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The Response of the Glycerophosphocholine Metabolite Lipidome to Experimental Autoimmune Encephalomyelitis and Cycling Female Sex Hormones in the Hippocampus and Temporal-Parietal-Entorhinal Cortex of Female MiceSherman, Samantha January 2016 (has links)
Recently, several glycerophosphocholine biomarkers for multiple sclerosis were discovered in serum, plasma, and cerebrospinal fluid; little is known, however, about brain glycerophosphocholine metabolism during multiple sclerosis despite evidence that lysophosphocholines can elicit demyelination experimentally. Using a lipidomics approach, glycerophosphocholine metabolites in the hippocampus and temporal-parietal-entorhinal cortex of female C57BL/6J mice subjected to experimental autoimmune encephalomyelitis (a mouse model of multiple sclerosis) were quantified and compared to metabolite levels in healthy mice. To control for potential hormonal regulation, glycerophosphocholine metabolites from these same regions were quantified across the estrous cycle in healthy female N5 C57BL/6J x C3h/HeJ mice. I found that several critical glycerophosphocholine metabolites were significantly decreased over the course of experimental autoimmune encephalomyelitis in both brain regions, although the hippocampus was more affected compared to the temporal-parietal-entorhinal cortex. Similarly, hippocampal glycerophosphocholine metabolism was more responsive to fluctuations in female sex hormones than the cortex. Overall, these results suggest that glycerophosphocholine metabolism differs not only between brain regions, but also between conditions, namely experimental autoimmune encephalomyelitis and the estrous cycle.
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The Role of the Glycerophosphocholine Remodelling in Alzheimer’s DiseaseP. Blanchard, Alexandre January 2016 (has links)
Advances in high performance liquid chromatography-electrospray ionization-mass spectrometry made in proteomics and now applied to the emerging field of lipidomics has enabled the identification of lipid composition at the molecular level. These improvements have given fresh impetus to lipid research. Modulating lipid compositions has been suggested to represent a novel therapeutic target for intervention in Alzheimer’s disease. A better understanding of how metabolic alterations in the lipid landscape alter Alzheimer’s disease prognosis is required to realize this promise. To achieve this goal, further methodological improvement in lipidomic data acquisition and analysis are required as are comprehensive comparative analyses of lipid metabolism at the systems level in clinical samples and mouse models of human neurodegenerative disease. In this thesis, I present two new lipidomic bioinformatic tools Retention Time Standardization and Registration (RTStaR) and Visualization and Phospholipid Identification (VaLID) designed to facilitate analysis of high performance liquid chromatography-electrospray ionization-mass spectrometry lipidomic data. Using these tools and methodologies, I then comparatively profiled the glycerophosphocholine lipidome in the plasma of young adults, cognitively normal elderly with vascular impairment, mild cognitive impairment and late-onset Alzheimer’s disease patients and the entorhinal-hippocampal circuit of late-onset Alzheimer’s disease patients, TgCRND8 human amyloid beta precursor protein transgenic mice (Alzheimer’s disease mouse model), and across the lifespan of NonTg female littermates. Systems-level analyses identified aberrant glycerophosphocholine metabolic pathways systemically perturbed by age, disease, and amyloid beta biogenesis resulting in the regionally-specific accumulation of critical platelet-activating factor and, to a lesser extent, the lysoglycerophosphocholine, metabolites in brain that could be, in part, predicted by changes in plasma. Finally, using proteomic approaches I identified additional changes in lipid metabolic pathways associated with phenoconversion in the TgCRND8 mouse model of Alzheimer’s disease.
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