbovírus analisados dentre os quais os SLEV, ILHV, EEEV, MAGV e WEEV apresentaram maior prevalência de anticorpos IH, sendo o SLEV o mais prevalente. Na detecção de anticorpos para diferentes famílias de arbovírus o MAGV foi o mais prevalente da família Bunyaviridae em todas as espécies, o SLEV foi o mais prevalente da família Flaviviridae em todas as espécies, na família Togaviridae o EEEV foi mais prevalente em equinos. Ao analisar a prevalência de anticorpos IH por espécie animal foi observado que os equinos não apresentaram diferença significativa em relação aos bubalinos, porém, apresentaram diferença significativa maior em comparação aos bovinos e ovinos, não havendo diferença significativa entre as espécies de ruminantes. O uso de ELISA IgG sanduíche indireto apresentou grande frequência de reações sorológicas cruzadas entre as famílias de arbovírus estudadas.

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Pós-graduação em Biotecnologia - IQ

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Oropouche virus, of the family Bunyaviridae, genus Orthobunyavirus, serogroup Simbu, is an important causative agent of arboviral febrile illness in Brazil. An estimated 500,000 cases of Oropouche fever have occurred in Brazil in the last 30 years, with recorded cases also in Panama, Peru, Suriname and Trinidad. We have developed an experimental model of Oropouche virus infection in neonatal BALB/c mouse by subcutaneous inoculation. The vast majority of infected animals developed disease on the 5th day post infection, characterized mainly by lethargy and paralysis, progressing to death within 10 days. Viral replication was documented in brain cells by in situ hybridization, immunohistochemistry and virus titration. Multi-step immunohistochemistry indicated neurons as the main target cells of OROV infection. Histopathology revealed glial reaction and astrocyte activation in the brain and spinal cord, with neuronal apoptosis. Spleen hyperplasia and mild meningitis were also found, without viable virus detected in liver and spleen. This is the first report of an experimental mouse model of OROV infection, with severe involvement of the central nervous system, and should become useful in pathogenesis studies, as well as in preclinical testing of therapeutic interventions for this emerging pathogen. (c) 2012 Elsevier B.V. All rights reserved.

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Rift Valley Fever (RVF) virus (Family Bunyaviridae) is an arthropod-borne RNA virus that infects primarily domestic ruminants and occasionally humans. RVF epizootics are characterized by numerous abortions and mortality among young animals. In humans, the illness is usually characterized by a mild self-limited febrile illness, which could progress to more serious complications. RVF virus is widespread and endemic in many regions of Africa. In Western Africa, several outbreaks have been reported since 1987 when the first major one occurred at the frontier of Senegal and Mauritania. Aiming to evaluate the spreading and molecular epidemiology in these countries, RVFV isolates from 1944 to 2008 obtained from 18 localities in Senegal and Mauritania and 15 other countries were investigated. Our results suggest that a more intense viral activity possibly took place during the last century compared to the recent past and that at least 5 introductions of RVFV took place in Senegal and Mauritania from distant African regions. Moreover, Barkedji in Senegal was possibly a hub associated with the three distinct entries of RVFV in West Africa.

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Hantavirus disease is caused by the hantavirus, which is an RNA virus belonging to the family Bunyaviridae. Hantavirus disease is an anthropozoonotic infection transmitted through the inhalation of aerosols from the excreta of hantavirus-infected rodents. In the county of Itacoatiara in the state of Amazonas (AM), Brazil, the first human cases of hantavirus pulmonary and cardiovascular syndrome were described in July 2004. These first cases were followed by two fatal cases, one in the municipality of Maues in 2005 and another in Itacoatiara in 2007. In this study, we investigated the antibody levels to hantavirus in a population of 1,731 individuals from four different counties of AM. Sera were tested by IgG/IgM-enzyme-linked immune-sorbent assay using a recombinant nucleocapsid protein of the Araraquara hantavirus as an antigen. Ten sera were IgG positive to hantavirus (0.6%). Among the positive sera, 0.8% (1/122), 0.4% (1/256), 0.2% (1/556) and 0.9% (7/797) were from Atalaia do Norte, Careiro Castanho, Itacoatiara and Labrea, respectively. None of the sera in this survey were IgM-positive. Because these counties are distributed in different areas of AM, we can assume that infected individuals are found throughout the entire state, which suggests that hantavirus disease could be a local emerging health problem.

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Background: Tospoviruses (Genus Tospovirus, Family Bunyaviridae) are phytopathogens responsible for significant worldwide crop losses. They have a tripartite negative and ambisense RNA genome segments, termed S (Small), M (Medium) and L (Large) RNA. The vector-transmission is mediated by thrips in a circulative-propagative manner. For new tospovirus species acceptance, several analyses are needed, e. g., the determination of the viral protein sequences for enlightenment of their evolutionary history. Methodology/Principal Findings: Biological (host range and symptomatology), serological, and molecular (S and M RNA sequencing and evolutionary studies) experiments were performed to characterize and differentiate a new tospovirus species, Bean necrotic mosaic virus (BeNMV), which naturally infects common beans in Brazil. Based upon the results, BeNMV can be classified as a novel species and, together with Soybean vein necrosis-associated virus (SVNaV), they represent members of a new evolutionary lineage within the genus Tospovirus. Conclusion/Significances: Taken together, these evidences suggest that two divergent lineages of tospoviruses are circulating in the American continent and, based on the main clades diversity (American and Eurasian lineages), new tospovirus species related to the BeNMV-SVNaV clade remain to be discovered. This possible greater diversity of tospoviruses may be reflected in a higher number of crops as natural hosts, increasing the economic impact on agriculture. This idea also is supported since BeNMV and SVNaV were discovered naturally infecting atypical hosts (common bean and soybean, respectively), indicating, in this case, a preference for leguminous species. Further studies, for instance a survey focusing on crops, specifically of leguminous plants, may reveal a greater tospovirus diversity not only in the Americas (where both viruses were reported), but throughout the world.

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Hantavirus cardiopulmonary syndrome (HCPS) is an infectious disease caused by hantaviruses of the family Bunyaviridae, and is transmitted by aerosols of excreta of infected rodents. The aim of the present study was to determine antibody levels to hantavirus in the population that lives at frontier of Brazil and Argentina. Participated of the study 405 individuals living in the municipalities of Bandeirante, Santa Helena, Princesa and Tunapolis, state of Santa Catarina, Brazil. IgG antibodies to hantavirus were analyzed in sera by an ELISA that uses a recombinant N protein of Araraquara hantavirus as antigen. The results were also confirmed by immunofluorescent test. Eight individuals showed antibodies to hantavirus (1.97% positivity), with serum titers ranging from 100 to 800. Six seropositives were males, older than 30 years and farmers. Our results reinforce previous data on hantavirus circulation and human infections in the southern border of Brazil with Argentina.

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Caratteristiche generali dei Bunyaviridae

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Orthobunyaviruses are the largest genus within the Bunyaviridae family, with over 170 named viruses classified into 18 serogroups (Elliott and Blakqori, 2001; Plyusnin et al., 2012). Orthobunyaviruses are transmitted by arthropods and have a tripartite negative sense RNA genome, which encodes 4 structural proteins and 2 non-structural proteins. The non-structural protein NSs is the primary virulence factor of orthobunyaviruses and potent antagonist of the type I interferon (IFN) response. However, sequencing studies have identified pathogenic viruses that lack the NSs protein (Mohamed et al., 2009; Gauci et al., 2010). The work presented in this thesis describes the molecular and biological characterisation of divergent orthobunyaviruses. Data on plaque morphology, growth kinetics, protein profiles, sensitivity to IFN and activation of the type I IFN system are presented for viruses in the Anopheles A, Anopheles B, Capim, Gamboa, Guama, Minatitlan, Nyando, Tete and Turlock serogroups. These are complemented with complete genome sequencing and phylogenetic analysis. Low activation of IFN by Tete serogroup viruses, which naturally lack an NSs protein, was also further investigated by the development of a reverse genetics system for Batama virus (BMAV). Recombinant viruses with mutations in the virus nucleocapsid protein amino terminus showed higher activation of type I IFN in vitro and data suggests that low levels of IFN are due to lower activation rather than active antagonism. The anti-orthobunyavirus activity of IFN-stimulated genes IFI44, IFITMs and human and ovine BST2 were also studied, revealing that activity varies not only within the orthobunyavirus genus and virus serogroups but also within virus species. Furthermore, there was evidence of active antagonism of the type I IFN response and ISGs by non-NSs viruses. In summary, the results show that pathogenicity in man and antagonism of the type I IFN response in vitro cannot be predicted by the presence, or absence, of an NSs ORF. They also highlight problems in orthobunyavirus classification with discordance between classical antigen based data and phylogenetic analysis.

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Schmallenberg virus (SBV) is a novel Orthobunyavirus causing mild clinical signs in cows and malformations in aborted and neonatal ruminants in Europe. SBV belongs to the family Bunyaviridae and is transmitted by biting midges. This new virus was identified for the first time in blood samples of cows in the city of Schmallenberg in North-Rhine Westphalia in November 2011. Since then, the virus spread to several European countries. Here, we describe the pathogenesis and the risk of viral spread in the Portuguese territory.

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Schmallenberg virus (SBV) is a novel Orthobunyavirus causing mild clinical signs in cows and malformations in aborted and neonatal ruminants in Europe. SBV belongs to the family Bunyaviridae and is transmitted by biting midges. This new virus was identified for the first time in the blood samples of cows in the city of Schmallenberg in NorthRhine-Westphalia in November 2011. Since then the virus spread to several European countries. Here we describe the origin and emergence, as well as the transmission and the differential diagnosis of this virus, now known to be a serious threat to Veterinary Public Health.