Browsing Graduate Student Dissertations & Theses by Subject "NEUROLOGICAL DISORDERS"
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BRAIN SPECIFIC NEURAL EXTRACELLULAR MATRIX EXPRESSION AND MODIFICATIONS IN NEUROLOGICAL DISEASE AND DISORDERSThe central nervous system (CNS) is extraordinarily complex in both structure and function. The neural extracellular matrix (ECM) is one of the key classes ofmolecules that regulates thedevelopment of the CNS and maintains its structure and function in the adult.Thereby understanding the function of the neural ECMis key to understanding the CNS. The neural ECM is composed of several nervous-system specificproteins, which are hypothesized to uniquely contribute to the defining physiological functions of the CNS. However,work in this area has been hindered by the highly complex molecular properties of the neural ECM, which stem from alterations in expressionand modifications (resulting from glycosylation and proteolytic cleavage) of its constituents. Further defining mechanisms that alter the expression and modifications of neural ECM constituents are critical to fully understanding its complex array of functions. Often in neuropathologies, the neural ECM undergoes dynamic changes providing a valuable tool to further understand its function andthe opportunity to explore its contribution to disease pathology and utility as a therapeutic target. The work presented herein investigates the role of altered expression of the nervous-system specific ECM constituent, Brain Enriched Hyaluronan Binding (BEHAB)/ brevican(B/b), in glioma,and altered glycosylation of the nervous system enriched ECM constituent, RPTPζ/phosphacan, in O-mannosylrelated congenital muscular dystrophies (CMDs). Our work suggests that increased expression of B/b in the glioma tumor microenvironment (TEM) contributes to the pathological progression of these tumors, and reducing its expression is a valuable therapeutic strategy. Additionally, our work evaluates the transcriptional regulatory mechanisms leading to increases inB/b expression in glioma and highlights the potential value of these mechanisms as therapeutic targets. Our work also identifies the absence of O-mannosyl linked carbohydrates on RPTPζ/phosphacan in the brains of CMD models and suggests that altered glycosylation of RPTPζ/phosphacan may have a role in the neuropathologies underlying these disorders. Overall this work provides valuable insight intothe molecular complexities of the neural ECM stemming from changes in the expression and glycosylation of its constituents and furthers our understanding of its function in the normal CNS and in neuropathologies.