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Regulation of RhoA Activation and Actin Reorganization by Diacylglycerol KinaseArd, Ryan 22 March 2012 (has links)
Rho GTPases are critical regulators of actin cytoskeletal dynamics. The three most well characterized Rho GTPases, Rac1, RhoA and Cdc42 share a common inhibitor, RhoGDI. It is only recently becoming clear how upstream signals cause the selective release of individual Rho GTPases from RhoGDI. For example, our laboratory showed that diacylglycerol kinase zeta (DGKz), which converts diacylglycerol (DAG) to phosphatidic acid (PA), activates PAK1-mediated RhoGDI phosphorylation on Ser-101/174, causing selective Rac1 release and activation. Phosphorylation of RhoGDI on Ser-34 by PKCa has recently been demonstrated to selectively release RhoA, promoting RhoA activation. Here, I show DGKz is required for optimal RhoA activation and RhoGDI Ser-34 phosphorylation. Both were substantially reduced in DGKz-null fibroblasts and occurred independently of DGKz activity, but required a function DGKz PDZ-binding motif. In contrast, Rac1 activation required DGKz-derived PA, but not PDZ-interactions, indicating DGKz regulates these Rho GTPases by two distinct regulatory complexes. Interestingly, RhoA bound directly to the DGKz C1A domain, the same region known to bind Rac1. By direct interactions with RhoA and PKCa, DGKz was required for the efficient co-precipitation of these proteins, suggesting it is important to assemble a signalling complex that functions as a RhoA-specific RhoGDI dissociation complex. Consequently, cells lacking DGKz exhibited decreased RhoA signalling downstream and disrupted stress fibers. Moreover, DGKz loss resulted in decreased stress fiber formation following the expression of a constitutively active RhoA mutant, suggesting it is also important for RhoA function following activation. This is consistent with the ability of DGKz to bind both active and inactive RhoA conformations. Collectively, these findings suggest DGKz is central to two distinct Rho GTPase activation complexes, each having different requirements for DGKz activity and PDZ interactions, and might regulate the balance of Rac1 and RhoA activity during dynamic changes to the actin cytoskeleton.
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Regulation of RhoA Activation and Actin Reorganization by Diacylglycerol KinaseArd, Ryan January 2012 (has links)
Rho GTPases are critical regulators of actin cytoskeletal dynamics. The three most well characterized Rho GTPases, Rac1, RhoA and Cdc42 share a common inhibitor, RhoGDI. It is only recently becoming clear how upstream signals cause the selective release of individual Rho GTPases from RhoGDI. For example, our laboratory showed that diacylglycerol kinase zeta (DGKz), which converts diacylglycerol (DAG) to phosphatidic acid (PA), activates PAK1-mediated RhoGDI phosphorylation on Ser-101/174, causing selective Rac1 release and activation. Phosphorylation of RhoGDI on Ser-34 by PKCa has recently been demonstrated to selectively release RhoA, promoting RhoA activation. Here, I show DGKz is required for optimal RhoA activation and RhoGDI Ser-34 phosphorylation. Both were substantially reduced in DGKz-null fibroblasts and occurred independently of DGKz activity, but required a function DGKz PDZ-binding motif. In contrast, Rac1 activation required DGKz-derived PA, but not PDZ-interactions, indicating DGKz regulates these Rho GTPases by two distinct regulatory complexes. Interestingly, RhoA bound directly to the DGKz C1A domain, the same region known to bind Rac1. By direct interactions with RhoA and PKCa, DGKz was required for the efficient co-precipitation of these proteins, suggesting it is important to assemble a signalling complex that functions as a RhoA-specific RhoGDI dissociation complex. Consequently, cells lacking DGKz exhibited decreased RhoA signalling downstream and disrupted stress fibers. Moreover, DGKz loss resulted in decreased stress fiber formation following the expression of a constitutively active RhoA mutant, suggesting it is also important for RhoA function following activation. This is consistent with the ability of DGKz to bind both active and inactive RhoA conformations. Collectively, these findings suggest DGKz is central to two distinct Rho GTPase activation complexes, each having different requirements for DGKz activity and PDZ interactions, and might regulate the balance of Rac1 and RhoA activity during dynamic changes to the actin cytoskeleton.
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Identification of Arhgap28, a new regulator of stress fibre formation in cells assembling a fibrous extracellular matrixYeung, Ching-Yan January 2012 (has links)
The motivation for this PhD thesis was to understand the molecular basis of how cells regulate the formation of an organised and mechanically strong extracellular matrix (ECM). In tendon this process begins during embryogenesis with the appearance of bundles of narrow-diameter (~30 nm) collagen fibrils that are parallel to the tendon long axis. At the onset of collagen fibrillogenesis, the cells elongate, the fibrils are constrained within plasma membrane channels with their ends contained in tension-sensitive actin-stabilised plasma membrane protrusions. The mechanism by which actin is reorganised during cell elongation and the formation of tension-sensitive plasma membrane protrusions is poorly understood. The small GTPase RhoA is the major regulator of actin reorganisation into stress fibres, which have been implicated in mechanotransduction, ECM assembly and remodelling. The hypothesis tested by this PhD thesis was that the organisation and tensioning of extracellular collagen fibrils is generated on a blueprint of tensioned actin filaments within the cell. Rho activity is regulated specifically by Rho GTPase activating proteins (RhoGAPs). By comparing the global gene expression of tendon tissues at different developmental stages, Arhgap28, a novel RhoGAP, which is expressed during tendon development but not during postnatal maturation, was identified.Arhgap28 belongs to a large family of RhoGAPs containing the closely related members, Arhgap6 and Arhgap18, which have previously been shown to regulate RhoA and stress fibre formation. Arhgap28 expression was upregulated in embryonic fibroblasts cultured in a 3D, tensioned embryonic tendon-like construct compared to monolayer culture. Arhgap28 expression was further enhanced during the development of mechanical strength and stiffness of the tendon constructs, but downregulated when the tension in tendon constructs was released. Overexpression of a C-terminal V5-tagged Arhgap28 protein caused a reduction in RhoA activation and disruption of stress fibre assembly. Modulation of Rho signalling using lysophosphatidic acid and Y27632 showed that collagen remodelling by cells in collagen gels and tendon constructs is regulated by RhoA signalling. A tissue-wide qPCR analysis identified Arhgap28 in several tissues including tendon, bone, and skin. An Arhgap28 reporter mouse (Arhgap28gt) and an Arhgap28 knockout mouse (Arhgap28del) were also studied to investigate the role of Arhgap28 in tissue organisation in vivo. Arhgap28gt mice showed Arhgap28 expression in bones at E18.5. Homozygous Arhgap28del mice were viable, appeared normal but expressed a truncated Arhgap28 transcript, which if translated, would produce a protein lacking the RhoGAP domain. Therefore, it was hypothesised that knockout mice were normal due to compensation from another RhoGAP. Overexpression of Arhgap6 in Arhgap28-null bone tissues was confirmed. Upregulation in RhoA expression was also detected, further suggesting that Arhgap28 regulates RhoA. Interestingly, a microarray comparison of bone tissues from wild type and Arhgap28-null mice showed that genes linked to bone dysplasia are downregulated in Arhgap28-null bone. Together, these results suggest that formation of a strong and organised collagen ECM is mediated by RhoA-generated cellular tension and that Arhgap28 and Arhgap6 might be co-regulators of this process.
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A role of actin-regulatory proteins in the formation of needle-shaped spores in the filamentous fungus Ashbya gossypiiLickfeld, Manuela 21 May 2012 (has links)
Spore formation is an essential step in the fungal life cycle that contributes to
the dispersal of the organism and also to survival under harsh environmental
conditions. The morphology of spores shows an astonishing diversity in the
fungal kingdom and varies from very simple round and small spores to very
complex multi-armed or sigmoid structures. With exception of the regulation of
ascospore formation in Saccharomyces cerevisiae and Schizosaccharomyces
pombe, which are well-characterized model organisms for spore development in
fungi, little is currently known about the regulation of more complex spore
morphologies.
In this study, the filamentous ascomycete Ashbya gossypii is used as a model
system for the investigation of a complex and composite spore morphology. A.
gossypii produces linear, needle-shaped spores possessing a length of 30 µm,
which can be divided into three major segments: a rigid tip segment, a more
fragile membrane compartment and a stable tail-cap. Furthermore, the different
compartments were shown to correlate with distinct materials. While the tip
segment and the tail-cap of the spores consist of stabilizing materials like chitin
and chitosan, these materials are absent from the compartment in the middle.
The actin cytoskeleton plays an essential role in several steps of spore
formation in A. gossypii. Different regions of actin accumulation were identified
that directly correlate with the developing spores. Especially the developing tip
segment is characterized by heavy-bundled linear actin structures. Furthermore,
proteins of the formin family, a class of actin organizing proteins, were identified
to be directly involved in spore formation in A. gossypii. The formin AgBnr2
fulfills an actin-related key function during spore development by linking actin to
the spindle pole body during sporulation. Downregulation of AgBNR2 leads to
severe sporulation defects, indicating a central function in spore development.
Moreover, AgBni1, another representative of the formin family, also has a
regulatory function in size determination of the typical needle-shaped spores of
A. gossypii. Using a modified yeast two-hybrid approach, four potential
activators of the formin AgBni1 were identified: the Rho-type GTPases
AgRho1a, AgRho1b, AgRho3 and AgRho4. The interaction of AgBni1 with the
two Rho1 GTPases plays an important role during spore development. In this
study, the Rho binding domain of AgBni1 was further examined to identify
amino acids that are essential for the interaction with the Rho-type GTPases.
Using random mutagenesis combined with a two-hybrid screen, the point
mutation S250P in the Rho binding domain of AgBni1 was identified to reduce
the interaction of the formin with the Rho1 GTPases. Integration of AgBni1 S250P
causes an increase in spore length, suggesting a direct effect of this signaling
pathway in spore length determination. An actin-regulating protein network that
includes the formin AgBni1, the Rho-type GTPases AgRho1a and AgRho1b and
the paxillin-like protein AgPxl1 was identified to be mainly involved in the
regulation of the spore length. Thereby, this network seems to be involved in
the arrangement of the different spore compartments via the actin cytoskeleton.
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Control of sex myoblast migration in C. elegansZhang, Sihui 01 August 2013 (has links)
Cell migration is critical in generating complex animal forms during development; misregulation of migration contributes to pathological conditions such as cancer metastasis. Thanks to its easily traceable cell lineages in a transparent body and a compact genome accessible to a wealth of genetic manipulations, the use of the nematode C. elegans as a model system has greatly advanced our understanding of mechanisms governing cell migration conserved through higher organisms. Among several migration processes in C. elegans, sex myoblast (SM) migration is an attractive system that has a simple and well-defined migratory route along the ventral side from the posterior to the precise center of the gonad. A multitude of guidance mechanisms control SM migration, many of which are likely to be conserved in other migratory processes.
Similar to vertebrate systems, C. elegans uses Rho family small GTPases to regulate the engine of cell motility, the actin cytoskeleton, in response to guidance cues. The differential utilizations of Rho GTPases in distinct processes in vivo remain a central question in the study of Rho GTPases. I investigated how Rho GTPases regulate different aspects of SM migration, and found that Cdc-42/CDC42 functions in the anteroposterior migration, whereas MIG-2/RhoG and CED-10/Rac1 control ventral restriction independently of FGF and SLIT/Robo signaling. The relative difficulty in perturbing SM migration using constitutively active Rho GTPases compared to other migration processes illustrates the robustness of the mechanisms that control SM migration.
On a technical aspect, I established a nematode larval cell culture system that allows access to postembryonic cells. Compared to the flourishing genetic researches in C. elegans, there are few studies of molecules that also extend to the subcellular level in postembryonic development, mainly due to the lack of a larval cell culture system. I developed a novel method combining SDS-DTT presensitization of larval cuticles and subsequent pronase E digestion. My method efficiently isolates both low- and high-abundance cell types from all larval stages. This technical advance will not only facilitate studies such as regulation of actin dynamics with high-resolution microscopy, but is beginning to be used by researchers to tackle cell-type specific questions through profiling methods as gene expression analysis. / Ph. D.
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Contrôle spatio-temporel de la croissance filamenteuse chez Candida albicans / Temporal and spatial control of fungal filamentous growth in Candida albicansSilva, Patricia Maria de Oliveira e 22 May 2018 (has links)
Candida albicans est un pathogène fongique opportuniste de l’Homme, qui peut causer des infections superficielles mais aussi systémiques chez les patients immunodéprimés. Sa virulence est associée à sa capacité de changer d’une forme bourgeonnante à une forme hyphale. La petite GTPase de type Rho, Cdc42, est critique pour la croissance filamenteuse et, sous forme activée, sa localisation est restreinte à l’extrémité des hyphes. J’ai utilisé un système photoactivable, constitué des domaines d’Arabidopsis thaliana Cry2PHR-CibN, pour contrôler le recrutement de Cdc42 constitutivement actif à la membrane plasmique. J'ai déterminé comment le photo-recrutement de Cdc42 constitutivement actif perturbe la croissance filamenteuse et où, quand et comment une nouvelle croissance filamenteuse est ré-initiée. Mes résultats démontrent que, lors du photo-recrutement de Cdc42 constitutivement actif, l'extension du filament cesse puis un nouveau site de croissance s’établit dans la cellule. La localisation de ce nouveau site de croissance est corrélée à la longueur du filament. J'ai étudié les mécanismes moléculaires qui sous-tendent le désassemblage du site de croissance initial et l'emplacement spécifique du nouveau site de croissance filamenteuse. Dans les hyphes en croissance, un «cluster» de vésicules, appelé Spitzenkörper, est localisé à l'extrémité du filament. Lors du photo-recrutement de Cdc42 constitutivement actif, un nouveau «cluster» de vésicules, de composition similaire à celui du Spitzenkörper initial, apparaît dans la cellule mère. J'ai suivi la dynamique du Spitzenkörper et la localisation de Cdc42 sous forme activée, des sites d'endocytose, des vésicules de sécrétion et des câbles d’actine suite à la perturbation du site de croissance initial dans le filament. Dans l’ensemble, mes résultats indiquent qu'il existe une compétition pour la croissance entre le Spitzenkörper et le «cluster» de vésicules qui se forme immédiatement après le photo-recrutement de Cdc42 constitutivement actif et qu'un axe de polarité dynamique peut être établi en l'absence de croissance directionnelle. / Candida albicans is a fungal human pathogen that can cause life-threatening infections in immunocompromised patients, in part, due to its ability to switch between an oval budding form and a filamentous hyphal form. The small-Rho GTPase Cdc42 is crucial for filamentous growth and, in its active form, localizes as a tight cluster at the tips of growing hyphae. I have used a light-activated membrane recruitment system comprised of the Arabidopsis thaliana Cry2PHR-CibN domains to control the recruitment of constitutively active Cdc42 to the plasma membrane. I have determined how photorecruitment of constitutively active Cdc42 perturbs filamentous growth and where, when and how new filamentous growth is subsequently initiated. My results demonstrate that, upon photorecruitment of constitutively active Cdc42, filament extension is abrogated and a new growth site can be established in the cell. Location of a new filamentous growth site correlates with the length of the initial filament. I have investigated the molecular mechanisms that underlie the disassembly of an initial growth site and the specific location of the new filamentous growth site. In growing hyphae a cluster of vesicles, referred to as a Spitzenkörper, is localized at the tip of the filament. Upon photorecruitment of constitutively active Cdc42, a new cluster of vesicles, with a composition similar to that of the initial Spitzenkörper, appears in the mother cell. I have followed the dynamics of the Spitzenkörper, active Cdc42, sites of endocytosis, secretory vesicles and actin cables subsequent to disruption of the initial growth site in the filament. Taken together, my results suggest that there is competition for growth between the Spitzenkörper and the cluster of vesicles that forms immediately after the photorecruitment of constitutively active Cdc42 and that a dynamic polarity axis can be established in the absence of directional growth.
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Carcinoma espinocelular de boca e inflamação : papel dos macrófagos no prognóstico e influência de citocinas inflamatórias no comportamento migratório / Oral squamous cell carcinoma and inflammation : role of macrophages in the prognosis and the influence of inflammatory cytokines on migratory behaviorAlves, Alessandro Menna January 2016 (has links)
O carcinoma espinocelular de boca (CEB) é a neoplasia maligna mais comum da cavidade oral, correspondendo à aproximadamente 94% dos casos dessa região. Apesar dos diversos estudos moleculares e celulares do CEB, a taxa de sobrevida dos pacientes é de aproximadamente 50%, devido principalmente ao tamanho do tumor, metástase em linfonodos regionais, grau de diferenciação das células e sítio anatômico. O microambiente tumoral do CEB, é extremamente complexo e diversificado, tendo como característica principal um estado inflamatório crônico imunossupressivo. Este microambiente é sustentado pela liberação de diferentes citocinas inflamatórias, como IL-6, TNF- - atividades exercidas tanto pelas células tumorais quanto pelas estromais. Dentre essas atividades, tem sido relatado na literatura que as citocinas inflamatórias são capazes de aumentar a migração e a capacidade de invasão das células tumorais. Entre as células estromais, os macrófagos são as mais abundantes e participam da manutenção do microambiente tumoral. De acordo com o estímulo, podem ser polarizados M1, com papel pró-inflamatório e antitumoral, e M2, com papel anti-inflamatório e pró-tumoral. O objetivo desta tese foi compreender o papel dos macrófagos no prognóstico de CEB e das citocinas inflamatórias IL-6, TNF- - linhagens celulares de CEB. Para verificar o papel dos macrófagos no prognóstico, foi realizada uma revisão sistemática na qual foram incluídos apenas os estudos que utilizavam amostra de pacientes com CEB e avaliavam o prognóstico com marcadores para macrófagos. Foi observado que maiores concentrações de macrófagos CD68+ e CD163+ estavam relacionados com pior prognóstico de pacientes com CEB, embora não tenha sido possível concluir qual região tumoral a presença destas células seja mais importante 7 para o desfecho. Para analisar o papel das citocinas inflamatórias IL-6, TNFILensaios in vitro utilizando duas linhagens celulares, SCC25 e Cal27, em condições promotoras de migração sob a influência dessas citocinas. Foi observado que a citocina IL-6 foi capaz de aumentar a velocidade de migração e a direcionalidade tanto da SCC25 quanto da Cal 27 e que esta melhora na capacidade migratória ocorreu através de um crosstalk entre a via de sinalização relacionada a IL6 (STAT3) e a via reguladora de migração celular, Rho GTPase Rac1. Estes dados reforçam o papel do microambiente tumoral no processo de progressão tumoral e sugerem potenciais alvos terapêuticos como a modulação do perfil da população de macrófagos e o papel de interleucinas no controle de invasão tecidual e metástase. / Oral squamous cell carcinoma (OSCC) is the most common malignant neoplasm of the oral cavity, corresponding to approximately 94% of the cases in this region. Despite the diverse molecular and cellular studies of OSCC, the patient survival rate is approximately 50%, mainly due to tumor size, regional lymph node metastasis, cell differentiation and anatomic site. The OSCC tumor microenvironment is extremely complex and diverse, with the main characteristic being an immunosuppressive chronic inflammatory state. This microenvironment is supported by the release of different inflammatory cytokines, such as IL-6, TNF- - and enhance the activities of both tumor and stromal cells. Among these activities, it has been reported in the literature that inflammatory cytokines are capable of increasing migration and invasiveness of tumor cells. Among stromal cells, macrophages are the most abundant and participate in the maintenance of the tumor microenvironment. According to the stimulus, macrophages can be polarized in M1, with pro-inflammatory and anti-tumoral role, and M2, with antiinflammatory and pro-tumoral role. Thus, the aim of this thesis was to evaluate the role of macrophages in the prognosis of OSCC and the influence of inflammatory cytokines IL-6, TNF- - OSCC cell lines. To assess the role of macrophages in the prognosis, a systematic review was conducted in which only studies using a sample of OSCC patients were evaluated and the prognosis was evaluated with macrophage markers. It was observed that higher concentrations of CD68 + and CD163 + macrophages were related to worse prognosis in patients with OSCC, although it was not possible to conclude which tumor region the presence of these cells is more important for the outcome. In order to analyze the role of the inflammatory cytokines IL-6, TNF- - atory 9 behavior of OSCC cells, in vitro assays using two cell lines, SCC25 and Cal27, were performed in migration-promoting conditions under the influence of these cytokines. It was observed that IL-6 was able to increase the speed migration and directionality of both SCC25 and Cal 27 and that this improvement in migratory capacity occurred through a crosstalk between the IL6-related signaling pathway (STAT3) and cell migration-related pathway, RhoGTPase Rac1. These data reinforce the role of the tumor microenvironment in the tumor progression process and suggest potential therapeutic targets such as the modulation of the profile of the macrophages population and the role of interleukins in the control of tissue invasion and metastasis.
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Regulation of GRAF1 membrane sculpting function during cell movement / Reglering av den membranskulpterande funktionen hos GRAF1 vid cellrörelseFrancis, Monika K. January 2015 (has links)
All eukaryotic cells rely on endocytic events to satisfy a constant need for nutrient and fluid uptake from their surroundings. Endocytosis-dependent turnover of cell surface constituents also serves to control signal transduction and establish morphological changes in response to extracellular stimuli. During endocytosis, distinct protein machineries re-sculpt the plasma membrane into vesicular carriers that enclose molecules that are to be taken up into the cell. Besides those produced from the canonical clathrin-mediated endocytic machinery, it is becoming increasingly clear that other membrane carriers exist. The indisputable connection between the function of these uptake systems and various disease states, highlights why it is so important to increase our knowledge about the underlying molecular machineries. The aim of this thesis was therefore to characterise the function of GRAF1, a protein suggested to be a tumour suppressor due to that the gene has been found to be mutated in certain cancer patients. My work focused on understanding how this protein operates during formation of clathrin-independent carriers, with possible implications for disease development. Previous in vitro studies showed that GRAF1 harbours a GTPase activating domain to inactivate Rho GTPase Cdc42, a major actin cytoskeleton regulator. Herein, microscopy based approaches used to analyse HeLa cells demonstrated the importance of a transient interaction between GRAF1 and Cdc42 for proper processing of GRAF1-decorated carriers. Although GRAF1-mediated inactivation of Cdc42 was not vital for the budding of carriers from the plasma membrane, it was important for carrier maturation. In addition, studies of purified GRAF1 and its association with lipid bilayers identified a membrane scaffolding-dependent oligomerisation mechanism, with the ability to sculpt membranes. This was consistent with the assumption that GRAF1 possesses an inherent banana shaped membrane binding domain. Remarkably, this function was autoinhibited and in direct competition with the Cdc42 interaction domain. Finally, other novel GRAF1 interaction partners were identified in this study. Interestingly, many of these partners are known to be associated with protein complexes involved in cell adherence, spreading and migration. Although never actually seen localising to mature focal adhesions that anchor cells to their growth surface, dynamic GRAF1 carriers were captured travelling to and from such locations. Moreover, GRAF1 was recruited specifically to smaller podosome-like structures. Consistent with this, the tracking of GRAF1 in live cells uncovered a clear pattern of dynamic carrier formation at sites of active membrane turnover – notably protrusions at the cell periphery. Furthermore, the silencing of GRAF1 gave rise to cells defective in spreading and migration, indicating a targeting of GRAF1-mediated endocytosis to aid in rapid plasma membrane turnover needed for morphological changes that are a prerequisite for cell movement. Since these cells exhibited an increase in active Rab8, a GTPase responsible for polarised vesicle transport, the phenotype could also be explained by a defect in Rab8 trafficking that results in hyperpolarisation. Taken together, the spatial and temporal regulation of GRAF1 membrane sculpting function is likely to be accomplished via its membrane binding propensity, in concert with various protein interactions. The importance of GRAF1 in aiding membrane turnover during cell movement spans different functional levels – from its local coordination of membrane and actin dynamics by interacting with Cdc42, to its global role in membrane lipid trafficking.
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RHOF PROMOTES MURINE MARGINAL ZONE B CELL DEVELOPMENTMARUYAMA, MITSUO, MATSUSHITA, TADASHI, NAOE, TOMOKI, KIYOI, HITOSHI, KUNISHIMA, SHINJI, KOJIMA, TETSUHITO, IKAWA, MASAHITO, TAKAGI, AKIRA, IKEJIRI, MAKOTO, SUZUKI, NOBUAKI, KATSUMI, AKIRA, YANASE, SHOUGO, MATSUDA, TAKENORI, KISHIMOTO, MAYUKO 08 1900 (has links)
No description available.
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Carcinoma espinocelular de boca e inflamação : papel dos macrófagos no prognóstico e influência de citocinas inflamatórias no comportamento migratório / Oral squamous cell carcinoma and inflammation : role of macrophages in the prognosis and the influence of inflammatory cytokines on migratory behaviorAlves, Alessandro Menna January 2016 (has links)
O carcinoma espinocelular de boca (CEB) é a neoplasia maligna mais comum da cavidade oral, correspondendo à aproximadamente 94% dos casos dessa região. Apesar dos diversos estudos moleculares e celulares do CEB, a taxa de sobrevida dos pacientes é de aproximadamente 50%, devido principalmente ao tamanho do tumor, metástase em linfonodos regionais, grau de diferenciação das células e sítio anatômico. O microambiente tumoral do CEB, é extremamente complexo e diversificado, tendo como característica principal um estado inflamatório crônico imunossupressivo. Este microambiente é sustentado pela liberação de diferentes citocinas inflamatórias, como IL-6, TNF- - atividades exercidas tanto pelas células tumorais quanto pelas estromais. Dentre essas atividades, tem sido relatado na literatura que as citocinas inflamatórias são capazes de aumentar a migração e a capacidade de invasão das células tumorais. Entre as células estromais, os macrófagos são as mais abundantes e participam da manutenção do microambiente tumoral. De acordo com o estímulo, podem ser polarizados M1, com papel pró-inflamatório e antitumoral, e M2, com papel anti-inflamatório e pró-tumoral. O objetivo desta tese foi compreender o papel dos macrófagos no prognóstico de CEB e das citocinas inflamatórias IL-6, TNF- - linhagens celulares de CEB. Para verificar o papel dos macrófagos no prognóstico, foi realizada uma revisão sistemática na qual foram incluídos apenas os estudos que utilizavam amostra de pacientes com CEB e avaliavam o prognóstico com marcadores para macrófagos. Foi observado que maiores concentrações de macrófagos CD68+ e CD163+ estavam relacionados com pior prognóstico de pacientes com CEB, embora não tenha sido possível concluir qual região tumoral a presença destas células seja mais importante 7 para o desfecho. Para analisar o papel das citocinas inflamatórias IL-6, TNFILensaios in vitro utilizando duas linhagens celulares, SCC25 e Cal27, em condições promotoras de migração sob a influência dessas citocinas. Foi observado que a citocina IL-6 foi capaz de aumentar a velocidade de migração e a direcionalidade tanto da SCC25 quanto da Cal 27 e que esta melhora na capacidade migratória ocorreu através de um crosstalk entre a via de sinalização relacionada a IL6 (STAT3) e a via reguladora de migração celular, Rho GTPase Rac1. Estes dados reforçam o papel do microambiente tumoral no processo de progressão tumoral e sugerem potenciais alvos terapêuticos como a modulação do perfil da população de macrófagos e o papel de interleucinas no controle de invasão tecidual e metástase. / Oral squamous cell carcinoma (OSCC) is the most common malignant neoplasm of the oral cavity, corresponding to approximately 94% of the cases in this region. Despite the diverse molecular and cellular studies of OSCC, the patient survival rate is approximately 50%, mainly due to tumor size, regional lymph node metastasis, cell differentiation and anatomic site. The OSCC tumor microenvironment is extremely complex and diverse, with the main characteristic being an immunosuppressive chronic inflammatory state. This microenvironment is supported by the release of different inflammatory cytokines, such as IL-6, TNF- - and enhance the activities of both tumor and stromal cells. Among these activities, it has been reported in the literature that inflammatory cytokines are capable of increasing migration and invasiveness of tumor cells. Among stromal cells, macrophages are the most abundant and participate in the maintenance of the tumor microenvironment. According to the stimulus, macrophages can be polarized in M1, with pro-inflammatory and anti-tumoral role, and M2, with antiinflammatory and pro-tumoral role. Thus, the aim of this thesis was to evaluate the role of macrophages in the prognosis of OSCC and the influence of inflammatory cytokines IL-6, TNF- - OSCC cell lines. To assess the role of macrophages in the prognosis, a systematic review was conducted in which only studies using a sample of OSCC patients were evaluated and the prognosis was evaluated with macrophage markers. It was observed that higher concentrations of CD68 + and CD163 + macrophages were related to worse prognosis in patients with OSCC, although it was not possible to conclude which tumor region the presence of these cells is more important for the outcome. In order to analyze the role of the inflammatory cytokines IL-6, TNF- - atory 9 behavior of OSCC cells, in vitro assays using two cell lines, SCC25 and Cal27, were performed in migration-promoting conditions under the influence of these cytokines. It was observed that IL-6 was able to increase the speed migration and directionality of both SCC25 and Cal 27 and that this improvement in migratory capacity occurred through a crosstalk between the IL6-related signaling pathway (STAT3) and cell migration-related pathway, RhoGTPase Rac1. These data reinforce the role of the tumor microenvironment in the tumor progression process and suggest potential therapeutic targets such as the modulation of the profile of the macrophages population and the role of interleukins in the control of tissue invasion and metastasis.
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