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Characterization of the Necator americanus-mouse model of human hookworm infectionTimothy, Linda Mitchell January 1994 (has links)
No description available.
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Interação do adenovírus humano, sorotipo 41, com células origem hematopoiética: análise da permissividade celular e da expressão gênica viral. / Human adenovírus serotype 41 interaction with hematopoietic cells: cellular permissiviness and viral gene expression analysis.Silva, Misael Leonardo 15 February 2008 (has links)
Para verificar a permissividade de células de origem hematopoiéticas à infecção por HAdV-41, foram infectados PBMC e IEL de voluntários. Os ensaios foram comparados com células HEK-293 infectadas. Foram analisadas as expressões dos genes virais E1A, E1B (55K), E3 (14K), VARNA, hexon e fibra curta (FC) e do gene celular GAPDH. O mRNA foi detectado por RT-PCR em tempo real e a produção de proteínas foi visualizada por IFI. Em HEK-293, a transcrição dos genes E1A, E1B e E3 iniciou-se às 11h p.i, hexon,às 13h pi.,VARNA e FC às 14h p.i. Em PBMC a transcrição de E1A, E1B e VARNA iniciou-se 17h p.i e a expressão dos genes hexon e fibra curta foi detectada 18h p.i e 20 h p.i. respectivamente. O nível de expressão dos genes virais em HEK-293 foi quase 200 vezes maior em relação à PBMC. Os IELs também mostraram-se permissivos à infecção pelo HAdV-41 como mostrado pela expressão dos genes virais. Essa é a primeira evidência de que este vírus possa infectar tais células. Os resultados obtidos ajudam a elucidar os mecanismos de interação do vírus com a célula-hospedeira. / In order to verify the permissiveness of hematopoietic cells to HAdV-41 infection, PBMC and IEL from volunteers were infected. The infection assays were compared with infected HEK -293 cells. We analysed the E1A, E1B (55K), E3 (14K), VARNA, hexon and short fiber (SF) viral gene expression and GAPDH cellular gene expression. The mRNA were detected by real time PCR and the viral protein synthesis were detected by IIF. In HEK-293 cells E1A, E1B and E3 gene expression were detected 11h p.i Hexon gene expression was detected at 13h p.i, while VARNA and SF were detected 14h p.i In PBMC, E1A, E1B and VARNA gene expression were detected 17h p.i and the hexon and SF were detected 18h p.i and 20h p.i, respectively. The viral gene expression level in infected HEK-293 cells was 200 fold higher than infected PBMC. The IEL also were permissive to HAdV-41 infection showed by viral gene expressions. This is the first evidence that HAdV-41 is able to infect these cells types. These results helps to understand the virus-cell interaction mechanisms.
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Interação do adenovírus humano, sorotipo 41, com células origem hematopoiética: análise da permissividade celular e da expressão gênica viral. / Human adenovírus serotype 41 interaction with hematopoietic cells: cellular permissiviness and viral gene expression analysis.Misael Leonardo Silva 15 February 2008 (has links)
Para verificar a permissividade de células de origem hematopoiéticas à infecção por HAdV-41, foram infectados PBMC e IEL de voluntários. Os ensaios foram comparados com células HEK-293 infectadas. Foram analisadas as expressões dos genes virais E1A, E1B (55K), E3 (14K), VARNA, hexon e fibra curta (FC) e do gene celular GAPDH. O mRNA foi detectado por RT-PCR em tempo real e a produção de proteínas foi visualizada por IFI. Em HEK-293, a transcrição dos genes E1A, E1B e E3 iniciou-se às 11h p.i, hexon,às 13h pi.,VARNA e FC às 14h p.i. Em PBMC a transcrição de E1A, E1B e VARNA iniciou-se 17h p.i e a expressão dos genes hexon e fibra curta foi detectada 18h p.i e 20 h p.i. respectivamente. O nível de expressão dos genes virais em HEK-293 foi quase 200 vezes maior em relação à PBMC. Os IELs também mostraram-se permissivos à infecção pelo HAdV-41 como mostrado pela expressão dos genes virais. Essa é a primeira evidência de que este vírus possa infectar tais células. Os resultados obtidos ajudam a elucidar os mecanismos de interação do vírus com a célula-hospedeira. / In order to verify the permissiveness of hematopoietic cells to HAdV-41 infection, PBMC and IEL from volunteers were infected. The infection assays were compared with infected HEK -293 cells. We analysed the E1A, E1B (55K), E3 (14K), VARNA, hexon and short fiber (SF) viral gene expression and GAPDH cellular gene expression. The mRNA were detected by real time PCR and the viral protein synthesis were detected by IIF. In HEK-293 cells E1A, E1B and E3 gene expression were detected 11h p.i Hexon gene expression was detected at 13h p.i, while VARNA and SF were detected 14h p.i In PBMC, E1A, E1B and VARNA gene expression were detected 17h p.i and the hexon and SF were detected 18h p.i and 20h p.i, respectively. The viral gene expression level in infected HEK-293 cells was 200 fold higher than infected PBMC. The IEL also were permissive to HAdV-41 infection showed by viral gene expressions. This is the first evidence that HAdV-41 is able to infect these cells types. These results helps to understand the virus-cell interaction mechanisms.
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Effect of the cell-growth rate on the invasion and infection efficacy of Trypanosoma cruzi trypomastigotes, and the potential cell-to-cell transfer of the parasiteEscabia Herrando, Elisa January 2022 (has links)
Recent studies proposed that mammalian cell lines with slower growth rates were infected more efficiently by Trypanosoma cruzi, and that cell-to-cell transmission could be occurring during infection. This open the question of whether host cell-growth rate is a cellular characteristic influencing Trypanosoma cruzi invasion and infection. To prove if this was the case, the cell growth-rate was inhibited by starvation, reducing the foetal bovine serum concentration in the medium, and using a cell-cycle arresting drug, Baicalein. Then the percentage of infected cells of the control and the growth-modified group was measured via epifluorescence microscopy. The results did not show a strong evidence of negative correlation between the cell-growth rate and infection efficacy. To assess if cell-to-cell infection was occurring, the percentage of infected cells in contact with other infected cells was measured. This value was compared to the stochastic probability of this event happening. The results showed that the random probability of an infected cell being next to another infected cell was much lower than the percentage obtained from the empirical data. This suggests that cell-clusters found in infections are not a random event and that the dominant mechanism of infection is a short-range one: either by cell-to-cell infection, or by the proliferation of already infected cells. To support cell-to-cell transmission, parasites potentially passing from one cell to another were inspected through confocal microscopy and actin-rich regions were found at the parasite location. To determine whether actin played a role in this event, cells with a mutation in the actin gene were infected and compared to the mock group. The results showed that the percentage of infected cells in contact with other infected cells was lower for the mutant cells, suggesting that actin could play a key role in this event.
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Estudo da interação do adenovírus humano, sorotipo 41 (HAdV-41), com células permissivas. / Interaction studies of human adenovirus serotype 41 (HAdV-41) with permissive cells.Silva, Joselma Siqueira 30 October 2008 (has links)
Com o objetivo de estudar a interação do HAdV-41 com células permissivas, primeiramente foi observada a cinética de infecção do HAdV-41 em células HEK-293, durante 7 dias. A seguir, as culturas foram analisadas por MCVL e por MET. O HAdV-41 apresentou um ciclo replicativo lento com liberação da progênie viral por mecanismo não lítico. A seguir, com o intuíto de verificar a participação da proteina FC do HAdV-41 nas etapas de entrada nas células HEK-293 e CaCo2, obteve-se os dodecaedros recombinantes (DR) em células High five (base-Ad3, base-Ad3+FC-Ad41, base-Ad3+FL-Ad41, baseRGEHS-Ad3+FCAd41 e base-Ad3+FAd3). Esses dodecaedros foram inoculados em células HEK-293 e CaCo2. Após a análise por MCVL, observou-se que a proteína FC talvez não desempenhe função na entrada do DR nas células estudadas. A seguir, uma alíquota do DR base-Ad3+FC-Ad41 foi digerida com a enzima pepsina e analisada por WB. Notou-se que a FC sofreu proteólise. Acredita-se que essa proteólise seja necessária para o reconhecimento de receptores no trato gastro-intestinal. Esses resultados fornecerão subsídeos para o desenvolvimento de vetores de terapia gênica direcionada para o epitélio intestinal e vetores vacinais administrados por via oral. / Our objective was study the interaction between HAdV-41 and permissive cells. First, it was observed the kinetic of infection between HAdV-41 and HEK-293 cells, for 7 days. Second, the cultures were analyzed by CLSM and by TEM. The HAdV-41 showed a slower replicative cycle with release of viral progeny by non-lytic mechanisms. In order to verify the participation of SF protein of the HAdV-41 during the phases of entry in HEK-293 and CaCo2 cells, we producted recombinant dodecahedrons (DR) in high five cells (base-Ad3, base-Ad3+SF-Ad41, base-Ad3+SF-Ad41, baseRGEHS-Ad3+SFAd41 and base-Ad3+FAd3). These decahedrons were inoculated in HEK-293 and CaCo2 cells. After analysis with CLSM, observed that SF protein may not have a role in dodecahedron entry in the cells studied. Next, recombinant dodecahedrons base-Ad3+SF-Ad41 and base-Ad3 were digested with pepsin and analyzed by WB. We observed proteolysis of the SF. We believe that this proteolysis may be necessary for the recognition of receptors in intestinal cells. The results obtained will be the base for the development of gene-therapy vectors directed to intestinal epithelium, as well as orally administered vaccine vectors.
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Estudo da interação do adenovírus humano, sorotipo 41 (HAdV-41), com células permissivas. / Interaction studies of human adenovirus serotype 41 (HAdV-41) with permissive cells.Joselma Siqueira Silva 30 October 2008 (has links)
Com o objetivo de estudar a interação do HAdV-41 com células permissivas, primeiramente foi observada a cinética de infecção do HAdV-41 em células HEK-293, durante 7 dias. A seguir, as culturas foram analisadas por MCVL e por MET. O HAdV-41 apresentou um ciclo replicativo lento com liberação da progênie viral por mecanismo não lítico. A seguir, com o intuíto de verificar a participação da proteina FC do HAdV-41 nas etapas de entrada nas células HEK-293 e CaCo2, obteve-se os dodecaedros recombinantes (DR) em células High five (base-Ad3, base-Ad3+FC-Ad41, base-Ad3+FL-Ad41, baseRGEHS-Ad3+FCAd41 e base-Ad3+FAd3). Esses dodecaedros foram inoculados em células HEK-293 e CaCo2. Após a análise por MCVL, observou-se que a proteína FC talvez não desempenhe função na entrada do DR nas células estudadas. A seguir, uma alíquota do DR base-Ad3+FC-Ad41 foi digerida com a enzima pepsina e analisada por WB. Notou-se que a FC sofreu proteólise. Acredita-se que essa proteólise seja necessária para o reconhecimento de receptores no trato gastro-intestinal. Esses resultados fornecerão subsídeos para o desenvolvimento de vetores de terapia gênica direcionada para o epitélio intestinal e vetores vacinais administrados por via oral. / Our objective was study the interaction between HAdV-41 and permissive cells. First, it was observed the kinetic of infection between HAdV-41 and HEK-293 cells, for 7 days. Second, the cultures were analyzed by CLSM and by TEM. The HAdV-41 showed a slower replicative cycle with release of viral progeny by non-lytic mechanisms. In order to verify the participation of SF protein of the HAdV-41 during the phases of entry in HEK-293 and CaCo2 cells, we producted recombinant dodecahedrons (DR) in high five cells (base-Ad3, base-Ad3+SF-Ad41, base-Ad3+SF-Ad41, baseRGEHS-Ad3+SFAd41 and base-Ad3+FAd3). These decahedrons were inoculated in HEK-293 and CaCo2 cells. After analysis with CLSM, observed that SF protein may not have a role in dodecahedron entry in the cells studied. Next, recombinant dodecahedrons base-Ad3+SF-Ad41 and base-Ad3 were digested with pepsin and analyzed by WB. We observed proteolysis of the SF. We believe that this proteolysis may be necessary for the recognition of receptors in intestinal cells. The results obtained will be the base for the development of gene-therapy vectors directed to intestinal epithelium, as well as orally administered vaccine vectors.
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