The immune system plays a dual role in cancer development. Besides the potential to eliminate cancer cells, immunoregulatory mechanisms exist that counteract anti-tumor immunity.Research in this... Show moreThe immune system plays a dual role in cancer development. Besides the potential to eliminate cancer cells, immunoregulatory mechanisms exist that counteract anti-tumor immunity.Research in this thesis focusses on the role of regulatory T cells (Tregs), a type of adaptive immune cell that plays a major role in tumor-associated immunosuppression. Specifically, the role of Tregs was investigated during the development of primary- and metastatic breast cancer, and in the context of novel immunotherapeutics. This was done by using advanced genetically engineered mouse models that recapitulate human breast cancer.The results in this thesis describe that breast tumors are, already early in their development, able to mobilise Tregs in the tumor-draining lymph nodes, thereby creating a local immunosuppressive niche leading to increased lymph node metastasis. In addition, it was found that the immunotherapeutic treatments anti-PD1 and anti-CTLA4 inadvertently activate Tregs, resulting in a diminished efficacy of this treatment in mice bearing breast tumors. Finally, we describe a mechanism by which intratumoral macrophages are critical promote the intratumoral accumulation of Tregs in breast tumors.Insights from this thesis may eventually contribute to the development of therapeutic applications that are aimed at overcoming immunoregulatory mechanisms in breast cancer. Show less
Tumors are complex ecosystems containing not just cancer cells, but a large variety of cell types, including immune cells. Moreover, tumors have a systemic influence: they can signal long distances... Show moreTumors are complex ecosystems containing not just cancer cells, but a large variety of cell types, including immune cells. Moreover, tumors have a systemic influence: they can signal long distances using soluble molecules and hijack non-neoplastic cells (such as immune cells) in distant organs for their own benefit, thus maximising their metastatic potential. The phenotype of immune cells in tumors and in systemic environments is therefore a key determinant of cancer progression and response to therapy.This thesis aims to understand what governs the tumor-immune ecosystem. We argue that cancer-intrinsic genetic aberrations have a dominant role in determining the tumor immune contexture, as well as systemic inflammatory activation. Understanding the intricate connection between the genetics of breast cancer and anti-tumor immune responses will help develop personalised immune intervention strategies for cancer, tailored to the genetic makeup of a patient’s tumor. Furthermore, we examine in detail the role of neutrophils in cancer-induced systemic inflammation, and how they influence the progression and spread of breast cancer. While tumors can be highly heterogeneous in nature, we show that neutrophils themselves also have a tremendous phenotypic diversity. Mapping this heterogeneity in neutrophil phenotypes may help to utilise these cells in cancer immunotherapy. Show less
We set out the get a better understanding of the role of Bone Morphogenetic Protein(BMP) signalling in normal intestine and in carcinogenesis. The BMP pathway isknown to be a major player in the... Show moreWe set out the get a better understanding of the role of Bone Morphogenetic Protein(BMP) signalling in normal intestine and in carcinogenesis. The BMP pathway isknown to be a major player in the development of colorectal cancer (CRC). CRC isone of the leading causes of cancer-related deaths in the western world. Althoughsurvival and recurrence of CRC have improved, 5-year survival is low at only 65%(https://seer.cancer.gov – US data). Improving our understanding of the molecularpathways involved in CRC will potentially allow earlier detection, better predictionand personalized therapy. To briefly summarise the research we have done, we startedby investigating the function of BMP in the normal intestine. We then went on tostudy the role of BMP signalling in carcinogenesis, mainly the role of non canonicalBMP signalling in the development of metastasis. We ended with a focus on patientsby explaining how we can improve estimation of prognosis using expression levelsof several BMP components and how targeting the BMP pathway can be used forpersonalized treatment of patients. Show less
In summary, this thesis focused on the understanding the underlying mechanisms driving TNBC metastatic progression. We established DUB activity profiling methods and identified UCHL1 as a candidate... Show moreIn summary, this thesis focused on the understanding the underlying mechanisms driving TNBC metastatic progression. We established DUB activity profiling methods and identified UCHL1 as a candidate oncoprotein that promotes TGFβ-induced breast cancer metastasis. Importantly, we found UCHL1 activity inhibitor as a potential drug for TNBC therapy and developed UCHL1 activity-based probe. For vemurafenib-resistance melanoma, we provided insights that targeting TGFβ signaling may help to overcome drug resistant phenotype. Show less
This thesis describes i) the function of an alternatively spliced coagulation factor in hemostasis, ii) the contribution of coagulation factors on cancer progression, and iii) expands our view... Show moreThis thesis describes i) the function of an alternatively spliced coagulation factor in hemostasis, ii) the contribution of coagulation factors on cancer progression, and iii) expands our view on cancer-associated thrombosis. Inhibition of Tissue Factor (TF) signaling with the antibody (Mab-10H10) resulted in decreased tumor initiating capacity and metastasis in a triple negative breast cancer (TNBC) cell line. Since this is a tumor type that is difficult to treat, and has high relapse-rates, it would be of interest to target TF signaling. Dual treatment of TNBC with conventional chemotherapy and Mab-10H10 could result in a positive treatment strategy as both highly proliferative and cancer stem cells are targeted. Furthermore, we provided a proof-of-principle study to search for novel biomarkers in patients with cancer-associated thrombosis in an unbiased manner. Up till now it is challenging to accurately predict those cancer patients with elevated risk of thrombosis. Furthermore, patients with cancer-associated thrombosis have poorer survival. Expansion of this study to validation cohorts and other tumor types will give insights in the underlying molecular mechanism of cancer-associated thrombosis. Eventually, this will aid a better prediction model to select those cancer patients with high risk of thrombosis and those who might benefit from thromboprophylaxis. Show less
This thesis describes the respective contribution of the expression of Tissue factor isoforms full length Tissue Factor (flTF) and alternatively spliced Tissue Factor (asTF) as well as Factor... Show moreThis thesis describes the respective contribution of the expression of Tissue factor isoforms full length Tissue Factor (flTF) and alternatively spliced Tissue Factor (asTF) as well as Factor VII by tumor cells to promote cancer progression. Cohorts of breast, colon, and bone cancer specimens and a multitude of in vitro and in vivo models were used to explore the mechanism behind enhanced cell proliferation and metastasis in in vitro and in vivo models, as well as decreased patient survival associated with TF and FVII expression in cancer patients. Show less
Cells receive mechanical cues from the surrounding extracellular matrix (ECM). This has a strong impact on physiology and pathology in a wide range of biological settings. Integrin receptors couple... Show moreCells receive mechanical cues from the surrounding extracellular matrix (ECM). This has a strong impact on physiology and pathology in a wide range of biological settings. Integrin receptors couple the ECM to the intracellular cytoskeleton across the cell membrane through a dynamic multiprotein adhesion complex and mediate bidirectional force transmission. In this research the mechanism of cellular mechanotransduction and its role in aspects of cancer progression are studied, focusing on integrins and other integrin associated proteins. We find that the integrin expression profile of cells regulates the orientation and dynamics of force transmission at cell-matrix adhesions. Additionally, using a novel method to quantify the abundance of a molecule in a cellular complex, we show that substrate rigidity modulates the association between traction forces and molecular composition of cell-matrix adhesions. Using cell microprinting in 3D ECM scaffolds, we determine the relation between tumor-induced remote ECM network orientation and angiogenesis. Lastly, genes that regulate cancer cell migration, force application, and adhesion dynamics are identified. Overall, the work described in this thesis unravels the role of cellular mechanotransduction in different aspects of cancer progression and reveals how the molecular composition of cell-matrix adhesions relates to traction force generation. Show less
Ewing sarcoma (ES) is a special type of bone cancer, first described by Dr. James Ewing in his paper __Diffusive endothelioma of bone__. Today Ewing sarcoma represents the second most common bone... Show moreEwing sarcoma (ES) is a special type of bone cancer, first described by Dr. James Ewing in his paper __Diffusive endothelioma of bone__. Today Ewing sarcoma represents the second most common bone cancer among adolescents and young adults. Contrary to the positive achievement in treatment of localized tumors, the long-term (5-years) survival for Ewing sarcoma patients with metastasis, however, remain below the 30% mark. In this thesis a report on experimental work aiming for a better understanding of the mechanisms underlying Ewing sarcoma metastasis is presented. Two distinct mechanisms are investigated: (1) a biochemical approach in which the initial steps in the CXCR4 signaling cascade are followed, and (2) a biophysical approach in which the guidance of Ewing sarcoma metastasis by the stiffness of their microenvironment is demonstrated. The results presented in this thesis provide deeper insights into the mechanisms controlling signaling of the chemokine receptor CXCR4 and into the role of the micro-environment in Ewing sarcoma cells behavior.Through various experimental approaches it was shown that both biochemical and biophysical guidance control how Ewing sarcoma develops into its distinct metastatic phenotype. Show less
We have developed novel fluorescence bio-imaging based automated models to screen for novel candidate targets involved in prostate cancer metastasis. Utilizing these models and adopting a... Show moreWe have developed novel fluorescence bio-imaging based automated models to screen for novel candidate targets involved in prostate cancer metastasis. Utilizing these models and adopting a functional genomics based approach; we identified SYK as a novel regulator of prostate cancer progression. We also identified functional involvement of MST1R in regulating the progression of prostate cancer. For both of these targets, there is supporting human clinical data to validate our results in prostate cancer. Show less
Despite extensive studies to unravel molecular mechanisms underlying breast cancer metastasis, still 3500 women die of the results of this disease in the Netherlands each year. Improving our... Show moreDespite extensive studies to unravel molecular mechanisms underlying breast cancer metastasis, still 3500 women die of the results of this disease in the Netherlands each year. Improving our understanding of metastasis formation remains a challenge for further drug development. The scope of this thesis is the identification of novel candidate metastasis genes, with a main focus on candidate genes affecting tumor cell migration. For that purpose, a live cell imaging-based random cell migration assay that is suitable for screening has been developed. In addition, a mouse breast cancer model that allows to study tumor cell autonomous processes of metastasis formation is described. A RNA-interference tumor cell migration screen has been done and resulted in the identification of novel regulators of tumor cell migration that show clinical relevance in a breast cancer patient cohort. In addition, focused research has been conducted on two previously identified candidate metastasis genes to determine their role in breast cancer metastasis. Show less
The aim of this thesis is to address how integrin-mediated signaling regulates cellular processes that have profound effects on cell morphology, motility, cancer metastasis, and FN fibrillogenesis,... Show moreThe aim of this thesis is to address how integrin-mediated signaling regulates cellular processes that have profound effects on cell morphology, motility, cancer metastasis, and FN fibrillogenesis, and how these findings can be utilized for relevant medical purposes or advancement of drug discovery. Show less
Vertebrates, especially mammals, have long been used as research models in the study of human diseases. During this research we have demonstrated the usefulness of a relatively new animal model,... Show moreVertebrates, especially mammals, have long been used as research models in the study of human diseases. During this research we have demonstrated the usefulness of a relatively new animal model, the zebrafish, in understanding human disease formation, progression and even treatment. We first analysed the impact that exposure to constant chronic hypoxia has in the zebrafish heart, both at the morphological and genetic levels. On chapters three and four we demonstrated the worth of the zebrafish larvae in understanding metastasis formation and progression. Whereas in chapter three we focused on the use of the zebrafish as a model to rapidly test the metastatic behaviour of human pancreatic cancer cell lines and primary human tumours; on chapter four we researched the role of retinoic acid receptor antagonist, and mir10-a, as a potential new anti-cancer therapy for pancreatic adenocarcinoma. Show less
Despite major advances in breast cancer diagnostics and treatment over the years, the disease is still a leading cause of death in women worldwide. Primary breast tumors can be treated relatively... Show moreDespite major advances in breast cancer diagnostics and treatment over the years, the disease is still a leading cause of death in women worldwide. Primary breast tumors can be treated relatively well with radiation, surgery, chemotherapy or a combination of these treatments. The occurrence of distant metastases derived from the primary tumor however, results in a considerable decrease in disease prognosis. Metastasis formation occurs through a series of distinct cell biological steps (outlined above). Understanding the molecular mechanisms that underlie each of these steps will help in the development of more successful anti-metastasis treatments. In this thesis, both in vitro and in vivo studies are described that aim at unraveling some of the processes involved in metastasis formation: signaling by components of the focal adhesions and cell migration. Show less
Tumor cell migration and invasion are essential steps in cancer metastasis. Better understanding of the molecular mechanisms and function of the individual proteins affecting this behaviour is... Show moreTumor cell migration and invasion are essential steps in cancer metastasis. Better understanding of the molecular mechanisms and function of the individual proteins affecting this behaviour is essential to define potential novel drug targets to combat cancer. In general, cells in a normal tissue environment are attached to the extra-cellular matrix (ECM) and to each others. The interactions with the ECM are mediated through integrin adhesion receptors. Matrix adhesions are the physical link between the ECM and the actin cytoskeleton and are important for survival, proliferation, differentiation and migration. These cytoplasmic structures are composed of various signaling (phosphatases and kinases) and structural proteins that form the so-called __integrin-adhesome__. The spatial and temporal regulations of these components determine the type of matrix adhesion, their behaviour and finally the fate of the cell. For instance, resting cells such as renal epithelial cells show enlarged and stable focal adhesions as well as tight cell-cell contacts. In contrast, tumor cells which are able to invade and metastasize, lose their interactions with adjacent cells and show fast, small and highly dynamic matrix adhesions. In this thesis, we set up technologies and investigated the molecular mechanisms of the matrix adhesions dynamics in relation to tumor cell behaviour both in vitro and in vivo situation. Show less
In order to form a distant metastasis, a cancer cell has to migrate out of the primary tumor, intravasate into a blood or a lymphatic vessel, subsequently survive in the absence of cell-cell and... Show moreIn order to form a distant metastasis, a cancer cell has to migrate out of the primary tumor, intravasate into a blood or a lymphatic vessel, subsequently survive in the absence of cell-cell and cell-matrix interactions, extravasate the blood or lymphatic vessel, migrate through the target organ and finally proliferate to grow out into a full metastasis. During all of these processes, specific kinases are involved in the concerted activation of distinct signaling pathways. We hypothesised that the protein tyrosine kinase FAK plays a crucial role in one or multiple of the processes involved in the formation of metastases. Therefore, the overall aim of the studies described in this thesis was to investigate the role of the non-receptor protein tyrosine kinase FAK in the distinct processes involved in tumorigenesis and metastasis and to unravel the involved downstream signaling pathways. Moreover, the potential of a combined therapy of the inhibition of FAK and exposure to the cytostatic doxorubicin was tested, as well as dissection of the intracellular events downstream of FAK. Show less
