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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

O v?rus sincicial respirat?rio induz NETose cl?ssica ROS-dependente atrav?s da ativa??o de PAD4 e das vias de necroptose

Muraro, Stefanie Primon 16 March 2018 (has links)
Submitted by PPG Pediatria e Sa?de da Crian?a (pediatria-pg@pucrs.br) on 2018-05-21T13:12:10Z No. of bitstreams: 1 Vers?o completa da disserta??o-stefaniemuraro.pdf: 4426933 bytes, checksum: 5733e09060e6e08135de26c11374b171 (MD5) / Approved for entry into archive by Caroline Xavier (caroline.xavier@pucrs.br) on 2018-05-28T17:29:36Z (GMT) No. of bitstreams: 1 Vers?o completa da disserta??o-stefaniemuraro.pdf: 4426933 bytes, checksum: 5733e09060e6e08135de26c11374b171 (MD5) / Made available in DSpace on 2018-05-28T17:34:08Z (GMT). No. of bitstreams: 1 Vers?o completa da disserta??o-stefaniemuraro.pdf: 4426933 bytes, checksum: 5733e09060e6e08135de26c11374b171 (MD5) Previous issue date: 2018-03-16 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Respiratory syncytial virus (RSV) is a major cause of diseases of the respiratory tract in humans being mainly associated with bronchiolitis, chronic obstructive pulmonary disease (COPD) and asthma exacerbation. RSV infection occurs primarily in pulmonary epithelial cells and, once infection is established, an innate immune response is triggered and mainly neutrophil recruitment is induced. Neutrophils can extrude neutrophil extracellular traps (NETs) capable of entrapping and inactivate a multitude of microorganisms because of its composition and due to the stringy nature of DNA fibers. Recently, was demonstrated that RSV particles and its fusion (F) protein were able to induce the release NETs coated with neutrophil elastase and myeloperoxidase, both antimicrobial peptides. Also, was observed that the excessive formation of NETs can have negative consequences to the host, such as airway obstruction during RSV infection. Therefore, the aim was to evaluate the mechanisms involved in NET formation induced by RSV infection of neutrophils, alveolar epithelial cells (A549) or lung fibroblasts (MRC5). Human neutrophils were infected with RSV and were able to induce NETs release only after 3 hours of stimulation indicating classical NETosis. Next was characterized NETs formation during infection associating DNA extrusion with MPO, NE and F protein of RSV. Was also observed NADPH oxidase and PAD4 dependence and PI3K/AKT, ERK and p38 MAPK pathways during infection. The inhibition of these signaling pathways, PAD4 and ROS production abolished NET formation. Considering a possible involvement of necroptosis during NETs production, were tested MLKL and RIPK inhibitors and evaluated LDH release in the supernatant of infected neutrophils. Neutrophils released LDH and depend on necroptosis induction to produce NETs. Likewise, neutrophils were co-cultured with A549 or MRC5 cells infected with RSV. Both A549 and MRC5 cells triggered NET release by human neutrophils in a virus concentration-dependent manner, the opposite occurs when used UV-inactivated virus. Briefly, RSV induces the classical/ROS-dependent NETosis by human neutrophils, and this effect relies on specific kinases activity. Furthermore, neutrophils are able to recognize pulmonary cells infected by RSV, releasing NETs. Thus, NETs release control could be crucial for minimizing tissue inflammation caused by RSV infection. / O v?rus sincicial respirat?rio (VSR) ? uma das principais causas de doen?as do trato respirat?rio em humanos sendo associado principalmente com bronquiolite, doen?a pulmonar obstrutiva cr?nica (DPOC) e exacerba??o de asma. O VSR infecta principalmente c?lulas epiteliais pulmonares e, uma vez que a infec??o ? estabelecida, uma resposta imune inata ? desencadeada e ocorre o recrutamento de c?lulas do sistema imune, principalmente neutr?filos. Os neutr?filos podem liberar redes extracelulares de neutr?filos (NETs) capazes de capturar e inativar uma grande quantidade de microrganismos devido ? sua composi??o e natureza fibrosa das fibras de DNA. Recentemente, foi demonstrado que part?culas do VSR al?m da prote?na de fus?o (F) do v?rus foram capazes de induzir a libera??o de NETs revestidas com elastase neutrof?lica e mieloperoxidase, ambos pept?deos com atividade antimicrobiana. Al?m disso, observou-se que a forma??o excessiva de NETs pode ter consequ?ncias negativas para o hospedeiro, como a obstru??o das vias a?reas durante a infec??o por VSR. Portanto, o objetivo foi avaliar os mecanismos envolvidos na forma??o de NET induzida pela infec??o por RSV em neutr?filos humanos, c?lulas epiteliais alveolares (A549) ou fibroblastos pulmonares (MRC5). Neutr?filos humanos foram infectados com VSR e foram capazes de induzir a libera??o de NETs somente ap?s 3 horas de infec??o, indicando uma NETose cl?ssica. Em seguida, foi caracterizada a forma??o de NETs durante a infec??o associando a extrus?o de DNA com as prote?nas MPO, NE e com a prote?na F do VSR. Tamb?m se observou a depend?ncia de NADPH oxidase e PAD4 e das vias de sinaliza??o PI3K / AKT, ERK e p38 MAPK durante a infec??o. A inibi??o dessas vias de sinaliza??o, da produ??o de PAD4 e de EROs aboliu a forma??o de NET. Considerando um poss?vel envolvimento da necroptose na produ??o de NETs, foram utilizados inibidores de MLKL e RIPK1 e foi avaliada a libera??o de LDH no sobrenadante de neutr?filos infectados. Os neutr?filos liberaram LDH e dependeram da ativa??o da necroptose para produzir NETs. Do mesmo modo, os neutr?filos foram co-cultivados com c?lulas A549 ou MRC5 infectadas com VSR. Ambas as c?lulas A549 e MRC5 desencadearam a libera??o de NET por neutr?filos humanos de uma maneira dependente da concentra??o de v?rus, o oposto ocorreu quando usado um v?rus UV-inativado. Resumidamente, o VSR induz a NETose cl?ssica / dependente de EROs em neutr?filos humanos, e este efeito depende de atividade espec?fica de quinases. Al?m disso, os neutr?filos s?o capazes de reconhecer c?lulas pulmonares infectadas pelo VSR, induzindo a libera??o NETs. Assim, o controle de libera??o de NETs pode ser crucial para minimizar a inflama??o do tecido causada pela infec??o por VSR.
2

Expression und Funktion von Caveolin bei glialen Zellen, insbesondere Oligodendrozyten / Aufgabe und Funktion von oligodendroglialem Caveolin und Caveolin-haltigen Mikrodomänen (CMD) bei der NGF-Signaltransduktion / Expression and function of caveolin in glial cells, especially oligodendrozytes / Role and functions of oligodendroglial caveolin and caveolin-containing microdomains (CMD) in NGF-signalling

Schmitz, Matthias 04 May 2006 (has links)
No description available.
3

The Rtg1 and Rtg3 proteins are novel transcription factors regulated by the yeast hog1 mapk upon osmotic stress

Noriega Esteban, Núria 27 February 2009 (has links)
La adaptación de la levadura Saccharomyces cerevisiae a condiciones de alta osmolaridad está mediada por la vía de HOG ((high-osmolarity glycerol). La activación de esta vía induce una serie de respuestas que van a permitir la supervivencia celular en respuesta a estrés. La regulación génica constituye una respuesta clave para dicha supervivencia. Se han descrito cinco factores de transcripción regulados por Hog1 en respuesta a estrés osmótico. Sin embargo, éstos no pueden explicar la totalidad de los genes regulados por la MAPK Hog1. En el presente trabajo describimos cómo el complejo transcripcional formado por las proteínas Rtg1 y Rtg3 regula, a través de la quinasa Hog1, la expresión de un conjunto específico de genes. Hog1 fosforila Rtg1 y Rtg3, aunque ninguna de estas fosforilaciones son esenciales para regulación transcripcional en respuesta a estrés. Este trabajo también muestra cómo la deleción de proteínas RTG provoca osmosensibilidad celular, lo que indica que la integridad de la vía de RTG es esencial para la supervivencia celular frente a un estrés osmótico. / In Saccharomyces cerevisiae the adaptation to high osmolarity is mediated by the HOG (high-osmolarity glycerol) pathway, which elicits different cellular responses required for cell survival upon osmostress. Regulation of gene expression is a major adaptative response required for cell survival in response to osmotic stress. At least five transcription factors have been reported to be controlled by the Hog1 MAPK. However, they cannot account for the regulation of all of the genes under the control of the Hog1 MAPK. Here we show that the Rtg1/3 transcriptional complex regulates the expression of specific genes upon osmostress in a Hog1-dependent manner. Hog1 phosphorylates both Rtg1 and Rtg3 proteins. However, none of these phosphorylations are essential for the transcriptional regulation upon osmostress. Here we also show that the deletion of RTG proteins leads to osmosensitivity at high osmolarity, suggesting that the RTG-pathway integrity is essential for cell survival upon stress.
4

SCF cdc4 regulates msn2 and msn4 dependent gene expression to counteract hog1 induced lethality

Vendrell Arasa, Alexandre 16 January 2009 (has links)
L'activació sostinguda de Hog1 porta a una inhibició del creixement cel·lular. En aquest treball, hem observat que el fenotip de letalitat causat per l'activació sostinguda de Hog1 és parcialment inhibida per la mutació del complexe SCFCDC4. La inhibició de la mort causada per l'activació sostinguda de Hog1 depèn de la via d'extensió de la vida. Quan Hog1 s'activa de manera sostinguda, la mutació al complexe SCFCDC4 fa que augmenti l'expressió gènica depenent de Msn2 i Msn4 que condueix a una sobreexpressió del gen PNC1 i a una hiperactivació de la deacetilassa Sir2. La hiperactivació de Sir2 és capaç d'inhibir la mort causada per l'activació sostinguda de Hog1. També hem observat que la mort cel·lular causada per l'activació sostinguda de Hog1 és deguda a una inducció d'apoptosi. L'apoptosi induïda per Hog1 és inhibida per la mutació al complexe SCFCDC4. Per tant, la via d'extensió de la vida és capaç de prevenir l'apoptosi a través d'un mecanisme desconegut. / Sustained Hog1 activation leads to an inhibition of cell growth. In this work, we have observed that the lethal phenotype caused by sustained Hog1 activation is prevented by SCFCDC4 mutants. The prevention of Hog1-induced cell death by SCFCDC4 mutation depends on the lifespan extension pathway. Upon sustained Hog1 activation, SCFCDC4 mutation increases Msn2 and Msn4 dependent gene expression that leads to a PNC1 overexpression and a Sir2 deacetylase hyperactivation. Then, hyperactivation of Sir2 is able to prevent cell death caused by sustained Hog1 activation. We have also observed that cell death upon sustained Hog1 activation is due to an induction of apoptosis. The apoptosis induced by Hog1 is decreased by SCFCDC4 mutation. Therefore, lifespan extension pathway is able to prevent apoptosis by an unknown mechanism.

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