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Full-Text Articles in Medicine and Health Sciences
The Role Of St6gal-I Sialylation In Fas (Cd95) Death Receptor Function And Tumorigenesis, Amanda F. Swindall
The Role Of St6gal-I Sialylation In Fas (Cd95) Death Receptor Function And Tumorigenesis, Amanda F. Swindall
All ETDs from UAB
The golgi glycosyltransferase, ST6Gal-I, adds a negatively-charged sialic acid in an alpha-2-6 linkage to N-linked glycans. ST6Gal-I is upregulated in many cancers, and is associated with increased metastasis and poor patient prognosis. ST6Gal-I expression has been shown to be driven by oncogenic-ras signaling. However, mechanistic details of the role ST6Gal-I plays in tumor initiation and progression are not well defined. Historically, studies have focused on contributions of ST6Gal-I to the malignant cell phenotypes of migration and invasion. Emerging evidence including studies contained in this dissertation have begun to elucidate a role for ST6Gal-I as a regulator of apoptotic signaling by …
Regulation Of Cell Death By Autophagy In Glial Neoplasms, Latika R. Kohli
Regulation Of Cell Death By Autophagy In Glial Neoplasms, Latika R. Kohli
All ETDs from UAB
Malignant peripheral nerve sheath tumors (MPNSTs) are aggressive malignancies of the peripheral nervous system. The majority of MPNSTs arise in patients of the autosomal dominant genetic disorder neurofibromatosis type I (NF1) although they also arise sporadically. In the absence of any effective chemotherapeutic options and with surgery constituting the mainstay of treatment, MPNST patients face an extremely poor prognosis. This underscores the need to develop novel therapeutic strategies against this tumor type. It is well accepted that the crosstalk between autophagy and apoptosis can be exploited to derive maximal therapeutic benefit, especially through combinatorial therapies. However, this interaction is extremely …
Regulation Of Neuronal Cell Death By Bh3-Only Proteins, Arindam P. Ghosh
Regulation Of Neuronal Cell Death By Bh3-Only Proteins, Arindam P. Ghosh
All ETDs from UAB
Apoptosis in metazoan organisms plays critical roles in normal development, tissue homeostasis and immunity, and its disturbed regulation leads to many pathological states, including cancer, autoimmunity, infection and degenerative disorders. Apoptosis can be triggered by the engagement of `death receptors' of the tumor necrosis factor receptor family on the cell surface or by diverse intracellular signals that act upon the BCL2 (B-cell CLL/lymphoma 2) protein family, which controls the integrity of the mitochondrial outer membrane through the complex interactions of family members. Both the pathways lead to cellular demolition by dedicated proteases termed caspases. Different BH3-only proteins (or combinations of …