The work included in this thesis is aimed at developing novel tools to advance our understanding of prostate cancer. The clinical problem of prostate cancer is presented and discussed in the wider... Show moreThe work included in this thesis is aimed at developing novel tools to advance our understanding of prostate cancer. The clinical problem of prostate cancer is presented and discussed in the wider context of the current clinical knowledge, highlighting the genetic mechanisms at its base. A dedicated chapter focuses on bone metastases, highly morbid feature of advanced prostate cancer, discussing the known mechanisms and the available models to study it in translational research. Then, moving from the molecular analysis of clinical specimens of bone metastasis, a biochemical pathway is identified and further studied in vitro, ex vivo and in vivo, validating the initial findings. A novel, early-stage prostate cancer patient-derived xenograft is presented and extensively characterized and implemented in a drug screening. This allowed to screen the effect of over 70 known drugs on prostate cancer models, using three-dimensional cultures and a semi-automated platform. As all research builds on previously established findings, a bibliometric analysis tool is presented, to assist in the generation of a knowledge network arranged by topic and impact of research. All these aspects and findings are then discussed in the context of the current direction of prostate cancer research, its emerging tools and its long-known challenges. Show less
Once prostate cancer has spread to the skeleton, patients cannot be cured from their disease. Identification of the cell(s) of origin of prostate cancer as well as the neoplastic cell(s) involved... Show moreOnce prostate cancer has spread to the skeleton, patients cannot be cured from their disease. Identification of the cell(s) of origin of prostate cancer as well as the neoplastic cell(s) involved in the formation of distant metastases is, therefore, fundamental to understanding of carcinogenesis and metastasis. The functional identification of metastasis-initiating cells is a prerequisite for properly targeted therapy of metastatic disease in advanced prostate cancer. In chapter 2 of this thesis, the possible use of aldehyde dehydrogenase (ALDH) as marker for the identification and isolation of tumor-initiating and metastasis-initiating cells in prostate cancer is studied. In chapter 3, the functional role of a single ALDH isoform (ALDH7A1) in metastatic prostate cancer is investigated by knockdown studies in vitro and in vivo. In chapter 4, the functional involvement of _v integrins in the formation of a metastatic stem/progenitor prostate cancer phenotype is studied. Subsequently, in chapter 5, the targeting of integrins by a novel non-peptide integrin antagonist is evaluated in vitro and in preclinical models of prostate cancer progression and metastasis. Finally, general conclusions and discussions are described in chapter 6. Show less
Hoogen, C. van den; Horst, G. van der; Cheung, H.; Buijs, J.T.; Pelger, R.C.M.; Pluijm, G. van der 2011
The skeleton is one of the most common organs to be affected by metastatic disease. However, only a restricted number of solid cancers, especially those of the breast and prostate, are responsible... Show moreThe skeleton is one of the most common organs to be affected by metastatic disease. However, only a restricted number of solid cancers, especially those of the breast and prostate, are responsible for the majority of the bone metastases. Bone metastases are a major cause of morbidity, characterized by severe pain and high incidence of fractures, spinal cord compression and bone marrow aplasia requiring hospitalization. Despite the high frequency of skeletal metastases, the molecular mechanisms underlying the predisposition for tumors to colonize bone are poorly understood and treatment options are often unsatisfactory. The focus of this thesis was to better understand the processes that contribute to the formation of distant metastasis (chapter 2), particularly to bone (chapter 4__7), as well as to explore new treatment strategies with conventional (chapter 4 and 5) and novel therapeutic molecules (chapter 6 and 7) using optical imaging to sensitively monitor growth, dissemination and metastasis in mouse models (chapter 3__7). Show less