Obesity has a great societal impact as it contributes to the development of type 2 diabetes and cardiovascular diseases. Activation of brown adipose tissue (BAT) is seen as a strategy to combat... Show moreObesity has a great societal impact as it contributes to the development of type 2 diabetes and cardiovascular diseases. Activation of brown adipose tissue (BAT) is seen as a strategy to combat adiposity and related disorders, because of its capacity to combust nutrients and increase energy expenditure. To develop novel BAT activating methods, a better understanding of the pathophysiology of diet-induced obesity on BAT function and whole-body metabolism is required. Studies described in this thesis have increased our understanding of nutrient handling by brown adipocytes. We also generated immortalized brown adipocytes which can be used for future research. Furthermore, we gained more insight into the development of diet-induced obesity; feeding a high fat diet (HFD) rapidly made BAT insulin resistant and less active. In addition, HFD feeding increased synthesis of so-called endocannabinoids in both white and brown adipose tissue. Because endocannabinoids regulate both energy intake and expenditure, future research should determine whether inhibiting endocannabinoid signaling specifically in adipose tissue is a worthwhile strategy to pursue in combating obesity. Finally, quercetin, which naturally occurs in fruits and vegetables, induced ‘browning’ of white adipose tissue and thereby improved blood lipid levels. These studies pave the road for further development of BAT-activating strategies! Show less
Extensive literature links the dopamine receptor D2 to insulin resistance and diabetes mellitus type 2. However, many aspects of the functional relationship remain unclear. In this thesis we... Show moreExtensive literature links the dopamine receptor D2 to insulin resistance and diabetes mellitus type 2. However, many aspects of the functional relationship remain unclear. In this thesis we focused on unraveling the characteristics of the interplay between dopamine D2 receptors and glucose metabolism as well as understanding the underlying mechanism(s). We evaluated the impact of DRD2 agonistic and antagonistic drugs on glucose and insulin metabolism in healthy volunteers, mice and INS-1E cells and we assessed dopaminergic parameters under different metabolic conditions. Our results show that altered dopaminergic parameters associated with obesity are due to mechanisms other than diet composition. But, changes in dopaminergic signaling may set the stage for metabolic corollaries of high fat feeding and may be involved in the beneficial impact of calorie restriction. We also demonstrate that inhibiting DRD2 activation may affect glucose homeostasis independent of body weight alterations. The underlying mechanisms include a reduction in physical activity and a direct effect on insulin sensitivity. In addition we provide evidence that inhibition of insulin secretion may, paradoxically, underlie the beneficial impact of DRD2 activation on glucose metabolism. We believe these findings may offer new ideas for strategies to prevent of treat diabetes mellitus type 2. Show less