Estudo da neuropatologia induzida pelo vírus Marabá em modelo murino

O vírus Marabá (Be AR 411459) é um Vesiculovírus (VSV), membro da família Rhabdoviridae, isolado em 1983, de um pool de flebotomíneos capturado em Marabá-PA pela Seção de Arbovírus do Instituto Evandro Chagas. Na literatura pouco se tem sobre neuropatologia experimental induzida pelo vírus Marabá, apesar dos 30 anos de isolamento. Um único estudo, porém, revelou que a infecção viral em camundongos recém-nascidos provoca necrose e picnose em neurônios em várias regiões do sistema nervoso central (SNC) O objetivo do presente trabalho foi investigar a distribuição do vírus Marabá no SNC, a ativação microglial e astrocitária, aspectos histopatológicos; e a expressão de citocinas e óxido nítrico (NO), na encefalite induzida pelo vírus Marabá em camundongo BALB/c adultos. Para tanto, foram realizados processamentos de amostras para análise histopatologica; immunohistoquímica para marcação de microglia, astrócitos e antígeno viral; testes de quantificação de citocinas e NO; e análises estatísticas. Os resultados demonstraram que os animais infectados (Ai) 3 dias após a inoculação (d.p.i.) apresentam discreta marcação do antígeno viral, bem como quanto a ativação de microglia e astrócitos no SNC. Por outro lado, nos Ai 6 d.p.i. a marcação do antígeno viral foi observada em quase todas regiões encefálicas, observando-se intensa ativação microglial nestes locais, embora a astrogliose tenha sido menor. Edema, necrose e apoptose de neurônios foram observados principalmente no bulbo olfatório, septo interventrícular e córtex frontal dos Ai 6 d.p.i. A quantificação dos níveis de IL-12p40, IL-10, IL-6, TNF- α, INF-ү, MCP-1 e de NO mostrou aumentos significativos nos Ai 6 d.p.i., quando comparados aos animais controles e Ai 3 d.p.i.. Por outro lado, os níveis de TGF-β, importante imunossupressor, não foi significativo em todos os grupos e tempos avaliados (3 e 6 d.p.i.). Estes resultados indicam que o vírus Marabá pode infectar diversas regiões do SNC de camundongo BALB/c adulto 6 d.p.i., produzindo alterações anátomo-patológicas e uma forte resposta imune inflamatória que pode ser letal para o animal.

Glândula ectomandibular e comportamento de Polistes versicolor (Olivier) (Hymenoptera, vespidae)

Pós-graduação em Ciências Biológicas (Zoologia) - IBRC

Sínteses e estudos dos diferentes peptídeos de fusão dos flavivirus causadores da dengue

Pós-graduação em Biotecnologia - IQ

Desenvolvimento e aplicação do ELISA indireto com proteína recombinante de nucleocapsídeo de coronavírus felino (FCoV) para quantificação de anticorpos em soros de gatos naturalmente infectados

Pós-graduação em Medicina Veterinária - FMVZ

Análise da presença de vírus em alho semente da segunda e quarta gerações, produzidos por termoterapia e cultura de tecido

The garlic (Allium sativum L.) can be naturally infected by a complex of filamentous viruses belonging to the genera Potyvirus, Carlavirus and Allexivirus. Accumulation of these viruses occurs especially by vegetative propagation through cloves. As the cultivated garlic plant does not produce true seed worldwide, virus-free plants can only be obtained by tissue culture of stem apices and thermotherapy. Using these techniques, garlic seeds were produced at the School of Agricultural Sciences - UNESP, Botucatu, and evaluated by RT-PCR for the presence of potyvirus, carlavirus and allexivirus. In the second generation of microcloves propagated in a greenhouse, 6.6% infection was detected, only by allexivirus. In the fourth generation, however, there was 60% incidence by allexivirus, 35% by potyvirus and all negative by carlavirus. The high rate of infection by allexivirus may be related to the greater difficulty of removing the species of viruses belonging to this genus, as observed by other authors, and also based on the infection and transmission of the virus by the mite, Aceria tulipae, during the storage of bulbs from one year to the other. The garlic at the fourth generation corresponds to cloves weighed less than 1 gram and not selected for commercial multiplication. Selection for the size of cloves has a positive effect on the choice of cloves with lower rates of viral infection, as the technique of thermotherapy and tissue culture do not eliminate the virus completely. Results also emphasize the need of fumigation for the garlic seed stored from one year to the other in order to prevent the transmission of allexivirus during storage.

Algoritmo genético aplicado ao controle do mosquito transmissor da dengue

Pós-graduação em Biometria - IBB

Expressão de fatores ligados à apoptose : herpesvirus bovino tipo 5

Pós-graduação em Microbiologia - IBILCE

Ineraction Model Between HRSV G-Protein and Flavonoids

Background: Acute respiratory infections (ARI) are the leading cause of infant mortality in the world, and human respiratory syncytial virus (HRSV) is one of the main agents of ARI. One of the key targets of the adaptive host immune response is the RSV G-protein, which is responsible for attachment to the host cell. There is evidence that compounds such as flavonoids can inhibit viral infection in vitro. With this in mind, the main purpose of this study was to determine, using computational tools, the potential sites for interactions between G-protein and flavonoids. Results: Our study allowed the recognition of an hRSV G-protein model, as well as a model of the interaction with flavonoids. These models were composed, mainly, of -helix and random coil proteins. The docking process showed that molecular interactions are likely to occur. The flavonoid kaempferol-3-O-α-L-arabinopyranosil-(2 → 1)-α-L-apiofuranoside-7-O-α-L-rhamnopyranoside was selected as a candidate inhibitor. The main forces of the interaction were hydrophobic, hydrogen and electrostatic. Conclusions: The model of G-protein is consistent with literature expectations, since it was mostly composed of random coils (highly glycosylated sites) and -helices (lipid regions), which are common in transmembrane proteins. The docking analysis showed that flavonoids interact with G-protein in an important ectodomain region, addressing experimental studies to these sites. The determination of the G-protein structure is of great importance to elucidate the mechanism of viral infectivity, and the results obtained in this study will allow us to propose mechanisms of cellular recognition and to coordinate further experimental studies in order to discover effective inhibitors of attachment proteins.

Heparin and dextran sulfate: their role on rsv infectivity

Respiratory syncytial virus is the major cause of acute lower respiratory tract illness in infants and young children. Because there is currently no licensed vaccine for RSV, there is a substantial interest in the identification and development of RSV specific inhibitory agents. There are clinical evidences that glycosaminoglycans (GAGs) are potential inhibitors of viral infection. In this study, the performance of two GAGs (heparin and dextran sulfate) were compared for their antiviral and virucidal activities on RSV. Analysis was performed using an in vitro infection model where, previously to infection, Hep-2 cells or RSV were incubated with heparin or dextran sulfate. The presence of viral particles was analyzed by Reverse Transcriptase-Polimerase Chain Reaction (RT-PCR) and indirect immunofluorescence assays (IFA). The results showed that viral infection was more efficiently inhibited when Hep-2 cells were pre-incubated with heparin or, when viral particles were pre-incubated with dextran sulfate. Our study suggest that, in the absence of cellular death, heparin and dextran sulfate reduce RSV infection by different mechanisms, antiviral and virucidal ones, respectively. These data contribute for recent medical, microbiology and biochemical studies which suggest that the use of antiviral and virucidal compounds as more effective treatment to control virus infections.

Complete genome sequence and structural characterization of a novel iflavirus isolated from Opsiphanes invirae (Lepidoptera: Nymphalidae)

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Migração e invasão celular in vitro de células humanas expressando variantes da oncoproteína LMP1 do vírus de Epstein-Barr (EBV)

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

Pathology and virus tissue distribution of Turkey Coronavirus (TCoV) in experimentally infected chicks and turkey poults

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

Estudo do peptídeo lítico Hecate e sua conjugação com ácido gálico: atividade contra o carcinoma cervical humano, mecanismo de ação e toxicidade

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Reo-Like Virus in White Shrimp Penaeus vannamei (Crustacea: Decapoda): Co-occurrence with Baculovirus penaei in Experimental Infections

A virus, tentatively identified as reo-like, occurred concurrently with experimentally-induced Baculovirus penaei (BP) infection in cultured white shrimp larvae Penaeus vannamei. Each shrimp with a reo-like viral infection also had a BP infection, but not all BP-infected shrimp had a reo-like infection. Both viruses occurred in the same tissues and occasionally withln the same cell. The reolike virus developed in epithelial cells of the anterior midgut and in reserve- and fibrillar-cells of the hepatopancreas. The paraspherical and non-enveloped reo-like virions (ca. 50 nm diam.) occurred as unordered aggregates in the cell cytoplasm. Their etiology has not been determined. Reo-like virions may have been introduced along with the BP virus, or, were latent and only manifested due to stress induced by the more pathogenic BP virus.

Immune transcript variations among Aedes aegypti populations with distinct susceptibility to dengue virus serotype 2

The innate immune response of insects is one of the factors that may dictate their susceptibility to viral infection. Two immune signaling pathways, Toll and JAK-STAT, and the RNA interference (RNAi) pathway are involved in Aedes aegypti responses against dengue virus (DENV), however natural differences in these antiviral defenses among mosquito populations have not been studied. Here, two field Ae. aegypti populations from distinct ecological environments, one from Recife and the other from Petrolina (Brazil), and a laboratory strain were studied for their ability to replicate a primary isolate of dengue virus serotype 2 (DENV-2). Virus infectivity and replication were determined in insect tissues collected after viral exposure through reverse-transcription real time PCR (RT-PCR). The expression of a transcript representing these defense mechanisms (Toll, JAK-STAT and RNAi) in the midgut and fat body was studied with RTPCR to evaluate variations in innate immune mechanisms possibly employed against DENV. Analyses of infection rates indicated that the field populations were more susceptible to DENV-2 infection than the lab strain. There were distinct expression patterns among mosquito populations, in both control and infected insects. Moreover, lower expression of immune molecules in DENV-2-infected insects compared to controls was observed in the two field populations. These results suggest that natural variations in vector competence against DENV may be partly due to differences in mosquito defense mechanisms, and that the down-regulation of immune transcripts after viral infection depends on the insect strain. (C) 2012 Elsevier B.V. All rights reserved.