Caracterização da resposta imune citocínica na infecção humana pelo vírus oropouche e sua relação com o padrão de soroconversão e a presença de sintomas

A tese aqui apresentada trata-se do primeiro estudo em nível mundial que pesquisa e caracteriza a resposta imune citocínica em infecções humanas pelo Orthobunyavirus Oropuche. Como metodologia para o alcance dos objetivos aqui apresentados foi utilizado um total de 320 amostras de soros humanos, onde 60 destas foram provenientes de Banco de Sangue (Controle negativo) e 260 foram obtidas mediante dois surtos do Vírus Oropouche nos Estados do Pará e Amapá (Brasil), sendo estas últimas divididas em oito subgrupos para obtenção dos dados com exatidão. Nas amostras coletadas foram realizadas análises dos dados clínicos/sintomatologia através dos prontuários, dados sorológicos através da titulação de anticorpos por Inibição da Hemaglutinação (IgM/IgG) e detecção do nível de citocinas plasmáticas por citometria de fluxo a qual permitiu a descrição técnica da dosagem de citocinas possibilitando ainda a análise de frequência de baixos e altos produtores de citocina. Os dados obtidos permitiram observar as variáveis e o comportamento das assinaturas de citocinas expressas pelos pacientes mediante a confirmação sorológica do vírus, bem como o comportamento destes analitos séricos quando da presença de sintomas específicos como febre, calafrios, cefaléia e tontura, permitindo assim que se chegasse à conclusão que a) existe um padrão na síntese de citocinas pró-inflamatórias e reguladoras; b) observa-se um balanço no perfil da resposta imune entre citocinas pró-inflamatórias (Th1) e moduladoras (Th17); c) a infecção pelo Vírus Oropouche altera a produção das citocinas nos indivíduos; d) os resultados mostram também que ao comparar os indivíduos Não respondedores com os Respondedores precoces, houve aumento da IL-1β e diminuição da IL-12; Não respondedores com Respondedores tardios, houve diminuição da IL-8, e aumento da IFN-α, IL-23 e IL-17; Não respondedores comparados com Respondedores precoces ocorreram o aumento de IL-4 e IFN-; Já quando comparado Respondedores precoces e respondedores tardios houve diminuição de IFN-α e IL-6; Respondedores precoces de forma geral apresentaram diminuição da IL-10 e Respondedores tardios apresentaram aumento da IL-5; e) Os resultados mostram ainda a expressão de IL-5 em pacientes que manifestaram os sintomas específicos para a infecção pelo Oropouche (febre, calafrios, cefaléia e tontura), sugerindo este sinal estar associado diretamente à patogênese do vírus; f) há a necessidade da complementação desta pesquisa com mais estudos como àqueles relacionados com a expressão de quimiocinas.

In vitro and in vivo studies of the Interferon-alpha action on distinct Orthobunyavirus

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.

Caracterização genética, correlação antigênica e ecoepidemiológica dos vírus do grupo C (Bunyaviridae, orthobunyavirus) isolados nas américas

Até o presente momento, estudos moleculares para os vírus do grupo C (Bunyaviridae, Orthobunyavirus) não foram publicados. O presente trabalho determinou as seqüências nucleotídicas completas para os segmento ARN pequenos (P-ARN) e a seqüencias parciais para os segmentos de ARN médio (M-ARN) dos vírus do grupo C. A seqüencia completa do segmento P-ARNvariou de 915 a 926 nucleotídeos, e revelou organização genômica semelhante em comparação aos demais ortobunyavírus. Baseado nos 705 nt do gene N, os membros do grupo C foram distribuídos em três grupos filogenéticos principais, com exceção do vírus Madrid que foi posicionado fora destes três grupos. A análise da cepa BeH 5546 do vírus Caraparu revelou que o mesmo apresenta seu segmento P-ARN semelhante ao do vírus Oriboca , sendo um vírus rearranjado em natureza. Em adição, a análise dos 345 nt do gene Gn para sete vírus do grupo C e para a cepa BeH 5546, revelou uma diferente topologia filogenética, sugerindo um padrão de rearranjo genético entre estes vírus. Estes achados representam as primeiras evidências de rearranjo genético em natureza entre os vírus do grupo C, dos quais vários são patógenos humanos. Finalmente, nossos dados genéticos corroboraram dados de relacionamento antigênico entre esses vírus determinados utilizando métodos sorológicos (testes de fixação de complemento, inibição da hemaglutinação e neutralização), sugerindo que a associação de dados informativos aos níveis molecular, sorológico e eco-epidemiológico podem contribuir para o melhor entendimento da epidemiologia molecular dos ortobunyavírus.

Caracterização molecular dos vírus do grupo Gamboa (Bunyaviridae, Orthobunyavirus) isolados nas américas e infecção experimental em pintos (Gallus gallus domesticus) com o vírus Gamboa cepa Be AN 439546

Poucas informações estão disponíveis até o momento sobre os vírus do sorogrupo Gamboa (Bunyaviridae, Orthobunyavirus), desta forma, foi realizado, neste trabalho, estudo filogenético dos membros do sorogrupo Gamboa entre si e com outros orthobunyavírus ao nível gene Gn (M-RNA), além de infecção experimental em pintos recém nascidos da espécie Gallus gallus domesticus com a cepa Be AN 439546 do Vírus Gamboa (VGAM), e estudo sorológico em aves, outros animais silvestres e humanos de Tucuruí – Pará. A análise filogenética dos vírus do sorogrupo Gamboa demonstrou que esses vírus são geneticamente mais relacionados com membros do grupo Turlock e menos com os do grupo Simbu, e foram distribuídos em dois clados distintos (I e II), que estão de acordo com a atual classificação sorológica, de modo que o clado I inclui o complexo Gamboa e o clado II o complexo Alajuela. A cepa Be AN 439546 do VGAM apresentou tropismo pelo pulmão e fígado de pintos recém nascidos experimentalmente infectados, sendo a replicação viral nesses órgãos confirmada por imunohistoquímica, o que demonstra que o VGAM replica-se nessa ave. A detecção de anticorpos inibidores da hemaglutinação contra o VGAM e a confirmação por teste de neutralização em plasma de aves silvestres reforça a hipótese de que esses animais constituem o principal hospedeiro de amplificação no ciclo de manutenção do VGAM. Estudos moleculares do genoma completo dos vírus do sorogrupo Gamboa, assim como sobre a ecoepidemiologia do vetor e dos hospedeiros (principalmente aves), para o ciclo de replicação dos vírus, são importantes para confirmar as informações já existentes sobre esses vírus.

Caracterização molecular do vírus Melao cepas BE AR 633512 e BE AR 8033 (Bunyaviridae, Orthobunyavirus) e infecção experimental em hamsters dourados (Mesocricetus auratus)

As cepas do Virus Melao (VMEL), BE AR 8033 e BE AR 633512 foram isoladas de mosquitos Ochlerotatus (Ochlerotatus) scapularis, em Belém- PA (1955) e Alta Floresta do Oeste- RO (2000), respectivamente. Este trabalho teve como objetivo caracterizar molecularmente as cepas BE AR 633512 e BE AR 8033 e realizar estudos histopatológicos, bioquímicos e imunológicos comparativos em hamsters dourados (Mesocricetus auratus). Hamsters mostraram suscetibilidade às cepas do VMEL. A viremia em hamsters para BE AR 633512 ocorreu do 3º ao 6º dias pós-infecção (dpi.), e para a cepa BE AR 8033 ocorreu no 2º dpi. Anticorpos neutralizantes para ambas as cepas foram detectados a partir de 5 dpi., e se mantiveram até 30 dpi. As cepas testadas alteraram os marcadores bioquímicos AST, ALT e uréia, enquanto que a creatinina só apresentou alteração estatisticamente significante nos animais infectados com a cepa viral BE AR 633512, em comparação aos animais controles não infectados. Alterações histopatológicas foram observadas no SNC, fígado, rim e baço dos hamsters infectados pelas cepas do VMEL, sendo a infecção nesses órgãos confirmada por imunohistoquímica. A cepa BE AR 633512 foi mais virulenta e patogênica para hamsters que a cepa BE AR 8033. A análise genética dos genes N, Gn e Gc revelou que para os genes N e Gn, a cepa BE AR 8033 e do protótipo VMEL (TRVL 9375) são mais geneticamente relacionados. Para o gene Gc, a cepa BE AR 8033 é mais relacionada com a cepa BE AR 633512, sendo que esta última cepa apresentou maior variabilidade genética, principalmente no gene Gn com várias substituições de aminoácidos, mas as mutações no gene Gc provavelmente foram responsáveis pelo aumento da virulência e patogenicidade em hamsters.

Epidemiologia molecular do Vírus Oropouche (Bunyaviridae: Orthobunyavirus) na Amazônia brasileira

O Virus Oropouche (VORO; Bunyaviridae, Orthobunyavirus) é um dos mais importantes arbovírus que infecta humanos na Amazônia brasileira, e é causador da febre do Oropouche. Entre 1961 e 2009, um grande número de epidemias foi registrado em diferentes centros urbanos dos Estados Brasileiros do Acre, Amapá, Amazonas, Maranhão, Pará, Rondônia e Tocantins, e também no Panamá, Peru e Trinidad & Tobago. Este trabalho teve por objetivo desenvolver um estudo retrospectivo dos aspectos epidemiológicos e moleculares do VORO enfatizando sua distribuição, a dinâmica das epidemias ocorridas no período, bem como a dispersão de diferentes genótipos na América Latina e no Brasil como contribuição à epidemiologia molecular do VORO. Para tanto 66 isolamentos do VORO pertencentes ao acervo do Instituto Evandro Chagas foram propagados em camundongos e em cultura de células VERO, seguida da extração do RNA viral e obtenção do cDNA por RTPCR; os amplicons foram purificados e submetidos ao sequenciamento nucleotídico para análises moleculares e evolução, incluindo o rearranjo genético, estudo de relógio molecular e análise de dispersão viral. Foi demonstrada a presença de quatro linhagens distintas do VORO na Amazônia brasileira (genótipos I, II, III e IV), sendo os genótipos I e II, respectivamente os mais frequentemente encontrados em áreas da Amazônia ocidental e oriental. Esses e o genótipo III estão constantemente evoluindo, mediante o mecanismo “boom and boost” que resulta na emergência seguida de substituição das sublinhagens (subgenótipos) circulantes por outras mais recentes. O genótipo III do VORO, previamente encontrado somente no Panamá, foi descrito na Amazônia e Sudeste do Brasil. Os dados obtidos pela análise filogenética comparativa das topologias para os segmentos PRNA e MRNA sugerem que o VORO utiliza o rearranjo genético como mecanismo de geração de biodiversidade viral, sendo o genótipo I o mais estável e o II o mais instável e, portanto, mais sensível às pressões evolutivas; foi reconhecido um novo genótipo do VORO neste estudo em amostras isoladas em Manaus no ano de 1980, que foi denominado de genótipo IV. O estudo do relógio molecular mostrou que a emergência do VORO se deu no Estado do Pará provavelmente há 223 anos e daí ao longo dos anos se dispersou pela PanAmazônia bem como para o Caribe, sendo que o genótipo I foi o que originou os demais genótipos do VORO.

Short Report: Identification of Oropouche Orthobunyavirus in the Cerebrospinal Fluid of Three Patients in the Amazonas, Brazil

Oropouche fever is the second most frequent arboviral infection in Brazil, surpassed only by dengue. Oropouche virus (OROV) causes large and explosive outbreaks of acute febrile illness in cities and villages in the Amazon and Central-Plateau regions. Cerebrospinal fluid (CSF) samples from 110 meningoencephalitis patients were analyzed. The RNA extracted from fluid was submitted to reverse transcription-polymerase chain reaction and sequencing to identify OROV. Three CSF samples showed the presence of OROV causing infection in the central nervous system (CNS). These patients are adults. Two of the patients had other diseases affecting CNS and immune systems: neurocysticercosis and acquired immunodeficiency syndrome, respectively. Nucleotide sequence analysis showed that the OROV from the CSF of these patients belonged to genotype I. We show here that severe Oropouche disease is occurring during outbreaks of this virus in Brazil

Oropouche Virus Infection And Pathogenesis Is Restricted By Mavs, Irf-3, Irf-7, And Type I Ifn Signaling Pathways In Non-myeloid Cells.

Oropouche virus (OROV) is a member of the Orthobunyavirus genus in the Bunyaviridae family and a prominent cause of insect-transmitted viral disease in Central and South America. Despite its clinical relevance, little is known about OROV pathogenesis. To define the host defense pathways that control OROV infection and disease, we evaluated OROV pathogenesis and immune responses in primary cells and mice that were deficient in the RIG-I-like receptor signaling pathway (MDA5, RIG-I, or MAVS), downstream regulatory transcription factors (IRF-3 or IRF-7), IFN-β, or the receptor for type I IFN signaling (IFNAR). OROV replicated to higher levels in primary fibroblasts and dendritic cells lacking MAVS signaling, the transcription factors IRF-3 and IRF-7, or IFNAR. In mice, deletion of IFNAR, MAVS, or IRF-3 and IRF-7 resulted in uncontrolled OROV replication, hypercytokinemia, extensive liver damage, and death whereas wild-type (WT) congenic animals failed to develop disease. Unexpectedly, mice with a selective deletion of IFNAR on myeloid cells (CD11c Cre(+) Ifnar(f/f) or LysM Cre(+) Ifnar(f/f)) did not sustain enhanced disease with OROV or La Crosse virus, a closely related encephalitic orthobunyavirus. In bone marrow chimera studies, recipient irradiated Ifnar(-/-) mice reconstituted with WT hematopoietic cells sustained high levels of OROV replication and liver damage, whereas WT mice reconstituted with Ifnar(-/-) bone marrow were resistant to disease. Collectively, these results establish a dominant protective role for MAVS, IRF-3 and IRF-7, and IFNAR in restricting OROV virus infection and tissue injury, and suggest that IFN signaling in non-myeloid cells contributes to the host defense against orthobunyaviruses. Oropouche virus (OROV) is an emerging arthropod-transmitted orthobunyavirus that causes episodic outbreaks of a debilitating febrile illness in humans in countries of South and Central America. The continued expansion of the range and number of its arthropod vectors increases the likelihood that OROV will spread into new regions. At present, the pathogenesis of OROV in humans or other vertebrate animals remains poorly understood. To define cellular mechanisms of control of OROV infection, we performed infection studies in a series of primary cells and mice that were deficient in key innate immune genes involved in pathogen recognition and control. Our results establish that a MAVS-dependent type I IFN signaling pathway has a dominant role in restricting OROV infection and pathogenesis in vivo.

Apoptosis induced by Oropouche virus infection in HeLa cells is dependent on virus protein expression

Oropouche (OROV) is a single-stranded RNA arbovirus of the family Bunyaviridae, genus Orthobunyavirus, which has caused over half a million cases of febrile illness in Brazil in the past 30 years. OROV fever has been registered almost exclusively in the Amazon region, but global warming, deforestation and redistribution of vectors and animal reservoirs increases the risk of Oropouche virus emergence in other areas. OROV causes a cytolytical infection in cultured cells with characteristic cytopathic effect 48 h post-infection. We have studied the mechanisms of apoptosis induced by OROV in HeLa cells and found that OROV causes DNA fragmentation detectable by gel electrophoresis and by flow cytometric analysis of the Sub-G1 population at 36 h post-infection. Mitochondrial release of cytochrome C and activation of caspases 9 and 3 were also detected by western blot analysis. Lack of apoptosis induced by UV-inactivated OROV reveals that virus-receptor binding is not sufficient to induce cell death. Results obtained in cells treated with chloroquine and cycloheximide indicated that viral uncoating and replication are required for apoptosis induction by OROV. Furthermore, treatment of the cells with pan-caspase inhibitor prevented OROV-induced apoptosis without affecting virus progeny production. The results show that OROV infection in vitro causes apoptosis by an intracellular pathway involving mitochondria, and activated by a mechanism dependent on viral replication and protein synthesis. (C) 2010 Elsevier B.V. All rights reserved.

Emergent arboviruses in Brazil

Brazil is a large tropical country (8,514,215km²) with 185,360,000 inhabitants. More than one third of its territory is covered by tropical forests or other natural ecosystems. These provide ideal conditions for the existence of many arboviruses, which are maintained in a large variety of zoonotic cycles. The risk that new arboviruses might emerge in Brazil is related to the existence of large, densely populated cities that are infested by mosquitoes such as Culex and the highly anthropophilic Aedes aegypti. Infected humans or animals may come into these cities from ecological-epidemiological settings where arbovirus zoonoses occur. This study analyzes the risk of emergence of the alphaviruses Mayaro, Venezuelan equine encephalitis, Eastern equine encephalitis and Chikungunya; the flaviviruses yellow fever, Rocio, Saint Louis encephalitis and West Nile; and the orthobunyavirus Oropouche.

Concurrent dengue and malaria in the Amazon region

INTRODUCTION: The Amazon region has extensive forested areas and natural ecosystems, providing favorable conditions for the existence of innumerous arboviruses. Over 200 arboviruses have been isolated in Brazil and about 40 are associated with human disease. Four out of 40 are considered to be of public health importance in Brazil: Dengue viruses (1-4), Oropouche, Mayaro and Yellow Fever. Along with these viruses, about 98% of the malaria cases are restricted to the Legal Amazon region. METHODS: This study aimed to investigate the presence of arboviruses in 111 clinical serum samples from patients living in Novo Repartimento (Pará), Plácido de Castro (Acre), Porto Velho (Rondônia) and Oiapoque (Amapá). The viral RNA was extracted and RT-PCR was performed followed by a Multiplex-Nested-PCR, using Flavivirus, Alphavirus and Orthobunyavirus generic and species-specific primers. RESULTS: Dengue virus serotype 2 was detected in two patients living in Novo Repartimento (Pará) that also presented active Plasmodium vivax infection. CONCLUSIONS: Despite scant data, this situation is likely to occur more frequently than detected in the Amazon region. Finally, it is important to remember that both diseases have similar clinical findings, thus the diagnosis could be made concomitantly for dengue and malaria in patients living or returning from areas where both diseases are endemic or during dengue outbreaks.

Detection of Oropouche virus segment S in patients and inCulex quinquefasciatus in the state of Mato Grosso, Brazil

This study aimed to investigate the circulation of Orthobunyavirus species in the state of Mato Grosso (MT) Brazil. During a dengue outbreak in 2011/2012, 529 serum samples were collected from patients with acute febrile illness with symptoms for up to five days and 387 pools of female Culex quinquefasciatuscaptured in 2013 were subjected to nested-reverse transcription-polymerase chain reaction for segment S of the Simbu serogroup followed by nucleotide sequencing and virus isolation in Vero cells. Patients (5/529; 0.9%) from Cuiabá (n = 3), Várzea Grande (n = 1) and Nova Mutum (n = 1) municipalities were positive for the S segment of Oropouche virus (OROV). Additionally, eight/387 Cx. quinquefasciatuspools were positive for the segment, with a minimum infection rate of 2.3. Phylogenetic analysis indicated that all the samples belong to the subgenotype Ia, presenting high homology with OROV strains obtained from humans and animals in the Brazilian Amazon. The present paper reports the first detection of an Orthobunyavirus, possibly OROV, in patients and in Cx. quinquefasciatus mosquitoes in MT. This finding reinforces the notion that arboviruses frequently reported in the Amazon Region circulate sporadically in MT during dengue outbreaks.

Emerging animal viruses: real threats or simple bystanders?

The list of animal viruses has been frequently added of new members raising permanent concerns to virologists and veterinarians. The pathogenic potential and association with disease have been clearly demonstrated for some, but not for all of these emerging viruses. This review describes recent discoveries of animal viruses and their potential relevance for veterinary practice. Dogs were considered refractory to influenza viruses until 2004, when an influenza A virus subtype H3N8 was transmitted from horses and produced severe respiratory disease in racing greyhounds in Florida/USA. The novel virus, named canine influenza virus (CIV), is considered now a separate virus lineage and has spread among urban canine population in the USA. A new pestivirus (Flaviviridae), tentatively called HoBi-like pestivirus, was identified in 2004 in commercial fetal bovine serum from Brazil. Hobi-like viruses are genetically and antigenically related to bovine viral diarrhea virus (BVDV) and induce similar clinical manifestations. These novel viruses seem to be widespread in Brazilian herds and have also been detected in Southeast Asia and Europe. In 2011, a novel mosquito-borne orthobunyavirus, named Schmallenberg virus (SBV), was associated with fever, drop in milk production, abortion and newborn malformation in cattle and sheep in Germany. Subsequently, the virus disseminated over several European countries and currently represents a real treat for animal health. The origin of SBV is still a matter of debate but it may be a reassortant from previous known bunyaviruses Shamonda and Satuperi. Hepatitis E virus (HEV, family Hepeviridae) is a long known agent of human acute hepatitis and in 1997 was first identified in pigs. Current data indicates that swine HEV is spread worldwide, mainly associated with subclinical infection. Two of the four HEV genotypes are zoonotic and may be transmitted between swine and human by contaminated water and undercooked pork meat. The current distribution and impact of HEV infection in swine production are largely unknown. Avian gyrovirus type 2 (AGV2) is a newly described Gyrovirus, family Circoviridae, which was unexpectedly found in sera of poultry suspected to be infected with chicken anemia virus (CAV). AGV2 is closely related to CAV but displays sufficient genomic differences to be classified as a distinct species. AGV2 seems to be distributed in Brazil and also in other countries but its pathogenic role for chickens is still under investigation. Finally, the long time and intensive search for animal relatives of human hepatitis C virus (HCV) has led to the identification of novel hepaciviruses in dogs (canine hepacivirus [CHV]), horses (non-primate hepaciviruses [NPHV] or Theiler's disease associated virus [TDAV]) and rodents. For these, a clear and definitive association with disease is still lacking and only time and investigation will tell whether they are real disease agents or simple spectators.

Modulation of potassium channels inhibits bunyavirus infection

Bunyaviruses are considered to be emerging pathogens facilitated by the segmented nature of their genome that allows reassortment between different species to generate novel viruses with altered pathogenicity. Bunyaviruses are transmitted via a diverse range of arthropod vectors, as well as rodents, and have established a global disease range with massive importance in healthcare, animal welfare and economics. There are no vaccines or anti-viral therapies available to treat human bunyavirus infections and so development of new anti-viral strategies is urgently required. Bunyamwera virus (BUNV; genus Orthobunyavirus) is the model bunyavirus, sharing aspects of its molecular and cellular biology with all Bunyaviridae family members. Here, we show for the first time that BUNV activates and requires cellular potassium (K+) channels to infect cells. Time of addition assays using K+ channel modulating agents demonstrated that K+ channel function is critical to events shortly after virus entry but prior to viral RNA synthesis/replication. A similar K+ channel dependence was identified for other bunyaviruses namely Schmallenberg virus (Orthobunyavirus) as well as the more distantly related Hazara virus (Nairovirus). Using a rational pharmacological screening regimen, twin-pore domain K+ channels (K2P) were identified as the K+ channel family mediating BUNV K+ channel dependence. As several K2P channel modulators are currently in clinical use, our work suggests they may represent a new and safe drug class for the treatment of potentially lethal bunyavirus disease.

Concurrent dengue and malaria in the Amazon region

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)