Cardiovascular disease (CVD) is the collective term for diseases that involve the heart or circulation and CVDs are a major cause of mortality and morbidity worldwide. The aim of thesis was to... Show moreCardiovascular disease (CVD) is the collective term for diseases that involve the heart or circulation and CVDs are a major cause of mortality and morbidity worldwide. The aim of thesis was to investigate the role of inflammation in CVD related cardiac and vascular remodelling, which may lead to potential therapeutic agents. We investigated the therapeutic potential of antibodies directed against phosphorylcholine (PC), an endogenous ligand capable of triggering the innate immune system, which is expressed by apoptotic cells and oxidized LDL, in mouse models for myocardial infarction (MI). We found that treatment with anti-PC antibodies reduces adverse cardiac remodelling after both permanent MI as myocardial ischemia reperfusion (MI-R) injury. Furthermore, we found that treatment with annexin A5 also reduces adverse cardiac remodelling after MI-R injury. Interestingly, both anti-PC as annexin A5 treatment reduced the post MI inflammatory response. Next, we investigated the role of PCAF, an inflammatory related epigenetic factor, in vascular remodelling. We found that PCAF deficiency and treatment with a PCAF inhibitor reduces adverse vascular remodelling. Finally, we investigated the role of microRNAs, small RNA molecules that can affect expression of many different gene simultaneously, in vascular remodelling. We show that inhibition of microRNA-495 reduces adverse vascular remodelling. Show less
Cardiovascular diseases remain the major cause of death throughout the world and can be primarily attributed to atherosclerotic vascular disease leading to stroke and coronary heart disease (CHD).... Show moreCardiovascular diseases remain the major cause of death throughout the world and can be primarily attributed to atherosclerotic vascular disease leading to stroke and coronary heart disease (CHD). Improved primary prevention and the introduction and subsequent optimization of percutaneous coronary interventions (PCI) for myocardial ischemia due to obstructive CHD have significantly improved patient outcome and reduced morbidity and mortality. The insight into disease pathology has however expanded tremendously over the past decade and continuing research has shifted the focus of interest towards post-interventional accelerated atherosclerosis development due to a dysfunctional (auto) immune inflammatory response, responsible for vascular remodeling, re-occlusion and recurrence of symptoms. The aim of this thesis therefore was to investigate the role of the immune system in this pathophysiological process that ultimately results in post-interventional atherosclerotic vascular remodeling and apply this insight for the development of new immune-modulatory therapies in a preclinical setting. Show less
