Sepsis is a life-threatening condition caused by a dysregulated host response to infection, it is associated with significant morbidity, mortality, and with a high financial burden on global... Show moreSepsis is a life-threatening condition caused by a dysregulated host response to infection, it is associated with significant morbidity, mortality, and with a high financial burden on global healthcare systems. Bacterial infections are the primary cause of sepsis, but the growing prevalence of antimicrobial resistance complicates the effectiveness of antimicrobial treatments. Moreover, limited understanding of the host immune response during sepsis hinders the discovery of valuable biomarkers and drug targets. As such, there is an urgent need to improve the treatment of sepsis. To tackle this challenge, we have concentrated our efforts on optimizing current treatment strategies and on facilitating the discovery of novel host inflammatory response directed therapeutics. In this thesis, we have utilized quantitative pharmacological modeling approaches to assess the adequacy of current dose regimens and to evaluate antibiotic pharmacokinetic variability, thereby optimizing antimicrobial therapies for sepsis. Additionally, our researches had aimed to deepen our understanding of the underlying dynamics of sepsis pathology, enabling the identification of promising biomarkers and therapeutic targets for sepsis. Our work demonstrated how quantitative modeling strategies can support the design of optimized treatment strategies, and how systematic model-based integration of disease mechanisms can help to overcome the translational challenges in sepsis drug development. Show less
Lipid signaling is an essential biological event/process in a plethora of pathophysiological conditions. The underlying idea of this thesis is that many of the roles and the complex interplay of... Show moreLipid signaling is an essential biological event/process in a plethora of pathophysiological conditions. The underlying idea of this thesis is that many of the roles and the complex interplay of the individual signaling lipids in inflammatory processes and related conditions in health and disease is not well known, and therefore has to be studied integrally as a complex network. In order to study this complex interplay, an improved broad analytical method is necessary to analyze a wide range of different signaling lipid classes such as oxylipins, (nitro) free fatty acids, endocannabinoids, bile acids and different subclasses of lysophospholipids. Therefore, the aim of this thesis is to develop a better method to study signaling lipids, and to apply it to study the role of these molecules in several relevant biological questions for a better understanding of inflammation related pathophysiology including autoimmune diseases, neurodegeneration and regulatory effect of exercise training. Show less
To increase clinical success rate of drugs, a better understanding of drug action mechanism and disease dynamics is required. Metabolomics, which studies small molecules involved in biochemical... Show moreTo increase clinical success rate of drugs, a better understanding of drug action mechanism and disease dynamics is required. Metabolomics, which studies small molecules involved in biochemical processes in organisms, has shown to be a useful tool for this better understanding. In this thesis, we focus on the endocannabinoid system (ECS) and profiling its related metabolic pathways using liquid chromatography - mass spectrometry (LC-MS) based metabolomics techniques. The endocannabinoid system (ECS) is a signaling system involved in multiple physiological and pathological processes. Due to its wide distribution and complex network of metabolic interactions, the development of drugs targeting the ECS has seen high failure rates. To get a better understanding of the behavior of the ECS and related pathways, LC-MS platforms with wide coverage of the major ECS-related metabolites, or with high sensitivity that reaches low levels of metabolites, were developed and optimized. Furthermore, these metabolomics platforms were applied in clinical studies looking into cardiometabolic health, and revealed correlations between endogenous metabolite signaling, cardiometabolic health and the benefits of exercise. Show less
Acute cardiovascular clinical events such as myocardial infarction and cerebral stroke represent the major cause of death in Western societies. These pathologies are primarily resulting from... Show moreAcute cardiovascular clinical events such as myocardial infarction and cerebral stroke represent the major cause of death in Western societies. These pathologies are primarily resulting from atherosclerosis, a progressive condition characterized by the accumulation of lipids, immune cells, and fibrous elements in large arteries. The pathogenesis of atherosclerosis involves complex interactions between a wide variety of cells, including monocytes, macrophages, neutrophils, and lymphocytes. It is essential to identify novel targets for therapeutic application in order to reduce the residual atherosclerotic cardiovascular disease risk in current and future patients. Recent studies have suggested that members of the protein arginine methyltransferase (PRMT) family can potentially serve as novel therapeutic targets for atherosclerosis because of their regulatory role in inflammation and metabolism. To validate the contribution of PRMTs in the progression of atherosclerosis, in the studies presented in this thesis we have investigated the effect of inhibition of PRMT functionality on atherosclerosis susceptibility in established atherosclerotic mouse models.To address the role of PRMTs in atherosclerosis, we therefore made use of specific PRMT inhibitors, i.e. TC-E 5003 for PRMT1 inhibition, TP-064 for PRMT4 inhibition, and GSK3326595 for PRMT5 inhibition, that thus far have primarily been applied in vivo in the context of cancer treatment. Show less
The external tissues of plants and animals are colonized by microbial communities termed microbiota. When organisms are exposed to environmental pollutants, these substances will therefore... Show moreThe external tissues of plants and animals are colonized by microbial communities termed microbiota. When organisms are exposed to environmental pollutants, these substances will therefore encounter microbiota at the exposure interface. Many antimicrobial substances have been found to disturb beneficial interactions between microbiota and the host, thereby impairing host health. Nanomaterials exhibit nanoscale properties that could affect host health in two additional, understudied, microbiota-dependent ways. Firstly, owing to their large surface area, adsorption interactions between nanomaterials, microbial metabolites and microbes could alter the identity and colloidal stability of nanomaterials, and may influence the dispersal of microbes. Secondly, the immuno-modulatory effects of microbiota could affect the sensitivity of hosts to immunotoxic nanomaterials. In this dissertation, we use a combination of computational techniques and zebrafish larvae experiments to unravel and quantify these interactions. We predict the affinity of microbial metabolites to carbon and metal nanomaterials, and show that titanium dioxide nanoparticles can affect the dispersal of microbes through aquatic ecosystems, and across different life stages of oviparous animals. Additionally, we provide insight into microbiota-dependent signaling pathways that affect the sensitivity of zebrafish larvae to particle-specific, immunotoxic effects of silver nanoparticles. Altogether, these results contribute to mechanistic pathways for microbiota-inclusive nanomaterial safety assessment. Show less
Depression shows a large heterogeneity of symptoms between and within persons over time. However, most outcome studies have assessed depression as a single underlying latent construct, using the... Show moreDepression shows a large heterogeneity of symptoms between and within persons over time. However, most outcome studies have assessed depression as a single underlying latent construct, using the sum score on psychometric scales as a total indicator for depression severity. The present dissertation aimed to expand our knowledge of depression by researching its symptom-specific longitudinal characteristics, its predictive factors, and methods for predicting depression and anxiety while taking individual symptoms into account. We demonstrated that individual depressive symptoms are not synchronized over time within patients and in groups of patients. We found that individual symptoms of depression are associated to different risk factors, as preceding chronicity, neuroticism, and inflammation were related to individual symptoms with vastly different magnitudes. Taken these findings together we have demonstrated that depressive disorder can not be characterized as an unified syndrome. Addressing depression at the syndrome level may obscure insights into both patient and symptom-specific characteristics. Our findings strengthen the idea that employing a symptom-focused approach in both clinical care and research is of value. With this dissertation, we hope to have contributed to the development of alternative ways to define and study depression and its symptoms. Show less
The vascular system delivers oxygen and nutrients through the entire body. In addition, it enables distribution of hormones and immune cells. A proper functioning vascular system is important in... Show moreThe vascular system delivers oxygen and nutrients through the entire body. In addition, it enables distribution of hormones and immune cells. A proper functioning vascular system is important in preventing cardiovascular disease (CVD). In recent years, several risk factors, e.g. smoking and obesity, have been described. Also genetic variants have been shown to influence vascular function and thereby the risk on developing CVD.In this thesis the role of Neuroimmune Guidance Cues (NGCs) in the development of atherosclerosis, one of the main causes of CVD is investigated. The development of atherosclerosis is characterized by the deposition of fatty acids and immune cells in the vessel wall. With several experiments we have shown that NGCs play an important role in the vessel wall and regulate atherosclerosis-related processes. We show that PLXNA4 regulates endothelial permeability, while the Eph receptor B2 regulates migration of monocytes through the vessel. In addition, we have shown that genetic variants in Eph receptor B4, EphrinB2 and Netrin-1 can modulate atherosclerosis-related processes and thereby could influence the development of CVD.The results shown here give us new insights in the function of the vascular system and provide novel targets to treat and/or prevent CVD. Show less
Herniation of the lumbar disc can cause severe pain radiating down the leg alongside a dermatome. This pain can be caused by compression of the nerve root, but recent evidence has indicated that a... Show moreHerniation of the lumbar disc can cause severe pain radiating down the leg alongside a dermatome. This pain can be caused by compression of the nerve root, but recent evidence has indicated that a local inflammation response may also play a role. This thesis focuses on how macrophages that infiltrate the herniated disc in patients with lumbar disc herniation, influence pain and recovery after discectomy. Our data shows that for most patients, if macrophages are present, they benefit the process of healing by leading to a quicker resorption of the herniated material which results in faster recovery. However, for patients with Modic changes, which indicates a degenerated endplate (structure between disc and vertebrae), the presence of macrophages is less beneficial, for they recover more slowly after surgery. The reason for this discrepency seems to be an altered differentiation profile in macrophages. Macrophages differentiate into different types with different behaviours: the M2 macrophages are known for its anti-inflammatory properties and tissue resorption. Our study found M2 macrophages in lower numbers in patients with degenerated endplates, which can explain their slower recovery. Together the data indicates that macrophage differentiation profiles in lumbar herniated discs are promising treatment targets. Show less
As HLA Class I expression is an important target for cytotoxic T cells but an in inhibitor of NKcells, we were interested in the regulation of its expression.We review HLA expression in UM, how it... Show moreAs HLA Class I expression is an important target for cytotoxic T cells but an in inhibitor of NKcells, we were interested in the regulation of its expression.We review HLA expression in UM, how it is involved in the inflammatory phenotype, how it is regulated and how putative treatments might be effective in its expression.We investigate the potential role of the NFkB pathway in the regulation of inflammation in UM and its potential association with HLA Class I expression.In order to increase our understanding for the reason behind the elevated HLA Class I expression in UM tumours, we investigate the involvement of epigenetics. We focus on a set of epigenetic enzymes called histone deacetylases and report that these regulators are highly expressed in Monosomy 3 UM.We wonder whether HDAC expression is influenced by the presence of infiltrating lymphocytes and macrophages.We focus on miRNA’s as another set of epigenetic regulators of inflammation. We investigate the potential relation of a set of 125 miRNA’s with HLA Class I expression and the presence of an infiltrate in UM and report two patterns of miRNA expression.We study the LAG3 immune checkpoint in UM tumours. As immune checkpoints might be responsible for the T cell exhaustion which is observed in UM, we investigate the involvement of LAG in prognostication and study how LAG3 and its ligands are distributed among different UM tumours. Show less
Hart- en vaatziekten zijn wereldwijd de belangrijkste doodsoorzaak, waarvan het grootste deel kan worden toegeschreven aan coronairlijden. De belangrijkste veroorzaker hiervan is atherosclerose... Show moreHart- en vaatziekten zijn wereldwijd de belangrijkste doodsoorzaak, waarvan het grootste deel kan worden toegeschreven aan coronairlijden. De belangrijkste veroorzaker hiervan is atherosclerose ofwel aderverkalking, wat een op zichzelf staande complexe lipide-gedreven chronische inflammatoire ontstekingsziekte is. Na een hartinfarct is tijdige reperfusie door een acute dotterbehandeling het belangrijkste doel om verdere schade aan de hartspier te beperken. Echter, het herstel van de coronaire perfusie zelf induceert myocardiale reperfusieschade. Gedurende vele jaren heeft translationeel onderzoek zicht gericht op immunomodulatie van deze post-ischemische inflammatierespons. Dit proefschrift omvat pre-klinisch onderzoek waarin gunstige modulatie van de post-ischemische inflammatierespons door farmacologische interventies met annexine A5 en phosphorylcholine antilichamen wordt aangetoond. Remming van bijvoorbeeld cytokine IL-6 en afweercellen als monocyten, macrofagen en leukocyten, resulteert na een hartinfarct in minder schade aan de hartspier met een verbetering van de resterende hartfunctie. Daarnaast werd onderzocht hoe een pre-klinisch experimenteel onderzoeksmodel kan worden geoptimaliseerd door rekening te houden met zowel ischemie-reperfusie schade als hypercholesterolemie, een belangrijke risicofactor voor hart- en vaatziekten. Door gebruik te maken van klinisch relevantere onderzoeksmodellen kunnen in de toekomst hopelijk meer veelbelovende pre-klinische onderzoeksresultaten succesvol worden vertaald naar de dagelijkse klinische praktijk. Ter introductie worden deze onderzoeksresultaten voorafgegaan door een state-of-the-art review waarin een overzicht wordt gegeven van alle fases die deze post-ischemische inflammatierespons omvat. Hierbij worden de meest toonaangevende onderzoeksresultaten betreffende modulatie van deze inflammatierespons beschreven. Na recente succesvolle grote klinische trials, zal in de toekomst een belangrijke rol zijn weggelegd voor modulatie van deze afweerreactie bij zowel atherosclerose als na een hartinfarct. Show less
Vitamin D plays an active role in the modulation of innate and adaptive immune responses as well as in the protection against respiratory pathogens, e.g. by increasing expression of the... Show moreVitamin D plays an active role in the modulation of innate and adaptive immune responses as well as in the protection against respiratory pathogens, e.g. by increasing expression of the antimicrobial peptide hCAP18/LL-37. The main aim of this thesis was to elucidate the role of inflammation on the protective effects of vitamin D on respiratory host defense responses in chronic inflammatory lung diseases such as chronic obstructive pulmonary disease (COPD). Airway epithelial host defense responses in COPD patients are defective and these patients are therefore more susceptible to respiratory infections. In this thesis we have shown that exposure to cigarette smoke, a main risk factor for COPD, reduced expression of certain host defense mediators by affecting end-stage airway epithelial differentiation and might explains why COPD patients are more susceptible to respiratory infections. We have further demonstrated in the studies presented in this thesis that certain airway inflammatory mediators could possibly interfere with vitamin D metabolism by promoting expression of vitamin D degrading enzyme CYP24A1, thereby reducing local levels of vitamin D and accompanying protective antimicrobial and anti-inflammatory actions. These new insights may yield possible new strategies to target CYP24A1 that enhance local levels and signaling of vitamin D to increase protection against exacerbations in COPD patients. Show less
Cardiometabolic diseases including atherosclerotic cardiovascular disease (CVD) and non-alcoholic fatty liver disease (NAFLD) are the leading cause of preventable death worldwide.... Show moreCardiometabolic diseases including atherosclerotic cardiovascular disease (CVD) and non-alcoholic fatty liver disease (NAFLD) are the leading cause of preventable death worldwide. Hypercholesterolemia and inflammation are common major risk factors for atherosclerotic CVD as well as NAFLD. The studies described in this thesis aimed to get insight in strategies how to further improve cholesterol metabolism and inflammation, by exploring the therapeutic potential of brown fat activation and transcription factors involved in both processes. The results described in this thesis have increased our insight into regulation of cholesterol metabolism and inflammation by brown fat and nuclear receptors, respectively, and provided promising leads for innovative treatment of cardiometabolic diseases including brown fat activation, Δ24-dehydrocholesterol reductase inhibition, and farnesoid X receptor activation. Show less
Pulmonary hypertension (PH) is a condition of increased blood pressure within the arteries of the lung (mPAP > 20mmHg) which affects approximately 1% of the global population. Chronic... Show morePulmonary hypertension (PH) is a condition of increased blood pressure within the arteries of the lung (mPAP > 20mmHg) which affects approximately 1% of the global population. Chronic thromboembolic pulmonary hypertension (CTEPH), group 4 PH, is characterized by unresolved pulmonary emboli and pulmonary vascular remodeling of both occluded and non-occluded vessels. The general aim of this thesis was to improve the understanding of CTEPH pathophysiology by focusing on patient endothelial cell (EC) behaviour and function. For this purpose, we isolated ECs from vascular material collected at pulmonary endarterectomy in patients with CTEPH (referred to as CTEPH-EC) and validated them as an in vitro model for studying endothelial pathology in CTEPH. In conclusion, we identified several abnormalities in CTEPH-EC that could play a role in pathological mechanisms driving CTEPH-specific vascular changes. We described alterations in key processes such as angiogenesis and migration, oxidative stress, metabolism and inflammation. Each of these processes may represent targets for novel therapies or biomarkers. Show less
In this thesis we have pursued innovative analytical solutions for some of the most challenging questions in the field of SpA. We have gained better insights into the concept of axSpA by studying... Show moreIn this thesis we have pursued innovative analytical solutions for some of the most challenging questions in the field of SpA. We have gained better insights into the concept of axSpA by studying it independently of the rheumatologist’s opinion. Our findings likely add knowledge to what axSpA really is. Future studies will learn us how much of these insights will translate into a better recognition of the disease in clinical practice and in better classifying them for research purposes. Since SpA is a slowly progressing disease, several years are needed to see meaningful changes in imaging abnormalities of the axial skeleton, which poses methodological challenges. We have shown that thoughtful analytical approaches, that make best use of imaging data, are helpful in better estimating progression, in unravelling its determinants and in clarify which outcomes are best to monitor disease. Efforts are made to further improve outcome measurement in axSpA, including the development of new imaging techniques, which can benefit from our proposed solutions to long-term imaging scoring. Show less
During my PhD we have investigated different approaches to block intraplaque angiogenesis in atherosclerosis. Intraplaque angiogenesis is a physiological response to the increased oxygen demand in... Show moreDuring my PhD we have investigated different approaches to block intraplaque angiogenesis in atherosclerosis. Intraplaque angiogenesis is a physiological response to the increased oxygen demand in the plaque but also has adverse effects by facilitating intraplaque hemorrhage and influx of inflammatory mediators, resulting in plaque instability and consequent rupture. To study this phenomenon we used in vitro assays as well as the accelerated atherosclerosis vein graft model in ApoE3*Leiden mice, a unique model in which the formed plaque shows characteristics that highly resemble human atherosclerotic lesions, including intraplaque angiogenesis and hemorrhage and a high inflammatory cell content. We focused on different approaches to restore plaque stability via improving intraplaque oxygen levels as well as via blocking different growth factors signaling. Moreover we studied the effects of our treatments on the interaction between angiogenesis and inflammation both in vitro and in vivo. Show less
This thesis focuses on the role of chemokine receptors CXCR3 and CCR2 in the inflammatory process and infection control using the zebrafish model. It describes the regulatory interplay between an... Show moreThis thesis focuses on the role of chemokine receptors CXCR3 and CCR2 in the inflammatory process and infection control using the zebrafish model. It describes the regulatory interplay between an atypical and a conventional chemokine receptor during chemotaxis in macrophages, the role of chemotactic signaling in cell polarization and explores an in vivo screening workflow for human anti-inflammatory drugs using zebrafish. Show less
Despite the available treatment options and sophisticated imaging technologies for monitoring lesion development, the morbidity and mortality from acute cardiovascular events remain unacceptably... Show moreDespite the available treatment options and sophisticated imaging technologies for monitoring lesion development, the morbidity and mortality from acute cardiovascular events remain unacceptably high.While cholesterol-lowering, anti-inflammatory and anti-platelet therapies benefits can increase survival as a primary or secondary prevention, they are not sufficient for plaque rupture prevention. Moreover, the most advance imaging technologies to detect high-risk atherosclerotic patients fail to visualize and explore cellular events in small preclinical models. Therefore, there is a clear need for the development of new therapies and the application of high-resolution imaging modalities.In the current thesis, we evaluated new possibilities to inhibit and image intraplaque angiogenesis. Show less
Cells, their fragments and secreted factors may all be transported to distant sites via the blood circulatory system and exert their action far away from the site of origin. Identification of these... Show moreCells, their fragments and secreted factors may all be transported to distant sites via the blood circulatory system and exert their action far away from the site of origin. Identification of these mediating factors and unraveling of the pathogenesis resulting in organ damage will contribute to our general understanding and may ultimately result in new treatment strategies. The studies included in this thesis focus on mechanisms of coagulopathy and other blood abnormalities in patients with cancer or inflammation. Show less
The focus of this thesis is (oxy)lipid analysis. An introductory overview is given of lipids, lipidomics, and lipid mediators in inflammation; and in subsequent chapters the focus is on... Show moreThe focus of this thesis is (oxy)lipid analysis. An introductory overview is given of lipids, lipidomics, and lipid mediators in inflammation; and in subsequent chapters the focus is on development of lipidomic methods for the analysis of oxidized lipids. This touches on different extraction methods of the (target) analytes, sample handling/preparation and storage, separation techniques, and finally the MS detection/resolution/ specificity etc. These methods are then utilized, mainly on human plasma and synovial fluid (SF) samples. Special focus is on the targeted analysis of hydroxylated fatty acids (hFAs), specialized pro-resolving mediators (SPMs) and their intermediates, and other oxylipids present in inflammation and its resolution in rheumatic diseases. For example, the bioactivity of oxylipids and LMs is highly stereospecific, and some difficulties have arisen in the chromatographic separation and resolution of these stereoisomers using classical reversed phase liquid chromatography tandem MS (RPLC-MS/MS), perhaps sometimes resulting in wrong conclusions being drawn, one isomer being confused with another. The work in this thesis was therefore focused on further development and application of analysis platforms for oxidized lipids; their identification, separation and levels in different matrices. All of which, work that can be further used in inflammatory or rheumatoid research. Show less
Cardiovascular disease is a major global burden and atherosclerosis is the main underlying pathological process. Despite better management of cholesterol levels, there remains a significant... Show moreCardiovascular disease is a major global burden and atherosclerosis is the main underlying pathological process. Despite better management of cholesterol levels, there remains a significant residual risk of developing atherosclerosis and cardiovascular events. Hence, novel pathways and targets should be identified to optimize atherosclerosis therapy. Despite dyslipidemia, the immune system is also heavily involved in the pathophysiology of atherosclerosis. Protective immune responses in the acute setting of increased cholesterol levels eventually turn into debilitating responses when the immune system is chronically stimulated. Hence, we aimed to identify new therapeutic targets to dampen the immune response in atherosclerosis. More specifically, we focused our efforts on modulating the B lymphocyte response, for which there was a scarcity of data. In this thesis we describe novel ways to modulate the B cell response in atherosclerosis. We have found that there are specific B cell subsets that have different effects on the progress of atherosclerosis. For instance, removal of TIM-1+ B cells resulted in increased atherosclerosis, while removal of BTLA+ follicular B cells reduced atherosclerosis. In conclusion, this thesis provides promising immunological targets for the treatment of atherosclerosis. Show less