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The in vivo role of AMP-activated protein kinase in the metabolic function of brown and beige adipose tissueDesjardins, Eric January 2016 (has links)
Brown (BAT) and white (WAT) adipose tissues are significant contributors to whole-body energy homeostasis. A disturbance in their metabolic function could result in the development of obesity and subsequent metabolic complications. The energy-sensing enzyme of the cell, AMP-activated protein kinase (AMPK), has been vastly studied in skeletal muscle and liver, but its role in BAT and WAT metabolism is elusive. We generated an inducible, adipocyte-specific knockout mouse model for the two AMPK β subunits (iβ1β2AKO) and found that iβ1β2AKO mice were intolerant to cold, and resistant to β3-adrenergic activation of BAT and browning of WAT. These defects in BAT activity were not due to the AMPK-ACC axis, but instead were due to compromised integrity of mitochondria. Mitochondrial morphology, function, and autophagy were all distorted in iβ1β2AKO mice, measured via transmission electron microscopy (TEM), respiration, and immunoblotting, respectively. These findings provide strong evidence that adipocyte AMPK regulates a fine-tuned program that responds to environmental and pharmacological inputs by maintaining mitochondrial integrity through autophagy and subsequent mitochondrial biogenesis in chronic settings. / Thesis / Master of Science (MSc) / Traditionally, there are two types of adipose tissue that appear and function differently. White adipose tissue (WAT) has evolved to store away energy in an efficient manner for later use. In contrast, brown adipose tissue (BAT) is a unique organ in mammals that has evolved over time to maintain body temperature. In essence, BAT has the ability to burn away calories as heat and is a promising therapeutic target to combat obesity and metabolic diseases such as type 2 diabetes. In our study, we have identified a potential factor that not only promotes BAT activity, but also promotes WAT to function more like BAT. By targeting this factor through drugs, there is potential to increase resting metabolic rate and fight the global epidemic of obesity.
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Sireline variation in neonatal lamb cold toleranceGudex, B. W. January 2001 (has links)
The cost of lamb mortality caused by cold exposure has been estimated at approximately 40 million dollars per year. This value is probably conservative as it does not include the cost due to the reduction in productivity in hypothermic lambs that manage to survive or the cost of reduced selection potential incurred by fewer lambs surviving until selection. The objectives of this research was to investigate whether sire-line variation exists in neonatal lamb cold tolerance and whether polymorphism in the β₃ adrenergic receptor gene can be used as a genetic marker for lamb cold tolerance and lean muscle growth. The influence of the climate, birthweight, age of dam at lambing, gender and birth rank on neonatal lamb cold tolerance was also analysed. Neonatal lamb mortality due to cold exposure was analysed in four field trials that used neonatal lamb morality from cold exposure as a predictor of neonatal lamb cold tolerance. Sire-line variation in neonatal lamb morality was observed in all trials, though it appeared that this effect was largely mediated through sire-line variation in lamb birth weight. Variation in lamb birth weight between birth rank classed was also found to be responsible for the influence of birth rank on neonatal lamb mortality due to cold exposure. The age of dam at lambing and the lamb gender was not observed to influence neonatal lamb mortality due to cold exposure. The sires from the cold tolerance study and the progeny of the lean muscle growth study were genotyped for the β₃ adrenergic receptor locus. Other studies have found evidence that a major gene exists in the catecholamine stimulation of brown adipose thermogenesis and evidence that the β₃-AR gene is a likely candidate. However, this hypothesis and the hypothesis that polymorphism in the β₃-AR gene is also linked to lean muscle growth in lambs was not confirmed in this study. So while it appears that the results were confounded by experimental design, there is evidence that influence of polymorphism in the ovine β₃ AR gene on neonatal lamb mortality and/or lean muscle growth is not sufficient to be considered a major gene effect. The implications of this experiment on the sheep industry and sheep farmers in general are huge. While completely eliminating lamb deaths due to inadequate cold tolerance is impossible, this study shows that large gains in lamb survival could be possible through selective breeding.
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Sireline variation in neonatal lamb cold toleranceGudex, B. W. January 2001 (has links)
The cost of lamb mortality caused by cold exposure has been estimated at approximately 40 million dollars per year. This value is probably conservative as it does not include the cost due to the reduction in productivity in hypothermic lambs that manage to survive or the cost of reduced selection potential incurred by fewer lambs surviving until selection. The objectives of this research was to investigate whether sire-line variation exists in neonatal lamb cold tolerance and whether polymorphism in the β₃ adrenergic receptor gene can be used as a genetic marker for lamb cold tolerance and lean muscle growth. The influence of the climate, birthweight, age of dam at lambing, gender and birth rank on neonatal lamb cold tolerance was also analysed. Neonatal lamb mortality due to cold exposure was analysed in four field trials that used neonatal lamb morality from cold exposure as a predictor of neonatal lamb cold tolerance. Sire-line variation in neonatal lamb morality was observed in all trials, though it appeared that this effect was largely mediated through sire-line variation in lamb birth weight. Variation in lamb birth weight between birth rank classed was also found to be responsible for the influence of birth rank on neonatal lamb mortality due to cold exposure. The age of dam at lambing and the lamb gender was not observed to influence neonatal lamb mortality due to cold exposure. The sires from the cold tolerance study and the progeny of the lean muscle growth study were genotyped for the β₃ adrenergic receptor locus. Other studies have found evidence that a major gene exists in the catecholamine stimulation of brown adipose thermogenesis and evidence that the β₃-AR gene is a likely candidate. However, this hypothesis and the hypothesis that polymorphism in the β₃-AR gene is also linked to lean muscle growth in lambs was not confirmed in this study. So while it appears that the results were confounded by experimental design, there is evidence that influence of polymorphism in the ovine β₃ AR gene on neonatal lamb mortality and/or lean muscle growth is not sufficient to be considered a major gene effect. The implications of this experiment on the sheep industry and sheep farmers in general are huge. While completely eliminating lamb deaths due to inadequate cold tolerance is impossible, this study shows that large gains in lamb survival could be possible through selective breeding.
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