The introduction of systems biology in combination with the profiling of numerous biochemical components (e.g. lipid metabolites, herbal products) enables the study of living systems from a... Show moreThe introduction of systems biology in combination with the profiling of numerous biochemical components (e.g. lipid metabolites, herbal products) enables the study of living systems from a holistic perspective. In this thesis we explored systems biology-based platforms to investigate the therapeutic effects of chemical drugs and herbal medicines on animal models with high-fat diet-induced obesity and genetic manipulated diabetes. The aim of the work was to better understand the working mechanisms of both treatments on metabolic syndrome from a holistic point of view and to evaluate the potentials of __omics__ technologies to this effort. Our results showed that lipidomics approach with appropriate bioinformatics tools are essential to describe the global, dynamic metabolic response of living systems, e.g. from homeostasis via sub-optimal health and ultimately to dysfunction. These studies pointed hints to disco ver lipid biomarkers in relation to health promotion and disease prevention and facilitated the understanding of the complex regulatory mechanisms in humans or animals. Particularly, the introduction of the systems biology view will not only provide in-depth insights into the multi-target synergetic effects (which have hardly been used in modern drug discovery) but also can bridge Chinese Medicine (multi-target therapy) and Western Medicine (molecular pharmacology). Show less
Obesity and insulin resistance (IR) are multifactorial pathologies, characterized by a complex etiology. In addition to genetics, age and sex, environmental factors such as dietary composition and... Show moreObesity and insulin resistance (IR) are multifactorial pathologies, characterized by a complex etiology. In addition to genetics, age and sex, environmental factors such as dietary composition and lifestyle have profound effects on the development of both pathologies. Excess dietary energy intake (EI) per se has effects on energy homeostasis through physiological systems involved in maintenance of substrate balances. Moreover, the composition of the diet itself may contribute and aggravate the phenotype in time by acting as a second hit. In particular, high levels of saturated long chain fatty acids have been associated with the development of obesity and IR. In this thesis, we have addressed a number of important aspects that play a role in the development of diet-induced obesity and insulin resistance. Show less
