Atherosclerosis is one of the primary causes of cardiovascular disease; the number one cause of death in the western society. Atherosclerotic plaque formation is a dynamic multi-cellular process... Show moreAtherosclerosis is one of the primary causes of cardiovascular disease; the number one cause of death in the western society. Atherosclerotic plaque formation is a dynamic multi-cellular process where regulation of different genes essentially determines the activity of the different cell types involved. Gene expression is regulated, amongst others, by epigenetic processes. Epigenetic mechanisms change the accessibility of the DNA sequence and is thought to form a link between environmental factors and gene expression. Epigenetics may therefor play an important role in atherosclerosis pathology. The research described in this thesis evaluated the role of epigenetic regulation on various aspects of atherosclerosis pathology. It was found that the epigenetic H3K27Me3-mark was reduced in later stages of the disease. Monocytes differentiating into dendritic cells and macrophages (an important process in atherosclerosis pathology) showed higher transcription of the epigenetic regulatory gene KMT1c. Specifically blocking this gene resulted in reduction of DC-SIGN (a dendritic cell specific molecule) expression. By specifically blocking other epigenetic proteins, CCR5 (a molecule important to monocyte migration) was re-expressed on cells which did not express CCR5. This shows that epigenetic regulation is an important process in atherosclerosis pathology and might prove to be novel pharmacological target for treatment of atherosclerosis. Show less
Activation of microglia, the macrophages of the central nervous system, is a key element in multiple sclerosis (MS) lesion development and is characterized by enhanced expression of both classes of... Show moreActivation of microglia, the macrophages of the central nervous system, is a key element in multiple sclerosis (MS) lesion development and is characterized by enhanced expression of both classes of major histocompatibility complex (MHC) molecules. This enhanced expression results from increased levels of several transcription factors involved in MHC gene expression. In addition, microglial activation in MS is characterized by enhanced motility. We show that the expression of the chemokine receptor CCR5, a mediator of cell movement, is increased on microglia, macrophages and astrocytes in MS lesions. Additionally, we have determined that CCR5 transcription is regulated by the transcription factor CREB-1, which is also involved in MHC gene expression, and is highly expressed in MS lesions. Because of their immunomodulatory properties, statins (cholesterol lowering drugs) are recently being considered as a possible treatment for MS. We have determined that statins decrease expression of amongst others MHC and CCR5 molecules by inhibiting the transport of these molecules to the cell surface. In addition, we show that statins reduce the motility of microglia and inhibit the differentiation of blood-derived monocytes into dendritic cells, indicating that statins indeed affect critical immune functions and might prove to be beneficial for treatment of MS patients. Show less