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Mechanisms of invasiveness of tumours: ultrastructure of the interactions between neoplastic and normal cells in culture.January 1988 (has links)
Cheung Suet Ling. / Thesis (M.Ph.)--Chinese University of Hong Kong. / Bibliography: leaves 110-135.
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Molecular mechanisms of tumor invasion in three-dimensional collagen matricesFisher, Kevin E., January 2007 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 2007. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Vita. "August 2007" Includes bibliographical references.
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Mechanism of tumor cell invasion and metastasis based on loss of adhesion the role of altered N-cadherin processing /Maret, Deborah. January 1900 (has links)
Thesis (Ph.D.). / Written for the Dept. of Neurology and Neurosurgery. Title from title page of PDF (viewed 2008/05/09). Includes bibliographical references.
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Role of variant sialylation in regulating tumor cell behaviorShaikh, Faheem M. January 2008 (has links) (PDF)
Thesis (Ph. D.)--University of Alabama at Birmingham, 2008. / Title from first page of PDF file (viewed Oct. 9, 2008). Includes bibliographical references (p. 89-101).
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Biological studies of fascin function in cancer cell invasion and cancer progressionBehmoaram, Emy. January 2008 (has links)
The process of metastasis is initiated through the acquisition of inherent and autonomous motile and invasive properties by tumor cells. These phenomena are initiated through a balance between forward cancer cell membrane protrusion and tail retraction, and occur via cell cytoskeleton remodeling, actin reorganization, and coordinated focal adhesion assembly and disassembly events. Among the vast network of cytoskeletal proteins, the actin-bundling protein fascin plays a major function in cell cytoskeleton remodeling. It is a 55-kDa protein involved in the formation of filopodia and cell migration, and found to be upregulated in many cancers. We report herein key functions for fascin in the regulation of prostate and breast cancer progression. Fascin expression is upregulated in localized and hormone refractory prostate cancer, responsible for a more aggressive clinical course. In addition, functional dissection of fascin reveals a novel function in the regulation of focal adhesion turnover dynamics, by modulating the phosphorylation state of central focal adhesion proteins through a potential collaboration with the protein tyrosine phosphatase, PEST. Together, our data support the importance of fascin in cancer cell invasion and as a significant prognostic marker and a potential therapeutic target for aggressive cancers.
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Role of focal adhesion kinase in mammary gland tumorigenesis /Pylayeva, Yuliya. January 2008 (has links)
Thesis (Ph. D.)--Cornell University, May, 2008. / Vita. Includes bibliographical references (leaves 115-128).
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Cytokeratin 8 functions as a cell surface receptor and secreted binding protein for plasminogen /Hembrough, Todd Allen. January 1997 (has links)
Thesis (Ph. D.)--University of Virginia, 1997. / Spine title: Cytokeratin 8 is a plasminogen receptor ... Includes bibliographical references (132-140). Also available online through Digital Dissertations.
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Biological studies of fascin function in cancer cell invasion and cancer progressionBehmoaram, Emy. January 2008 (has links)
No description available.
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Dystroglycan function is a novel determinant of tumor growth and behavior in prostate cancerMitchell, Andrew, Mathew, G., Jiang, T., Hamdy, F.C., Cross, S.S., Eaton, C., Winder, S.J. January 2013 (has links)
No / Dystroglycan is a ubiquitously expressed cell adhesion molecule frequently found to be altered or reduced in adenocarcinomas, however the mechanisms or consequences of dystroglycan loss have not been studied extensively. We examined the consequence of overexpression or RNAi depletion of dystroglycan on properties of in vitro growth migration and invasion of LNCaP, PC3, and DU145 prostate cancer cell lines. RESULTS: Using LNCaP cells we observed cell density-dependent changes in beta-dystroglycan with the appearance of several lower molecular weight species ranging in size from 43 to 26 kDa. The bands of 31 and 26 kDa were attributed to proteolysis, whereas bands between 43 and 38 kDa were a consequence of mis-glycosylation. The localization of beta-dystroglycan in LNCaP colonies in culture also varied, cells with a mesenchymal appearance at the periphery of the colony had more pronounced membrane localization of dystroglycan. Whereas some cells demonstrated nuclear dystroglycan. Increased dystroglycan levels were inhibitory to growth in soft agar but promoted Matrigel invasion, whereas reduced dystroglycan levels promoted growth in soft agar but inhibited invasion. Similar results were also obtained for PC3 and DU145 cells. This study suggests that changes in beta-dystroglycan distribution within the cell and/or the loss of dystroglycan during tumorigenesis, through a combination of proteolysis and altered glycosylation, leads to an increased ability to grow in an anchorage independent manner, however dystroglycan may need to be re-expressed for cell invasion and metastasis to occur.
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Estudo funcional do gene PHLDA1 Pleckstrin Homology-like Domain, Family A, Member 1 em células epiteliais de mama, MCF10A / Functional study of PHLDA1 gene (Pleckstrin Homology-like Domain, Family A, Member 1) in breast epithelial cells, MCF10ABonatto, Naieli 29 November 2016 (has links)
O câncer de mama é a principal causa de morte por câncer entre as mulheres no mundo. Fatores genéticos, comportamentais e ambientais afetam o risco de aparecimento dessa doença e seu desenvolvimento e progressão ocorrem pelo acúmulo de alterações genéticas/epigenéticas que levam a manutenção de sinais proliferativos nas células, fuga dos agentes supressores de crescimento e resistência à morte celular. O gene PHLDA1 (de Pleckstrin Homology-Like Domain, Family A, Member 1) codifica uma proteína de 401 aminoácidos que já foi descrita envolvida em distintos processos biológicos incluindo morte celular e, dessa forma, é frequentemente associada ao câncer. Perda progressiva de PHLDA1 já foi descrita em melanoma primário e metastático enquanto sua superexpressão foi descrita para tumores intestinais e pancreáticos. Em dados prévios de nosso grupo de pesquisa o gene PHLDA1 foi encontrado diferencialmente expresso em tumores de mama onde sua ausência estava relacionada com sobrevida livre de doença e sobrevida global reduzidas nas pacientes. Estudos do gene PHLDA1 em linhagens de mama são escassos e a compreensão de seu papel funcional e de como sua ausência pode estar relacionada com a redução da sobrevida em pacientes com câncer de mama permanecem obscuros. Com o objetivo de compreender a função de PHLDA1 em células epiteliais de mama, nós investigamos os efeitos da supressão do gene PHLDA1 em células MCF10A. A redução da expressão foi alcançada a partir de transfecção das células com vetores plasmidiais contendo shRNAs específicos para o transcrito de PHLDA1 e subsequentemente foram realizados ensaios funcionais. A expressão diminuida de PHLDA1 foi capaz de induzir acentuadas alterações morfológicas e comportamentais nas células MCF10A, incluindo mudança no padrão de ancoragem célula-célula e reorganização nos filamentos de actina, além de maior taxa de proliferação, migração e invasão das células. Além disso, em condições de baixa ancoragem, as células com expressão reduzida de PHLDA1 apresentaram mamosferas de formato irregular em comparação às células controle. Em conjunto, nossos resultados mostram que a diminuição da expressão de PHLDA1 em células MCF10A está relacionada a um comportamento agressivo e acentuadas alterações morfológicas. Estes dados são consistentes com atividade supressora tumoral de PHLDA1 em células epiteliais de mama / Breast cancer is the leading cause of cancer death among women worldwide. Genetic, behavioral and environmental factors affect the risk of onset of the disease. Breast cancer development and progression involves the accumulation of genetic/epigenetic changes that lead to maintenance of proliferative signals, evasion of growth suppressors and resistance to cell death. The PHLDA1 gene (Pleckstrin Homology-like domain, Family A, member 1) encodes a 401 amino acids protein that has been described involved in different biological processes including cell death and thus, is often associated with cancer. Progressive loss of PHLDA1 has been described in primary and metastatic melanoma while their overexpression has been reported for intestinal and pancreatic tumors. In previous data from our research group the PHLDA1 gene was found differentially expressed in breast tumors where its downregulation was related to shorter disease-free survival and overall survival of the patients. Literature regarding PHLDA1 in mammary epithelial cell lines is scarce and the understanding of their functional role and how its downregulation can be related to poor prognosis in breast cancer patients remain unclear. In order to understand the PHLDA1 function in breast epithelial cells, we investigated the effects of downregulation of PHLDA1 in MCF10A cells. The reduced expression was achieved from transfection of cells with plasmid vectors containing shRNAs for the specific transcript of PHLDA1 followed by functional assays. The decreased expression of PHLDA1 was sufficient to induce marked morphological and behavioral changes in MCF10A cells, including changes in cell-to-cell attachment pattern and actin reorganization, increased proliferation, migration and invasion rate of cells. Furthermore, in independent of attachment condition, cells with reduced expression of PHLDA1 formed mammospheras whit irregular shape compared to control cells. Taken together, our results showed that the decreased expression of PHLDA1 in MCF10A cells is related to aggressive behavior and marked morphological changes. These data are consistent with tumor suppressor activity for PHLDA1 in breast epithelial cells
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