For many years, cancer has been described as the accumulation of germinal and somatic mutations of the genome, impairing the function of tumor suppressor genes and stimulating oncogenes. Nowadays,... Show moreFor many years, cancer has been described as the accumulation of germinal and somatic mutations of the genome, impairing the function of tumor suppressor genes and stimulating oncogenes. Nowadays, it is commonly accepted that the tumor is not only a mass of malignant cells, rather than the result of a delicate network of interactions between tumor and stromal cells. Indeed, bidirectional communications between cancer cells and the surrounding microenvironment can strongly influence tumor development and progression. Stromal cells might support tumorigenesis, either via direct cell-cell contact mechanisms with tumor cells, or by releasing specific factors, including cytokines and growth factors in the surrounding extracellular matrix (ECM), with remodeling of the tumor microenvironment (TME) as a result.The aim of this thesis is to elucidate the delicate network of interactions between different TME components and tumor cells in prostate cancer (PCa) and oropharyngeal squamous cell carcinoma (OPSCC). Show less
The aim of this thesis is to explore the glycosylation of PSA as well as to study if alterations can be observed between patients with indolent and malignant PCa. For this purpose the powerful... Show moreThe aim of this thesis is to explore the glycosylation of PSA as well as to study if alterations can be observed between patients with indolent and malignant PCa. For this purpose the powerful analytical platform CE-ESI-MS(/MS) was explored with a special focus on the analysis of glycans and glycopeptides (Chapter 1). The first section of the thesis describes the different method developments implemented for the analysis of PSA with CE-ESI-MS. Namely, Chapter 2 describes that CE-ESI-MS enables to separate glycopeptides with differently linked sialic acids without any additional sample treatment, Chapter 3 shows that an introduction of a dopant enriched nitrogen gas improves the limit of detection (sensitivity) of glycopeptides and Chapter 4 introduces a novel labeling procedure of total plasma N-glycome with the hydrazide Girard’s reagent P. Chapter 5 describes the development of a PSA Glycomics Assay which allows the capture of intact PSA from patients’ urine followed by analysis with the optimized CE-ESI-MS platform (Chapters 2 and 3). Finally, Chapter 6 offers a general discussion about future developments, the potential of PSA glycosylation in the clinical setting, showing the relevance of our results and how these may contribute to further clinical applications towards personalized medicine. Show less
Kroon, J.; in't Veld, L.S.; Buijs, J.T.; Cheung, H.; Horst, G. van der; Pluijm, G. van der 2014