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Cells live in complex environments and must be able to adapt to environmental changes in order to survive. The ability of a cell to survive and thrive in a changing environment depends largely on its ability to receive and respond to extracellular signals. Initiating with receptors, signal transduction cascades begin translating extracellular signals into intracellular messages. Such signaling cascades are responsible for the regulation of cellular metabolism, cell growth, cell movement, transcription, translation, proliferation and differentiation. This dissertation seeks to dissect and examine critical signaling pathways involved in the regulation of proliferation in neural stem cells (Chapter 2) and the regulation of Glioblastoma Multiforme pathogenesis (GBM; Chapter 3). In Chapter 2 of this dissertation, we hypothesize that the mTOR signaling pathway plays a significant role in the determination of neural stem cell proliferation given its control of cell growth, metabolism and survival. We describe the effect of inhibition of mTOR signaling on neural stem cell proliferation using animal models of aging. Our results show that the molecular method of targeted inhibition may result in differential effects on neural stem cell proliferation as the use of rapamycin significantly reduced proliferation while the use of metformin did not. Abnormal signaling cascades resulting in unrestricted proliferation may lead to the development of brain cancer, such as GBM. In Chapter 3 of this dissertation, we hypothesize that the inhibition of the protein kinase, aPKCλ results in halted GBM progression (invasion and proliferation) due to its central location in multiple signaling cascades. Using in-vitro and in-vivo models, we show that aPKCλ functions as a critical node in GBM signaling as both cell-autonomous and non-cell-autonomous signaling converge on aPKCλ resulting in pathogenic downstream effects. This dissertation aims to uncover the molecular mechanisms involved in cell signaling pathways which are responsible for critical cellular effects such as proliferation, invasion and transcriptional regulation.
ContributorsKusne, Yael (Author) / Sanai, Nader (Thesis advisor) / Neisewander, Janet (Thesis advisor) / Tran, Nhan (Committee member) / Hammer, Ronald (Committee member) / Narayanan, Vinodh (Committee member) / Shapiro, Joan (Committee member) / Arizona State University (Publisher)
Created2014