A strong correlation exists between abdominal aortopathy and atherosclerosis. In thoracic aortopathy however, the prevalence of atherosclerosis and its role in the etiology of thoracic aortopathy... Show moreA strong correlation exists between abdominal aortopathy and atherosclerosis. In thoracic aortopathy however, the prevalence of atherosclerosis and its role in the etiology of thoracic aortopathy remained unknown. This thesis therefore studied the cardiovascular disease burden within this patient group. These results showed that the prevalence of atherosclerosis (i.e. cardiovascular disease burden), in contrast to abdominal aortopathy, is not increased within the thoracic aortopathy population. Show less
Acute cardiovascular syndromes, including myocardial infarction or stroke, are the principal cause of death in the Western society. The main underlying pathology of cardiovascular diseases is... Show moreAcute cardiovascular syndromes, including myocardial infarction or stroke, are the principal cause of death in the Western society. The main underlying pathology of cardiovascular diseases is atherosclerosis, which is caused by the accumulation of lipids and inflammatory cells in the vessel wall, in so-called atherosclerotic plaques. Current therapies mainly target the disturbed lipid homeostasis, but recent clinical trials have shown a clear benefit in treating patients with anti-inflammatory drugs. However, more specific targeting is required to avoid unwanted side effects. In this thesis, we have generated a detailed atlas of all the cells present in human atherosclerotic plaques using a novel state-of-the-art technique called single-cell RNA sequencing. This data set can be applied as a powerful tool to select potential drug targets with a functional relevance for atherosclerosis. We showed that the majority of the immune cells in the human atherosclerotic plaque consisted of T cells. Subsequently, we identified a pro-inflammatory population of T cells that likely responds to a plaque-derived antigen, suggesting that atherosclerosis has an autoimmune-like component. Finally, we have applied our single-cell atlas to define and validate targets to intervene with the recruitment and activation of mast cells and other immune cells in atherosclerosis. Show less
Cardiovascular diseases are still a major concern for the global health. The main underlying pathology of this disease is atherosclerosis which is characterized by the accumulation of lipids and... Show moreCardiovascular diseases are still a major concern for the global health. The main underlying pathology of this disease is atherosclerosis which is characterized by the accumulation of lipids and immune cells in the arterial wall leading to a chronic local inflammation and lesion formation. In this thesis, we aimed to (1) validate the use of zebrafish in cholesterol metabolism and atherosclerosis research, (2) study the role of certain classes of scavenger receptors in lipoprotein uptake and cholesterol-based functions, and (3) validated two immune-based potential targets for atherosclerosis. Show less
Carotid atherosclerosis, a disease in which plaque builds up inside the vessel wall, is a major cause of ischemic stroke. Traditionally, atherosclerosis risk stratification is heavily based on... Show moreCarotid atherosclerosis, a disease in which plaque builds up inside the vessel wall, is a major cause of ischemic stroke. Traditionally, atherosclerosis risk stratification is heavily based on the percentage of stenosis. However, a growing body of evidence suggests that luminal stenosis may not be the only cause of symptoms but the plaque composition may be more likely to impact the disease outcome. High-resolution vessel wall magnetic resonance imaging (VWMRI) is one of the most promising modalities for visualizing and evaluating carotid atherosclerotic plaque. The quantitative assessment of carotid atherosclerotic disease requires vessel wall segmentation and plaque classification, which is generally performed by manual delineations. However, manual contour tracing is labor-intensive, time-consuming and subject to inter-observer and inter-scan variability, which makes manual image analysis impractical for studies where large volume of data needs to be processed. Therefore, the main goal of this thesis is to: 1) develop approaches to automatically, robustly and reproducibly segment the carotid vessel wall and classify the atherosclerotic plaque from multi-spectral VWMRI; 2) validate the developed methods with reference standard; 3) extract the imaging biomarkers that can assist carotid artery disease evaluation. Show less
Overgewicht en obesitas kunnen leiden tot insulineresistentie (type 2 diabetes mellitus) en hyperlipidemie, een risicofactor voor atherosclerose (aderverkalking). Obesitas gaat ook gepaard met de... Show moreOvergewicht en obesitas kunnen leiden tot insulineresistentie (type 2 diabetes mellitus) en hyperlipidemie, een risicofactor voor atherosclerose (aderverkalking). Obesitas gaat ook gepaard met de ontwikkeling van een chronische ontsteking in vetweefsel en lever. Met dit promotieonderzoek laten we met behulp van onderzoek in muizen zien dat ontsteking een belangrijke rol speelt in het metabolisme en transport van vetten. We bekijken ook welk effect dit heeft op de ontwikkeling van atherosclerose en type 2 diabetes. In het eerste deel van dit promotieonderzoek laten we zien dat ontsteking een belangrijke rol speelt in vetmetabolisme en atherosclerose. De ontstekingsremmer aspirine zorgde voor een verlaging van de hoeveelheid vet in het bloed. Activatie van een onsteking in de lever leidde juist tot een verhoging van vet in het bloed, wat de ontwikkeling van atherosclerose in de vaatwand verergerde. In het tweede deel van dit promotieonderzoek bestuderen we het belang van het inflammasoom/caspase-1 complex (betrokken bij ontstekingsprocessen) in obesitas, insulineresistentie en vetmetabolisme. We laten zien dat muizen die een deel van dit eiwit-complex missen, beschermt zijn tegen de ontwikkeling van obesitas en insulineresistentie. Het inflammasoom/caspase-1 complex lijkt daarmee een potentieel target voor de behandeling van obesitas, insulineresistentie en type 2 diabetes. Show less
Excessive accumulation of cholesterol by macrophage-derived foam cells is one of the characteristic features of atherosclerotic lesion development. Macrophages not only play an important role in... Show moreExcessive accumulation of cholesterol by macrophage-derived foam cells is one of the characteristic features of atherosclerotic lesion development. Macrophages not only play an important role in the initiation of the early atherosclerotic lesion, during further progression of the lesions macrophages also contribute to the formation of a necrotic core, thereby affecting the stability of the atherosclerotic plaque. Especially in the initiation of atherosclerosis the balance between cholesterol influx and efflux in macrophages is of prime importance. This balance is maintained by scavenger receptors and ATP-binding cassette (ABC) transporters, which are key mediators for macrophage cholesterol homeostasis as they facilitate the influx and efflux of lipids. Macrophages are incapable of limiting the uptake of cholesterol by scavenger receptors, including scavenger receptor class A (SR-A) and CD36. Therefore, prevention of lipid accumulation in macrophages largely depends on cholesterol efflux pathways, mainly mediated by ABC transporters. Gaining more knowledge on macrophage lipid homeostasis is of prime importance for the development of new therapeutic strategies to prevent atherosclerotic lesion development or induce regression of existing lesions. The aim of the studies described in this thesis was investigation of the role of several ABC transporters and SR-BI in (macrophage) lipid metabolism and atherogenesis. Show less
Blood-flow-induced shear stress plays an important role in cardiovascular development and disease. How endothelial cells sense shear stress remains to be elucidated. We postulated that the primary... Show moreBlood-flow-induced shear stress plays an important role in cardiovascular development and disease. How endothelial cells sense shear stress remains to be elucidated. We postulated that the primary cilium is a component of the endothelial shear sensor. This luminal cell protrusion contains microtubules and is connected to the microtubular cytoskeleton. We identified cilia on endothelial cells of the embryonic heart in areas of low or oscillatory shear stress. This shear-related distribution is reminiscent of the distribution of atherosclerotic lesions in the adult arterial system, as lesions develop at sites of low or oscillating shear (athero-prone flow). Ciliated endothelial cells are exclusively present at these atherosclerotic predilection sites in adult mice. Athero-prone (oscillatory) but not athero-protective (steady or pulsatile) flow induces ciliation of cultured endothelial cells. Moreover, the endothelial shear response is dependent on the microtubular cytoskeleton and primary cilia sensitise the endothelium for shear. Taken together, these data demonstrate that primary cilia are induced by athero-prone flow and that ciliated cells are more sensitive to shear stress. We conclude that the endothelial biosensor for shear stress is the microtubular cytoskeleton and that the attached primary cilium functions as a signal amplifier in areas subjected to athero-prone flow. Show less
With the use of combinatorial phage display, solid phase peptide synthesis and a multidiscipline of molecular and cellular assays in vascular biology, the research described in this thesis has... Show moreWith the use of combinatorial phage display, solid phase peptide synthesis and a multidiscipline of molecular and cellular assays in vascular biology, the research described in this thesis has resulted in the identification of two novel peptides targeting to SR-AI and CD40 respectively which hold promise as targeted contrast agents for the diagnosis of atherosclerosis symptom. In addition, a peptide named VIVIT and its derivatives had been discovered and synthesized which constitute a more selective and less toxic drug candidate than currently used immunosuppressant cyclosporine A or FK506, leading to new generation immunosuppressants and therapeutics for autoimmune diseases such as rheumatoid arthritis or allograft transplantation and cardiovascular disorders including atherosclerosis, restenosis and cardiac hypertrophy. Show less
The main cause of cardiovascular disease (CVD) is atherosclerosis. Several genes that affect atherosclerosis development have been identified by the use of genetically modified mice (i.e.... Show moreThe main cause of cardiovascular disease (CVD) is atherosclerosis. Several genes that affect atherosclerosis development have been identified by the use of genetically modified mice (i.e. transgenic and knock-out mouse models). Many of these genes exert their role in atherosclerosis development as a result of effects on lipoprotein metabolism and inflammation. Transgenic mouse models have also been proven to be suitable for evaluating the mechanisms underlying the anti-atherosclerotic action of experimental drugs aimed to reduce atherogenic lipoprotein levels. However, thus far no suitable animal model was present to evaluate the mechanism of action of anti-atherosclerotic effect of HDL-raising therapeutic strategies. In this thesis, we further explored the role of apolipoprotein CI (apoCI) and cholesteryl ester transfer protein (CETP) in lipoprotein metabolism, inflammation, and atherosclerosis. Furthermore, we developed a mouse model that will be suitable for testing potential high-density-lipoprotein (HDL) raising therapies as a novel strategy to treat CVD. Show less
Accurate visualization and quantification of atherosclerosis in a non-invasive manner by means of MR is, nowadays, of high importance, not only regarding morphology but also composition of the... Show moreAccurate visualization and quantification of atherosclerosis in a non-invasive manner by means of MR is, nowadays, of high importance, not only regarding morphology but also composition of the atherosclerotic plaques. MR has proven to be capable of detecting early, subclinical vulnerable plaque. However, when the analysis of atherosclerosis is based on visual interpretation of the images or manually delineated structures, the outcome is often not reliable. The main objective of this thesis was to investigate novel image processing techniques to automatically quantify markers of the severity of atherosclerosis in a reproducible manner, by automatically outlining the boundaries of the blood vessel wall, lumen and plaque burden. Different algorithms have been developed and applied to different vascular beds (aorta and carotid arteries) proving to be versatile and powerful tools, that provide quantitative reproducible parameters. These new techniques have been validated in limited populations, proving to be accurate and reproducible. They are, therefore, suitable to be further adapted and to be employed in the clinical vascular research. This assists the physician in making a diagnosis and identifying high-risk patients, who may benefit from treatment. Show less
The presence of calcium deposits in the vessel wall is indicative of advanced atherosclerosis, and the extent of coronary calcification has been found to add prognostic significance to conventional... Show moreThe presence of calcium deposits in the vessel wall is indicative of advanced atherosclerosis, and the extent of coronary calcification has been found to add prognostic significance to conventional risk factors of coronary artery disease. However, the mechanisms underlying vascular calcification are still obscure. The major objective of the work described in the first part of this thesis was to elucidate the mechanisms involved in atherosclerotic calcification. To study the process of VSMC calcification we developed and characterized an in vitro model of neonatal rat VSMC calcification. To investigate whether pharmacotherapy may affect vascular calcifications, we have studied the effect of a calcium antagonist (amlodipine) and a statin (atorvastatin) and their combination on this process. Inflammation is an important mechanism in the atherosclerotic process, and prospective and cross-sectional clinical and epidemiological studies have shown that CRP is consistently associated with CVD. The causality of CRP in atherosclerosis is discussed. To enable the study of the effect of CRP on atherosclerosis development in vivo, ApoE*3-Leiden/hCRP transgenic mice were generated and studied. The effects of a calcium antagonist (amlodipine), administered either alone or in combination with a statin (atorvastatin), on early atherosclerosis development in ApoE*3-Leiden/hCRP was investigated. Show less