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Investigating The Role Of Nuclear Foxo3 In Pten-Null Glioblastomas, Lilia Sanchez
Investigating The Role Of Nuclear Foxo3 In Pten-Null Glioblastomas, Lilia Sanchez
Theses and Dissertations
The PI3K pathway activates AKT, leading to inactivation of FOXO transcription factors. Loss of PTEN results in constitutive inactivation of tumor suppressor FOXO. There is increasing evidence that FOXO resides and promotes transcriptional activity in the nucleus despite high PI3K output within certain advanced cancers and embryonic stem cells. Here, we investigate the regulation and roles of FOXO transcription factors in glioblastoma and basal breast cancer. First, we built and published genetic models to investigate the roles of FOXO transcription factors in cancer cell lines for glioblastoma (U87MG). We examined the function of FOXO transcription factors using these genetic models …
Metabolic Dysregulation: An Investigation Of The Role Of Foxo3 In Gluconeogensis In Pten-Null Glioblastomas, Victor Fanniel
Metabolic Dysregulation: An Investigation Of The Role Of Foxo3 In Gluconeogensis In Pten-Null Glioblastomas, Victor Fanniel
Theses and Dissertations
Many processes are regulated by the Phosphatidylinositol 3 kinase (PI3K) pathway in the cell including cell survival, metabolism, and apoptosis. Increased activation of the PI3K pathway is a hallmark of many cancers which can be oftentimes attributed to the mutation of PTEN, which encodes an enzyme that performs the reverse reaction of PI3K. When PTEN is null-mutated, this creates a constitutively active PI3K pathway and constitutively active AKT. Since AKT phosphorylates conserved residues on FOXO transcription factors to mark them for nuclear export, this renders FOXO inactive. However, new research has provided evidence that FOXO is still present in …