Global ETD Search

71	Surface Modification of Liposomes with Hydrophilic Polymers: Effects on Protein Adsorption and Cell Interactions Savoie, Anne-Marie 12 1900 (has links) Liposomes have the ability to carry and deliver both hydrophilic and hydrophobic drugs and to protect them when injected into the circulatory system. They thus provide an attractive vehicle for drug delivery. However, problems of rapid clearance and inability to target liposomes to specific cells and tissues remain unresolved. Rapid clearance has been attributed to adsorption of opsonins, and one approach to reduce such adsorption is to create sterically stabilized liposomes by modifying the surface with polyethylene glycol (PEG) or dextran. To deliver their drug "payload" liposomes must interact with the membranes of target cells. Interactions with cellular components of the vascular walls have been observed for various sulfated polysaccharides such as heparin and functionalised dextrans. Based on the above considerations, the purpose of this work was to investigate the ability of various polymeric modifiers on liposomes to reduce protein adsorption and promote incorporation into target cells. Liposomes of composition PC/PEI cholesterol (70/10/20 mol %) were surface modified with PEG, dextran, heparin, and functionalised dextran. Protein adsorption was studied from solutions of IgG in buffer and from plasma. Adsorption from buffer was measured by radio labelling methods. For the plasma work, a total protein assay was used to determine the amount of protein adsorbed to the liposome surface, while gel electrophoresis and immunoblotting methods were used to examine the profiles of protein binding. Liposome incorporation into vascular smooth muscle and endothelial cells was evaluated using fluorescent labelling and radio labelling techniques. The IgG adsorption studies showed reduced adsorption on all polymer-modified liposomes. Plasma adsorption data showed that adsorbed protein layer compositions on the different liposome types were similar, but different from that of the plasma itself, showing that the plasma was fractionated on the liposome surfaces. Cell interaction studies showed that liposomes modified with dextran and sulfated dextran were incorporated into both cell types. The unmodified, PEG-and heparin-modified liposomes were not incorporated to any significant extent. / Thesis / Master of Engineering (ME) liposomes hydrophilic polymer protein adsorption cell interaction surface modificiation
72	Characterization of a sertoli cell product, rat myotubularin: its involvement in cell-cell interactionsin the testis 李志恆, Li, Chi-hang, Jonathan. January 2000 (has links) published_or_final_version / Zoology / Doctoral / Doctor of Philosophy Protein-tyrosine phosphatase. Sertoli cells. Germ cells. Cell interaction. Spermatogenesis. Testis. Rats - Genetics.
73	Cell-cell interactions and cell junction dynamics in the mammalian testis Wong, Ching-hang., 黃政珩. January 2005 (has links) published_or_final_version / abstract / Zoology / Doctoral / Doctor of Philosophy Sertoli cells. Germ cells. Spermatogenesis. Cell interaction. Cell junctions. Testis - Cytology.
74	Free energy calculations of biopolymeric systems at cellular interface Yang, Tianyi 26 May 2010 (has links) Cells interact with both tethered and motile ligands in their extra-cellular environment, which mediates, initiates and regulates a series of cellular functions, such as cell adhesion, migration, morphology, proliferation, apoptosis, bi-directional signal transduction, tissue homeostasis, wound healing among others. A fundamental understanding of the thermodynamics of receptor-mediated cell interaction is necessary not only from the aspect of physiology, but also for bioengineering applications, e.g. drug discovery, tissue engineering and biomaterial fabrication. Our models on free energy calculations of receptor mediated cell-matrix interactions supplement computational endeavors based on continuum mechanics. By incorporating conformational, entropic, solvation, steric effect, implicit and explicit interactions of receptors and extra-cellular ligand molecules, we can predict free energy, chemical equilibrium constant of binding, spatial and conformational distributions of biopolymers, adhesion force as functions of a set of key variables, e.g. surface coverage of receptor, interaction distance between cell and substrate, specific binding energy, implicit interaction strength, constraint in ligand’s conformation, size of motile nano-ligand, aggregation of receptors, sliding velocity relative to fluid. Our work has improved understanding of phenomena in cell-matrix interactions at both cellular and the molecular scales. / text Ligands Cells Cell-matrix interactions Receptor-mediated cell interaction Biopolymeric systems Free energy
75	Role of MDM2 In Cell Growth Regulation Frum, Rebecca Anne 01 January 2006 (has links) MDM2 has been shown to induce G0-Gl/S phase arrest. To determine the cell cycle step targeted by MDM2, flow cytometry was employed to detect induction of events during the G1-S phase transition in MDM2-arrested cells. MDM2 overexpression does not prevent expression of cyclin D, cyclin D-CDK mediated phosphorylation of Rb or cyclin E in normal, immortal or tumor-derived cells. However, MDM2 down-regulates cyclin A expression specifically in normal cells, which is associated with G1 arrest. The domain of MDM2 capable of this function is located within its N-terminal 58-109 amino acids. To down-regulate cyclin A, MDM2 requires a functional pl6/Brg 1 pathway, as silencing of either of these proteins disables this function of MDM2. Bromodeoxyuridine incorporation studies suggest that another inhibitory domain, ID2, inhibits DNA replication, while an MDM2 deletion mutant containing the N-terminal 1-220 amino acids including inhibitory domain ID1 does not effectively prevent BrdU incorporation in an immortal cell line that is non-responsive to growth arrest by the cyclin A inhibitory domain. This suggests that induction of MDM2 leads to G1 arrest by at least two independent mechanisms, and multiple genetic damages are necessary to overcome MDM2-mediated growth arrest. To determine novel interacting partners of MDM2, proteomic analysis of MDM2 overexpressed in tumor-derived H1299 cells was carried out. This analysis revealed interaction of MDM2 with the translation elongation factor efl-α, and was validated by immunoprecipitation and Western blotting and shown to colocalize with MDM2 in the cytoplasm. To interact with efl-α, MDM2 was determined to require two domains, one of which is located within amino acids 221-325 and another within the N-terminal 58 amino acids of MDM2. oncogene carcinoma cancer oncoprotein cell interaction Life Sciences
76	The novel function of sJAM-C in promoting cytoskeleton rearrangement and migration in mammary epithelial cells Unknown Date (has links) Soluble form of Junctional adhesion molecule C (sJAM-C) has been identified to cause angiogenesis as well as chemotaxis in endothelial cells. However, the role of sJAM-C in the context of cancer has not been elucidated. Our atomic force microscopy (AFM) stiffness measurements of normal mammary epithelial cells (MCF 10A) have shown a two-fold decrease in cell's stiffness in response to sJAM-C. Changes in cell stiffness are indicative of modulations in a cell's mechanical properties. Our results indicated that sJAM-C increased the MCF 10A cell migration about two-fold and also promoted a three-fold increase in chemotaxis. Additionally, sJAM-C treatment resulted in considerable filamentous-actin loss and peripheral actin ring breakage. We also found activation of Rho signaling pathway to be the main mechanism behind sJAM-C mediated alterations in MCF 10A cell cytoskeleton and motility. Our data present for the first time that sJAM-C is a pro metastatic mediator for normal mammary epithelial cells. / by Anila Qureshi. / Thesis (M.S.)--Florida Atlantic University, 2012. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader. Tight junctions (Cell biology) Cell interaction Cell junction Cell adhesion Microcirculation
77	Possível relação entre acoplamento e ciclo celular na neurodegeneração da retina. / Possible relation between cell coupling and cell cycle in the retina during neurodegeneration. Higa, Guilherme Shigueto Vilar 03 September 2012 (has links) A sinalização no sistema nervoso pode ocorrer pelo acoplamento direto entre células, via canais de junção comunicantes (JCs). Estes canais permitem a passagem de moléculas de até 1 kDa, e são formados por subunidades proteicas denominadas conexinas (Cxs). A comunicação celular via JCs desempenha um importante papel durante o desenvolvimento e a sinalização visual. Além disso, o acoplamento celular provido pelas JCs tem sido relacionado a processos de sobrevivência/morte celular. Do mesmo modo, ciclinas e cinases dependentes de ciclinas (CDKs), além de seu papel clássico na regulação do ciclo e diferenciação celular, estão envolvidas em processos neurodegenerativos. Estudos recentes têm observado a reentrada no ciclo celular de células neuronais pós-mitóticas em apoptose. Neste contexto, analisamos a expressão gênica e proteica das Cxs e ciclinas em resposta às lesões no sistema visual, especificamente na retina. Estas análises foram realizadas após a indução de trauma mecânico, modelo experimental que permite a visualização do foco, penumbra e áreas adjacentes à lesão. Utilizando técnicas combinadas, como a reação em cadeia da polimerase em tempo real (PCR Real-Time), Western Blot e imuno-histoquímica, avaliamos a expressão espaço-temporal destes genes e as proteínas por eles codificadas, em diferentes tempos pós-lesão. Os resultados da PCR Real-Time revelaram uma ausência de modulação da expressão gênica de Cx36 para os diferentes tempos pós-lesão analisados. A Cx43 mostrou aumento dos transcritos, após três e sete dias pós-lesão. A ciclina D1 e B1 apresentaram modulação significativa após um, três e sete dias pós-lesão. As análises de imuno-histoquímica revelaram uma redistribuição da Cx36 em resposta à lesão em diferentes tempos pós-lesão. A Cx43, por sua vez, apresentou um aumento aparente de sua expressão no foco e zona de penumbra da lesão, nos período de um, três e sete dias pós-lesão. Em retinas, após um e três dias de lesão, a ciclina D1 encontrou-se presente em células próximas ao foco da lesão. Observamos a presença de ciclina B1 no foco da lesão após um dia de lesão. Por meio de análises de Western Blot não foi possível detectar alterações das diferentes proteínas estudadas nas retinas, em períodos variados de exposição à lesão. Os dados deste estudo sugerem que i) possivelmente, as células afetadas pela lesão se encontram acopladas; ii) expressam proteínas reguladoras do ciclo celular. Levando em consideração o conjunto de resultados, sugerimos que é possível induzir ou prevenir a reentrada do ciclo celular em células pós-mitóticas da retina, controlando o acoplamento mediado pelas proteínas formadoras das JC. / Communication in the nervous system can occur directly between the cells through structures known as gap junction (GJ) channels. These channels allow the passage of small molecules up to 1 kDa and are composed of protein subunits named connexins (Cxs). Cell communication through GJ plays an important role during the development and visual signaling. Furthermore, cell coupling provided by the GJs has been related to processes of survival/cell death. Similarly, in addition to the classic role of cyclins and cyclins dependent kinases (CDKs) in the cell cycle regulation and differentiation, they are also involved in neurodegenerative processes. Recent studies have demonstrated the reentry of apoptotic post mitotic neurons in the cell cycle. In this context, we analyzed the gene and protein expression of Cxs and cyclins after lesions in the visual system, specifically in the retina. For this purpose, a mechanic trauma was induced in the retina, which represents a model that allows us to visualize the lesion focus, penumbra and adjacent areas. Using combined techniques, such as the real time polymerase chain reaction (real-time PCR), Western blot and immunohistochemistry, we evaluated the spatio-temporal expression of these genes and their encoded proteins at different times post-lesion. The real-time PCR revealed no modulation of the Cx36 gene expression for all the times post-lesion analyzed. Our results showed increase in the Cx43 transcripts one, three and seven days post-lesion. The immunohistochemistry analysis indicated redistribution of Cx36 in response to the lesion in different times. On the other hand, Cx43 presented evident increased expression in the focus and penumbra areas of the lesion one, three and seven days post-lesion. In our experiments we could observe that cyclin D1 is expressed in cells located close to the lesion focus one and three days post-lesion, while cyclin B1 is expressed in these cells only one day post-lesion. The Western blot analysis did not show changes on the protein levels evaluated in this study in any of the post-lesion times analyzed. Data obtained from this study suggest i) the cells affected by the lesion are possibly coupled by GJ; ii) these cells express protein regulators of cell cycle. Altogether, the results indicate that it is possible to induce or prevent the reentry of post mitotic cells of the retina in the cell cycle, by controlling cell coupling provided by GJ. Cell cycle Cell interaction Ciclo celular Conexinas Connexins Interação celular Retina Retina
78	Interação de oncoproteínas virais E6 e E7 de HPV16/18 com alvos celulares potenciais para o desenvolvimento de estratégias terapêuticas. / Interaction of E6 and E7 viral oncoproteins of HPV16/18 with potential cellular targets to the development of therapeutic strategies. Kavati, Erica Akemi 08 November 2012 (has links) O potencial oncogênico do papilomavírus humano (HPV) baseia-se na capacidade das oncoproteínas virais E6 e E7 alterarem o ciclo celular, levando à imortalização e malignidade das células. O importante papel das oncoproteínas na progressão tumoral e na interação com inúmeros alvos celulares tem relevância em estudos para o desenvolvimento de vacinas e terapias contra os cânceres associados ao HPV. Este estudo investigou a localização intracelular das oncoproteínas E6 e E7 de HPV16/18 e seus possíveis alvos celulares. Demonstrou a presença de E6 nuclear, citoplasmática e intramitocondrial, tanto em células naturalmente transformadas por HPV, como em células transfectadas com o oncogene E6 viral. E7 foi detectada no núcleo e citoplasma, porém nunca ocorreu E7 intramitocondrial. Confirmou a hipótese da presença intramitocondrial da oncoproteína viral E6 de HPV16/18 de alto risco. Dado inédito cuja relevância está relacionada com a aplicação clínica, no desenvolvimento de imunobiológicos e fármacos capazes de neutralizar a ação deste importante alvo terapêutico. / The oncogenic potential of HPV is based on the capacity of viral oncoproteins E6 and E7 to change cellular cycle leading to immortality and malignancy. The important role of oncoproteins in tumor progression and its interaction with numerous cellular targets have relevance in studies to the development of vaccines and therapies against HPV associated cancers. This study investigated intracellular localization of E6 and E7 HPV16/18 oncoproteins and its possible cellular targets. It showed the presence of E6 in the cellular nucleus, cytoplasm, and intramitochondrial in naturally HPV transformed cell, as well as in cells transfected with E6 viral oncogene. E7 was detected inside nucleus and cytoplasm, but E7 intramitochondrial did not occur. This study confirmed the hypothesis of the intramitochondrial presence of E6 viral oncoprotein from high risk HPV. This is an original data whose relevance is directly related to clinical application in the development of immunobiologicals and drugs, which are able to neutralize the action of this important therapeutic target. Cell Interaction Interação celular Neoplasias Neoplasms Oncogenic viruses Public health Saúde pública Vírus oncogênicos
79	Avaliação do papel da conexina 43 no desenvolvimento do granuloma, experimentalmente induzido em camundongos / Evaluation of the role of connexin 43 in the development of granuloma, experimentally induced in mice Oloris, Silvia Catarina Salgado 22 July 2005 (has links) A doença granulomatosa inflamatória envolve interações coordenadas entre linfócitos, monócitos/macrófagos, células epitelióides, eosinófilos, neutrófilos e fibroblastos. A comunicação intercelular mediada por junções gap, constituídas por conexinas, é responsável pela homeostase tecidual. A Cx43 está presente em células linfóides, células mielóides, fibroblastos e outras. Assim, para compreendermos o possível envolvimento das conexinas no granuloma, nós analisamos o efeito da deleção heterozigótica de uma Gja1 (gene Cx43) na formação e desenvolvimento dos granulomas hepáticos, induzidos por ovos de Schistosoma mansoni. Para tanto, camundongos heterozigotos (Cx43+/-) e selvagens (Cx43+/+) foram infectados com cercárias de Schistosoma mansoni e avaliados nos tempos: 6, 8 e 12 semanas após a infecção. As células dos granulomas apresentaram expressão de conexina 43, notadamente após 12 semanas de infecção. As lesões dos camundongos Cx43+/- apresentaram índice de proliferação reduzido e aumento na deposição de colágeno em fases tardias da doença. Apesar desses achados, não se encontrou redução no tamanho e celularidade das lesões em comparação aos camundongos selvagens. Também não obtivemos diferenças em relação ao hemograma ou população de linfócitos esplênicos CD4, CD8 e CD19. As células peritoneais dos animais de ambos genótipos apresentaram produção de NO e H<SUB2O<SUB2 similares. Contudo, os neutrófilos e monócitos sanguíneos dos animais Cx43+/-, estimulados por PMA, apresentaram aumento significante do burst oxidativo. Concluindo, nossos resultados indicam que a deleção de um alelo do gene da Cx43 modifica claramente a evolução da doença granulomatosa, mostrando um papel desta conexina no desenvolvimento do granuloma. / Inflammatory granulomatous disease involves coordinated interactions among lymphocytes, monocytes/macrophages, epithelioid cells, eosinophils, neutrophils and fibroblasts. Intercellular communication mediated by gap junctions constituted of connexins, is responsible for tissue homeostasis. Cx43 is present in lymphoid cells, myelogenous cells, fibroblasts and others. In order to understand the possible involvement of connexins in granuloma, we analyzed the effect of the heterologous deletion of a Gja1 (Cx43 gene) on the formation and development of hepatic granulomas induced by Schistosoma mansoni eggs. Heterozigous (Cx43+/-) and wild-type (Cx43+/+) mice were infected with S. mansoni cercarie and evaluated after 6, 8 and 12 weeks. Granuloma cells express Cx43, with considerable reduction in Cx43+/- mice. Moreover, granuloma cells from Cx43v+/- mice displayed reduced proliferation and increased collagen deposition at late phases of the disease. Despite these findings, no reduction of size or cellularity of the lesions was found in comparison to wild-type mice. We didn?t find differences in relation to blood count and splenic lymphocyte population CD4, CD8 and CD19. Peritoneal cells from animals of both genotypes presented similar production of NO and H2O2. However, blood neutrophils and monocytes from Cx43+/- mice, stimulated by PMA, displayed significantly increased oxidative burst. In conclusion, our results indicate that the deletion of one allele of the Cx43 gene clearly modifies the evolution of a granulomatous disease, supporting a role for this connexin on granuloma development. Cell interaction Granuloma Granuloma Interação celular Intercellular junction Junções intercelulares Macrófagos Macrophages Schistosoma mansoni Schistosoma mansoni
80	Interação de Escherichia coli enteropatogênica (EPEC) atípica que apresenta o padrão de adesão localizada-like com a célula epitelial in vitro. / In vitro interaction of LAL-adherent atypical enteropathogenic Escherichia coli (EPEC) with the epithelial cell. Bueris, Vanessa 04 July 2008 (has links) As EPEC típicas apresentam padrão de adesão localizada (LA) em células epiteliais, formando de microcolônias compactas. As EPEC atípicas aderem no padrão de adesão localizada-like (LAL), no qual não se observa microcolônias e que ocorre tardiamente em relação à LA. O objetivo deste estudo foi caracterizar a interação de EPEC atípica que apresenta o padrão LAL com a célula epitelial. A cinética da formação da lesão A/E, característica da patogênese de EPEC, demonstrou um atraso na adesão e na formação da lesão em EPEC atípica, que correspondeu à expressão tardia de Intimina, Tir e EspA. A complementação de EPEC atípica com o regulador perABC antecipou a expressão destes fatores e a formação da lesão A/E. Não foi observada relação entre outras adesinas descritas em DEC com o padrão LAL, bem como a mobilização dos receptores eucarióticos nucleolina e <font face=\"symbol\">b1-Integrina para o foco de adesão. Observou-se a possível interação da Intimina com um peptídeo da membrana da célula epitelial de 300 kDa, podendo tratar-se de um provável receptor para essa adesina. / Typical EPEC exhibit a localized adherence (LA) pattern in epithelial cells, where tight bacterial clusters are produced. Atypical EPEC produce a localized-like (LAL) adhesion pattern, in which the compact clusters are not formed and that occurs in a later stage of the infection. The aim of this study was to characterize the interaction of LAL-adherent atypical EPEC with the epithelial cell. The kinetics of the A/E lesion, the main feature of EPEC pathology, showed a clear delay in its formation by the atypical strains, probably a consequence of the delay observed in the expression of Intimin, Tir and EspA. The complementation of atypical EPEC with the perABC regulator revealed to be effective in not only advancing the expression of these factors, as well the formation of A/E lesion. No correlation was found between the presence of different adhesins already described in DEC and the LAL pattern. The analysis of the possible interaction of Intimin with epithelial cell receptors showed the presence of a 300 kDa peptide that it seems to interact with this adhesin. Escherichia coli Escherichia coli Diarréia Diarrhea Epithelial cell interaction Interação com célula epitelial

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