This thesis is about the role of stromal cells in inflammatory bowel disease (IBD) and to assess the therapeutic potential of local mesenchymal stromal cell (MSC)-therapy. First, we discuss the... Show moreThis thesis is about the role of stromal cells in inflammatory bowel disease (IBD) and to assess the therapeutic potential of local mesenchymal stromal cell (MSC)-therapy. First, we discuss the recent insights in the function of stromal cells in the healthy and inflamed gut and characterize fibroblasts in perianal fistulas from patients with IBD. Furthermore, we study the long-term effects of MSC-therapy for the treatment of perianal fistulas and the efficacy of locally injected MSCs in the inflamed intestines of in vivo IBD models. Lastly, we investigate the cytokine environment of inflamed tissue from IBD patients and how this could affect local MSC-therapy. Show less
Replicative ageing of fibroblasts has often been used as a model for organismal ageing. The general assumption that the ageing process is mirrored by cellular senescence in vitro is based on lower... Show moreReplicative ageing of fibroblasts has often been used as a model for organismal ageing. The general assumption that the ageing process is mirrored by cellular senescence in vitro is based on lower replicative capacity of human fibroblasts from donors of higher chronological age, but these inverse relations have not been reported unequivocally. The relation between chronological age and fibroblast growth characteristics was assessed in nonagenarian subjects of the Leiden 85+ Study. A high remaining replicative capacity impressively showed that even in the very elderly a crucial number of cells with high mitotic capacity are left to give rise to fibroblast strains with the capacity for more than 100 population doublings. During the course of fibroblast growth in vitro, beta-galactosidase activity has been shown to be a reliable biomarker for replicative senescence. In myoblast cultures the relation between mixed cultures and clonal cultures was studied, showing marked heterogeneity between clonal cultures that all had a significantly lower replicative capacity when compared to mixed cultures, indicating heterogeneity of cells within one tissue compartment in their in vivo history. In a formal review on the replicative capacity of fibroblasts from patients suffering from accelerated ageing syndromes, age related diseases and donor age it was found that except for premature ageing syndromes, the replicative capacity of fibroblasts in vitro does not mirror key characteristics of human life histories. Show less
Injection of (stem) cells into the damaged heart has a positive effect on cardiac function. In this thesis two strategies for improving myocardial regeneration over classical cell therapy were... Show moreInjection of (stem) cells into the damaged heart has a positive effect on cardiac function. In this thesis two strategies for improving myocardial regeneration over classical cell therapy were investigated. The first is to induce cardiomyogenic differentiation by genetically engineering cells to express the transcription factor myocardin (a regulator of cardiomyocyte differentiation). We found that overexpression of myocardin induces a large part of the cardiac muscle gene expression program in various non-muscle cells. Forced expression of myocardin enables cardiac infarction scar fibroblasts to conduct a cardiac action potential, and injection of myocardin-transduced MSCs resulted in greater preservation of cardiac function and reduced detrimental remodeling compared to untreated MSCs in a mouse model of myocardial infarction. Indicating that overexpression of myocardin endows cells with several beneficial properties of cardiomyocytes. We hypothesized that myocardial regeneration might be enhanced by including novel cell types with supportive functions in cell therapy strategies. We found that the mesothelial cells of the human epicardium, like embryonic epicardium-derived cells (EPDCs) can form fibroblasts and smooth muscle cells. Indicating that EPDCs from human adults recapitulate at least part of the differentiation potential of their embryonic counterparts, which form various essential supportive cell types during heart development. Show less