Oropouche Virus Isolation, Southeast Brazil

An Oropouche virus strain was isolated from a novel host (Callithrix sp.) in Arinos, Minas Gerais State, southeastern Brazil. The virus was identified by complement fixation test and confirmed by reverse transcription–polymerase chain reaction. Phylogenetic analysis identified this strain as a genotype III isolate previously recognized only in Panama

Reemergence of Oropouche Fever, Northern Brazil

Oropouche fever has reemerged in Parauapebas and Porto de Moz municipalities, Pará State, Brazil. Serologic analysis (immunoglobulin M–ELISA) and virus isolation confirmed Oropouche virus (OROV) in both municipalities. Nucleotide sequencing of 2 OROV isolates from each location indicated genotypes I (Parauapebas) and II (Porto de Moz) in Brazil

Emergence of new immunopathogenic factors in human yellow fever: polarization of the M1/M2 macrophage response in the renal parenchyma

This research was funded by grant number 457664/2013-4 and 303999/2016-0.Ministério da Saúde. Secretaria de Vigilância em Saúde. Instituto Evandro Chagas. Ananindeua, PA, Brasil.Universidade do Estado do Pará. Departamento de Patologia. Belém, PA, Brazil / Universidade de São Paulo. Faculdade de Medicina. São Paulo, SP, Brazil.Universidade do Estado do Pará. Departamento de Patologia. Belém, PA, Brazil.Universidade do Estado do Pará. Departamento de Patologia. Belém, PA, Brazil.Ministério da Saúde. Secretaria de Vigilância em Saúde. Instituto Evandro Chagas. Ananindeua, PA, Brasil.Ministério da Saúde. Secretaria de Vigilância em Saúde. Instituto Evandro Chagas. Ananindeua, PA, Brasil.Ministério da Saúde. Secretaria de Vigilância em Saúde. Instituto Evandro Chagas. Ananindeua, PA, Brasil.Ministério da Saúde. Secretaria de Vigilância em Saúde. Instituto Evandro Chagas. Ananindeua, PA, Brasil.Universidade de São Paulo. Faculdade de Medicina. São Paulo, SP, Brazil.Universidade do Estado do Pará. Departamento de Patologia. Belém, PA, Brazil.Universidade do Estado do Pará. Departamento de Patologia. Belém, PA, Brazil.Universidade do Estado do Pará. Departamento de Patologia. Belém, PA, Brazil / Universidade de São Paulo. Faculdade de Medicina. São Paulo, SP, Brazil / Universidade Federal do Pará. Núcleo de Medicina Tropical. Belém, PA, Brazil.Macrophages in the kidney play a pathogenic role in inflammation and fibrosis. Our study aimed to understand the polarisation of the M1 and M2 phenotypic profiles of macrophages in injured kidney tissue retrieved from fatal cases of yellow fever virus (YFV). A total of 11 renal tissue biopsies obtained from patients who died of yellow fever (YF) were analysed. To detect antibodies that promote the classical and alternative pathways of macrophage activation, immunohistochemical analysis was performed to detect CD163, CD68, inducible nitric oxide synthase (iNOS), arginase 1, interleukin (IL)-4, IL-10, interferon (IFN)-γ, IFN-β, tumour necrosis factor (TNF)-α, IL-13, and transforming growth factor (TGF)-β. There was a difference in the marker expression between fatal cases of YFV and control samples, with increased expression in the cortical region of the renal parenchyma. The immunoexpression of CD68 and CD163 receptors suggests the presence of activated macrophages migrating to infectious foci. The rise in IL-10, IL-4, and IL-13 indicated their potential role in the inactivation of the inflammatory macrophage response and phenotypic modulation of M2 macrophages. The altered expression of IFN-γ and IFN-β demonstrates the importance of the innate immune response in combating microorganisms. Our findings indicate that the polarisation of M1 and M2 macrophages plays a vital role in the renal immune response to YFV

Characterization of the Gamboa virus serogroup (Orthobunyavirus genus, Peribunyaviridae family)

Comprehensive comparative phylogenetic analyses were performed on 17 Gamboa serogroup viruses (GAMSVs) from distinct geographic regions in the Americas and other representative members of the genus Orthobunyavirus (Peribunyaviridae), based on small (S), medium (M), and large (L) open reading frame full-length and partial sequences. Genome characterization showed that the GAMSVs divide into four clades or genotypes. The GAMSVs have a genetic organization similar to other orthobunyaviruses, except that they have a larger NSm protein than other orthobunyaviruses. A serosurvey for Gamboa virus antibodies was performed in plasma from birds, other wild animals, and humans living around the Tucuruí hydroelectric dam in Pará state, northern Brazil, a known focus of GAMSV activity. Newborn chicks (Gallus gallus domesticus) were experimentally infected with a GAMSV, and the pathogenesis is described. Histopathological changes were primarily in the lungs and liver. Also, a review of the ecology of the GAMSVs in the Americas is included. In sum, this study presents the genomic and evolutionary characterization of the Gamboa group and the potential model of pathogenesis, which would be helpful for diagnostic purposes, epidemiology, and immunopathogenesis studies

Early and Late Pathogenic Events of Newborn Mice Encephalitis Experimentally Induced by Itacaiunas and Curionópolis Bracorhabdoviruses Infection

In previous reports we proposed a new genus for Rhabdoviridae and described neurotropic preference and gross neuropathology in newborn albino Swiss mice after Curionopolis and Itacaiunas infections. In the present report a time-course study of experimental encephalitis induced by Itacaiunas and Curionopolis virus was conducted both in vivo and in vitro to investigate cellular targets and the sequence of neuroinvasion. We also investigate, after intranasal inoculation, clinical signs, histopathology and apoptosis in correlation with viral immunolabeling at different time points. Curionopolis and Itacaiunas viral antigens were first detected in the parenchyma of olfactory pathways at 2 and 3 days post-inoculation (dpi) and the first clinical signs were observed at 4 and 8 dpi, respectively. After Curionopolis infection, the mortality rate was 100% between 5 and 6 dpi, and 35% between 8 and 15 dpi after Itacaiunas infection. We identified CNS mice cell types both in vivo and in vitro and the temporal sequence of neuroanatomical olfactory areas infected by Itacaiunas and Curionopolis virus. Distinct virulences were reflected in the neuropathological changes including TUNEL immunolabeling and cytopathic effects, more intense and precocious after intracerebral or in vitro inoculations of Curionopolis than after Itacaiunas virus. In vitro studies revealed neuronal but not astrocyte or microglial cytopathic effects at 2 dpi, with monolayer destruction occurring at 5 and 7 dpi with Curionopolis and Itacaiunas virus, respectively. Ultrastructural changes included virus budding associated with interstitial and perivascular edema, endothelial hypertrophy, a reduced and/or collapsed small vessel luminal area, thickening of the capillary basement membrane, and presence of phagocytosed apoptotic bodies. Glial cells with viral budding similar to oligodendrocytes were infected with Itacaiunas virus but not with Curionopolis virus. Thus, Curionopolis and Itacaiunas viruses share many pathological and clinical features present in other rhabdoviruses but distinct virulence and glial targets in newborn albino Swiss mice brain

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

Presently, little information on Gamboa serogroup viruses (Bunyaviridae, Orthobunyavirus) is available. Thus, in this work, it was performed a comparative phylogenetic study on the members of the Gamboa serogroup and with other orthobunyaviruses to the level of the gene Gn (M-RNA); an experimental infections in the domestic bird (Gallus domesticus) using the strain Be AN 439546 of the Gamboa Virus (GAMV); and a serologic study using the Hemagglutination Inhibition (HI) test in serum samples of wild animals and humans collected in Tucuruí - Pará. The phylogenetic analysis of Gamboa group viruses demonstrated that they are genetically closely related to group Turlock viruses and less related to the Simbu group viruses. The group Gamboa viruses were distributed in two clades (I and II), that it is in agreement with the current serologic classification; the clade I correspond to the Gamboa complex and the clade II to the Alajuela complex. The strain Be AN 439546 presented tropism for chikens lung and liver, with viral replication in this organs confirmed by detection of viral antigens by immunohistochemistry. These results, demonstrate that this bird species is a susceptible host for GAMV replication. The detection of HI antibodies against GAMV, confirmed by neutralization tests were found in wild bird plasmas and reinforces the hypothesis that these animals constitute the main amplification hosts in the maintenance cycle of GAMV. Full length genome studies of the Gamboa serogroup viruses, as well as on the ecoepidemiology of their vectors and potential vertebrate hosts are needed to generate new data and to reinforce the understanding of the information already existent on those viruses.FAPESPA - Fundação Amazônia de Amparo a Estudos e PesquisasPoucas 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 da amostra viral BE AR 637257 isolada de mosquitos Wyeomyia SP. Em Caxiuanã, Pará.

Apenas foram migradas as páginas e/ou folhas que evidenciam a participação e/ou citação a Dra. Gilberta Bensabath.BR IEC GB AP AE BAN 012DossiêItensPlano de dissertação e a dissertação de mestrado em Ciências Biológicas da UFPA "Caracterização da amostra viral BE AR 637257 isolada de mosquitos Wyeomyia SP. Em Caxiuanã, Pará." de autoria de Jannifer Oliveira Chiang. Contém também atestado de participação e anotações escrita a mão pela Drª. Gilberta Bensabath

Immunological impact of cytokines on the chikungunya virus pathophysiology: a literature narrative review

439971/2016-0/Conselho Nacional de Desenvolvimento Científico e Tecnológico; 303999/2016-0/Conselho Nacional de Desenvolvimento Científico e Tecnológico; 310295/2021-1/Conselho Nacional de Desenvolvimento Científico e Tecnológico; 4063602022/7/National Institute for Science and Technology in Emerging and Reemerging VirusesUniversidade do Estado do Pará. Centro de Ciências Biológicas e da Saúde. Programa de Pós-Graduação em Biologia Parasitária da Amazônia. Belém, PA, Brasil / Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Instituto Evandro Chagas. Ananindeua, PA, Brasil.Universidade do Estado do Pará. Centro de Ciências Biológicas e da Saúde. Programa de Pós-Graduação em Biologia Parasitária da Amazônia. Belém, PA, Brasil / Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Instituto Evandro Chagas. Ananindeua, PA, Brasil.Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Instituto Evandro Chagas. Programa de Pós-Graduação em Virologia. Ananindeua, PA, Brasil.Universidade do Estado do Pará. Centro de Ciências Biológicas e da Saúde. Programa de Pós-Graduação em Biologia Parasitária da Amazônia. Belém, PA, Brasil / Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Instituto Evandro Chagas. Programa de Pós-Graduação em Virologia. Ananindeua, PA, Brasil.Universidade do Estado do Pará. Centro de Ciências Biológicas e da Saúde. Programa de Pós-Graduação em Biologia Parasitária da Amazônia. Belém, PA, Brasil / Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Instituto Evandro Chagas. Ananindeua, PA, Brasil / Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Instituto Evandro Chagas. Programa de Pós-Graduação em Virologia. Ananindeua, PA, Brasil.Universidade do Estado do Pará. Centro de Ciências Biológicas e da Saúde. Programa de Pós-Graduação em Biologia Parasitária da Amazônia. Belém, PA, Brasil / Ministério da Saúde. Secretaria de Vigilância em Saúde e Ambiente. Instituto Evandro Chagas. Ananindeua, PA, Brasil.The chikungunya virus (CHIKV) is a member of the genus Alphavirus, family Togaviridae. CHIKV causes an acute systemic febrile condition, accompanied by severe polyarthralgia, intense muscle pain, and maculopapular exanthema, which may still occur in many patients. In rare cases, unusual symptoms may occur, eventually worsening the condition and resulting in a fatal outcome. It is a single-stranded, non-segmented RNA virus with a genome of approximately 11,805 nucleotides that organises a genetic and molecular chain that encodes non-structural proteins (nsP1, nsP2, nsP3, nsP4) and structural proteins (E3, E2, 6K, and E1). The fundamental role of immune response in the evolution of the disease is known. Understanding the role of immune response in the pathogenesis of CHIKV infection is challenging. In this context, innate and adaptive immune responses establish a connective interface that induces the production of various mediators that modulate the strategy of inhibiting viral replication. However, the immune escape articulated by the virus indicates that the action of pro-and anti-inflammatory cytokines contributes to the worsening of the disease and potentiates tissue damage with joint involvement. In this review, we discuss the role of the primary pro-and anti-inflammatory cytokines in the immunopathological processes of chikungunya fever

Prevalence of arbovirus antibodies against the family Bunyaviridae in water buffaloes

The State of Pará comprises 26% of Brazilian Amazon region where a large diversity of arboviruses has been described. This study sought to assess the prevalence and distribution of haemagglutination-inhibition antibodies against antigens of nine different types of arbovirus of the Bunyaviridae family, where eight were Orthobunyavirus: Guaroa virus, Maguari virus, Tacaiuma virus, Utinga virus, Belem virus, Caraparu virus, Oropouche virus and Catu virus, and one Phlebovirus: Icoaraci virus in sera samples of water buffaloes in Pará State, Brazil. For all Arboviruses investigated there were antibodies, with the exception of Belem virus. Antibodies to Maguari viruswere more prevalent (7.33%). The water buffaloes of the present study showed variable levels of antibodies in monotypic and heterotypic reactions that may indicate there are movements from most bunyavirus studied in domestic buffaloes in the state of Pará, and the Maguari virus presents the largest circulation. Therefore, further studies are needed to investigate the role of water buffalo in the maintenance and dispersal of arboviruses, as well as whether these viruses can cause disease in that species, especially in cases of birth defects and abortions.O Estado do Pará corresponde a 26% da Amazônica brasileira, onde uma grande quantidade de Arbovírus tem sido descrito. O presente trabalho teve como objetivo determinar a prevalência de anticorpos detectados pela técnica de inibição de hemaglutinação contra nove tipos diferentes de arbovírus da família Bunyaviridae, sendo oito do gênero Orthobunyavirus: vírus Guaroa, vírus Maguari, vírus Tacaiuma, vírus Utinga, vírus Belem, vírus Caraparu, vírus Oropouche e vírus Catu e um do gênero Phlebovirus: vírus Icoaraci, em soros de búfalos de água no Estado do Pará, Brasil. Para todos os Arbovírus investigados houve presença de anticorpos, com exceção do vírus Belém. Anticorpos para o vírus Maguari foram mais prevalentes (7,33%). O rebanho bubalino do presente estudo mostrou variáveis níveis de anticorpos em reações heterotípicas e monotípicas podendo indicar que há circulação da maioria dos bunyavírus estudados em búfalos domésticos no estado do Pará, e que o vírus Maguari é o de maior circulação. Por isso, são necessários outros estudos para investigar o papel dos búfalos de água na manutenção e dispersão de arbovírus, assim como se esses vírus podem causar enfermidades na referida espécie, principalmente, em casos de defeitos congênitos e abortamentos