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Characterization of energy metabolism of murine models of obesity
Irodenko, Ilariia ; Bardová, Kristina (advisor) ; Šilhavý, Jan (referee)
Energy metabolism involves processes of energy intake and energy expenditure, including storage of excessive energy in a form of lipids. White adipose tissue stores energy and plays an important role in maintenance of energy homeostasis. Animals obtain energy by oxidation of substrates from diet. Indirect calorimetry is a method for assessment of energy expenditure based on a measurement of oxygen consumption and carbon dioxide production. The VCO2/VO2 ratio (Respiratory Quotient) indicates oxidation of specific metabolic substrates. Metabolic flexibility is the ability of an organism to match substrate oxidation to its availability. The decrease of a metabolic flexibility is linked to inability to adapt to available substrate and with excessive lipid storage in the body. In this thesis we evaluated correlation between the metabolic flexibility defined by indirect calorimetry and the adipose tissue metabolism in two strains of mice, C57Bl/6J and AJ, that differ in their propensity to diet-induced obesity. Increased whole-body metabolic flexibility in A/J mice was connected to higher ability of adipose tissue to release and uptake lipids. The study of reaction to high-fat diet enables us to distinguish "metabolically healthy" and "metabolically unhealthy" adipose tissue. The knowlegde of these...
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Adipose tissue metabolism and genetically modified murine models
Irodenko, Ilariia ; Bardová, Kristina (advisor) ; Železná, Blanka (referee)
Adipose tissue plays an important role in energy and glucose homeostasis. Adipose tissue metabolism includes lipolysis and lipogenesis processes which control lipid mobilization, storage and distribution in the body. In addition to that adipose tissue is recognized as an endocrine organ which generates cytokines and adipokines for communication with other organs and tissues. The major process of lipogenesis is triacylglycerol synthesis which comprises such enzymes as monoacylglycerol acyltransferase and diglyceride acyltransferase for triacylglycerol storage in a form of lipid droplets. The other way around main enzymes of lipolysis adipose triglyceride lipase and hormone-sensitive lipase produce sufficient amount of energy for other tissues. Lipid combustion in brown adipose tissue produces heat in the body through the function of uncoupling protein 1. Signaling pathways of lipolysis and thermogenesis comprise adrenergic receptors. Study of thermogenic function of uncoupling protein and adipose tissue metabolism can be useful for the treatment of obesity and metabolic disorders.
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Characterization of energy metabolism of murine models of obesity
Irodenko, Ilariia ; Bardová, Kristina (advisor) ; Šilhavý, Jan (referee)
Energy metabolism involves processes of energy intake and energy expenditure, including storage of excessive energy in a form of lipids. White adipose tissue stores energy and plays an important role in maintenance of energy homeostasis. Animals obtain energy by oxidation of substrates from diet. Indirect calorimetry is a method for assessment of energy expenditure based on a measurement of oxygen consumption and carbon dioxide production. The VCO2/VO2 ratio (Respiratory Quotient) indicates oxidation of specific metabolic substrates. Metabolic flexibility is the ability of an organism to match substrate oxidation to its availability. The decrease of a metabolic flexibility is linked to inability to adapt to available substrate and with excessive lipid storage in the body. In this thesis we evaluated correlation between the metabolic flexibility defined by indirect calorimetry and the adipose tissue metabolism in two strains of mice, C57Bl/6J and AJ, that differ in their propensity to diet-induced obesity. Increased whole-body metabolic flexibility in A/J mice was connected to higher ability of adipose tissue to release and uptake lipids. The study of reaction to high-fat diet enables us to distinguish "metabolically healthy" and "metabolically unhealthy" adipose tissue. The knowlegde of these...
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Adipose tissue metabolism and genetically modified murine models
Irodenko, Ilariia ; Bardová, Kristina (advisor) ; Železná, Blanka (referee)
Adipose tissue plays an important role in energy and glucose homeostasis. Adipose tissue metabolism includes lipolysis and lipogenesis processes which control lipid mobilization, storage and distribution in the body. In addition to that adipose tissue is recognized as an endocrine organ which generates cytokines and adipokines for communication with other organs and tissues. The major process of lipogenesis is triacylglycerol synthesis which comprises such enzymes as monoacylglycerol acyltransferase and diglyceride acyltransferase for triacylglycerol storage in a form of lipid droplets. The other way around main enzymes of lipolysis adipose triglyceride lipase and hormone-sensitive lipase produce sufficient amount of energy for other tissues. Lipid combustion in brown adipose tissue produces heat in the body through the function of uncoupling protein 1. Signaling pathways of lipolysis and thermogenesis comprise adrenergic receptors. Study of thermogenic function of uncoupling protein and adipose tissue metabolism can be useful for the treatment of obesity and metabolic disorders.
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