Atherosclerosis, restenosis and cardiac remodeling after myocardial infarction can cause serious clinical problems that greatly contribute to both high morbidity and mortality. In all these... Show moreAtherosclerosis, restenosis and cardiac remodeling after myocardial infarction can cause serious clinical problems that greatly contribute to both high morbidity and mortality. In all these processes, the inflammatory responses caused by activation of the immune system play a very prominent role. This thesis elaborates on the role of specific components of the immune system and the therapeutic possibilities that lay hidden therein. This was done by focussing on the pathophysiological process in which Damage Associated Molecular Patterns (DAMPs) are released upon cell stress and cell death or other tissue damage, and may play an important role via different mechanisms. The data in this thesis illustrates specific involvement of DAMPs recognizing factors such as Toll-like Receptors in vascular remodeling and the therapeutic potential that lies within these findings. We show that endogenous activation of the immune s ystem plays an important role in the post-interventional vascular remodeling process. Multiple DAMPs such as HMGB1 are absent before intervention however they were found highly up regulated locally in the vessel wall after intervention indicating a specific relation with the intervention procedure. The presence and involvement of a variety of Toll Like Receptors in different models of vascular remodeling is interesting since these receptors are considered to be important recognizers of the DAMPs locally found in the vessel wall. Different intracellular signalling pathways and TLR accessory molecules seem to mediate the outcome of the specific DAMP-TLR interactions on vascular remodeling majorly. Protective effects of TLR3 and different outcomes of RP105 deficiency on vascular remodeling processes indicate the complexity of the underlying pathophysiological processes. These results can be partly explained by downstream TLR signalling and involvement of specific cell subtypes. The exploration of these underlying mechanisms offers new opportunities for biomarker selection and therapy development. Show less
Vein graft surgery to treat occlusive arterial disease is a common applied procedure. Each year more than two million vein graft surgeries are performed worldwide. The major drawback of vein... Show moreVein graft surgery to treat occlusive arterial disease is a common applied procedure. Each year more than two million vein graft surgeries are performed worldwide. The major drawback of vein grafting is that within 10 years after vein graft surgery 50-60 % of the vein grafts suffer from patency loss due to thrombosis, intimal hyperplasia formation, accelerated atherosclerosis and rupture. Endogenous factors orchestrate the development and failure of vein grafts. Investigating the role of endogenous constituents on vein graft remodeling can enhance our basic knowledge of the involvement of these factors in vein graft remodeling. By interfering in the function of endogenous factors, as we showed in this thesis, vein graft remodeling can be negatively or positively influenced depending on the factor and strategy used. New therapeutic strategies can be developed based on this knowledge. In this thesis we investigate the role of innate immune components, complement system factors, toll like receptors, mast cells and NK cells and the role of Annexin A5 in vein graft remodeling. Furthermore we explored the role of plaque stability, plaque neovascularization and extracellular matrix remodeling in a hypercholersterolemic mouse vein graft model. Show less
The aim of this thesis was to gain more insight in the involvement of inflammatory processes in vessel wall remodeling seen after PTA or bypass surgery and put these processes in the perspective of... Show moreThe aim of this thesis was to gain more insight in the involvement of inflammatory processes in vessel wall remodeling seen after PTA or bypass surgery and put these processes in the perspective of restenosis, vein graft failure and potential therapeutic preventive strategies. Therefore, we firstly focused on inflammation in general, using the anti-inflammatory agent Dexamethasone, assessing the effects of such a broad approach on restenosis and vein graft remodeling. Then, we further focused on some specific parts of the immune system, namely Interleukin 10 (IL10), chemokines and the complement cascade. Il10 was chosen because it is one of the most studied anti-inflammatory cytokines and this property makes it a potential candidate for ant-restenosis therapy. Furthermore, it was hypothesized that chemokines are involved in vascular remodeling, since they are generally known for their regulatory properties regarding influx of inflammatory cells to tissues and this is one of the first phenomena seen in vascular remodeling. The complement cascade was studied in this context since it contains pro-inflammatory activity and some end-products of the cascade, like chemokines, are potent chemotactic agents. Show less
