Cardiovascular diseases are the leading cause of death worldwide, with atherosclerosis as most common underlying pathology. Atherosclerosis is characterized by arterial narrowing due to cholesterol... Show moreCardiovascular diseases are the leading cause of death worldwide, with atherosclerosis as most common underlying pathology. Atherosclerosis is characterized by arterial narrowing due to cholesterol and lipid accumulation. Despite available effective cholesterol lowering medication, considerable risk for recurrent vascular events remains. This residual risk is at least in part explained by high blood lipid levels. The research described in this thesis revealed novel therapeutic strategies that improve lipid metabolism and reduce atherosclerosis development in mice. Inhibition of the endocannabinoid system was found to be an effective strategy, as well as concomitant activation of two incretin hormone receptors, namely those for GIP and GLP1. For combined GIP/GLP1 receptor agonism we additionally showed strongly attenuated hepatic steatosis. We were also able to identify additional targets to attenuate hyperlipidemia by studying the mechanisms underlying the strong day-night rhythm of brown adipose tissue, which is a lipid combusting tissue. In this thesis, I also stress the importance of the choice in animal model when studying lipid-modifying interventions, and describe the development of the software tool RandoMice which can be used to improve the quality of preclinical studies by creating well-balanced experimental groups. Show less
This thesis examines how both genetic and more conventional epidemiological endeavors may complement research into effects of statin therapy. These include a pharmacogenetic GWAS meta-analysis... Show moreThis thesis examines how both genetic and more conventional epidemiological endeavors may complement research into effects of statin therapy. These include a pharmacogenetic GWAS meta-analysis on statin-induced HDL-C response by the Genomic Investigation of consortium, which identified CETP as a loci of interest, and two-sample Mendelian randomization studies utilizing summary level data from the GIST and other GWAS consortia on fasted blood lipids and type 2 diabetes. We additionally examine the issue of survival bias in Mendelian randomization studies. Finally, we show that intra-individual lipid variability associates with worse neurocognitive outcomes in older individuals at high risk for vascular disease, discuss its interplay with lipid-lowering treatment, and describe the literature regarding genetic factors of possible interest. Show less
Worldwide, there is an strong rise of cardiometabolic disorders, which mainly comprise obesity, cardiovascular disease (CVD) and type 2 diabetes. Therefore, the development and improvement of... Show moreWorldwide, there is an strong rise of cardiometabolic disorders, which mainly comprise obesity, cardiovascular disease (CVD) and type 2 diabetes. Therefore, the development and improvement of preventive and curative strategies for cardiometabolic disease is eagerly warranted. With the studies describes in this thesis, we aimed to disentangle the interwoven physiological, environmental and genetic factors that determine cholesterol and energy metabolism to increase our understanding of their contribution to cardiometabolic disease risk. The first part of this thesis focussed on the cholesteryl ester transfer protein (CETP). The lipid transfer properties of CETP induce a proatherogenic lipoprotein profile. Therefore, CETP inhibitory molecules have been developed and tested in clinical trials for their capability to improve the lipoprotein profile and reduce CVD risk. To fully understand the role of CETP in CVD, its physiology and biological function should be fully unravelled. The focus of the second part of this thesis was on the role of energy metabolism in cardiometabolic health. Specifically, we aimed to study the association of environmental and genetic factors, which were previously described to influence brown adipose tissue (BAT) activity, with energy expenditure and disease outcomes. Show less
Nordestgaard, B.G.; Langsted, A.; Mora, S.; Kolovou, G.; Baum, H.; Bruckert, E.; ... ; European Federation Clinical Chem 2016
Conclusion We recommend that non-fasting blood samples be routinely used for the assessment of plasma lipid profiles. Laboratory reports should flag abnormal values on the basis of desirable... Show moreConclusion We recommend that non-fasting blood samples be routinely used for the assessment of plasma lipid profiles. Laboratory reports should flag abnormal values on the basis of desirable concentration cut-points. Non-fasting and fasting measurements should be complementary but not mutually exclusive. Show less