Major achievements in the field of immune oncology have demonstrated the ability of the immune system to induce a response against cancer. The prognostic impact of pre-existing immunity in several... Show moreMajor achievements in the field of immune oncology have demonstrated the ability of the immune system to induce a response against cancer. The prognostic impact of pre-existing immunity in several cancer types, including breast and colon cancer, demonstrates the influence of the immune system on disease progression. At the same time, immunotherapeutic approaches that aim to enhance antitumor immune reactions have significantly improved the clinical outcome for a subset of patients. However, a large proportion of patients (60-80%) do not respond to immunotherapeutic treatments. To extend the benefit of immunotherapeutic strategies to a larger number of patients, it is imperative to understand the mechanisms associated with immune responsiveness. Different variables have been described to influence the development of antitumor immunity in cancer patients, including the tumor’s genetic program, the genetic makeup of the patients, and environmental factors such as the microbiome. These factors likely act in concert to modulate antitumor immune responses. This thesis aimed to dissect the molecular determinants of cancer immune responsiveness in human tumors. A systems biology approach was used to define underlying factors that shape the tumor microenvironment and reveal potential mechanisms of immune escape. Show less
Leprosy is a multifactorial chronic disease caused by Mycobacterium leprae or Mycobacterium lepromatosis that affects the skin and nerves. More than 200.000 new cases are diagnosed per year; thus,... Show moreLeprosy is a multifactorial chronic disease caused by Mycobacterium leprae or Mycobacterium lepromatosis that affects the skin and nerves. More than 200.000 new cases are diagnosed per year; thus, transmission is still ongoing. The most likely way of transmission is the respiratory route form human-to-human; however, transmission is still not clearly understood. Early diagnosis of leprosy is crucial to reduce and avoid transmission as well as leprosy-associated disabilities, which are also a cause of stigma. Currently, diagnosis is performed based on clinical signs and symptoms and late- or mis-diagnosis are not uncommon.In this thesis, we combined the study of pathogen transmission with host transcriptomic and genomic biomarkers. To explore M. leprae transmission a One Health approach was followed, where human, animal and environmental samples were studied.The combination of demographic characteristics, pathogen detection, genetic and/or transcriptomic biomarkers can be applied in a multifactorial leprosy signature applicable for early diagnosis of leprosy and/or to guide intervention strategies. Identification of predictive biomarkers will in due course lead to prompt treatment, preventing leprosy-associated irreversible disabilities as well as reducing M. leprae transmission. Show less
Autosomal Dominant Polycystic Kidney Disease (ADPKD) progression involves a complex interaction of different molecular pathways, ultimately leading to cyst growth and loss of kidney function. The... Show moreAutosomal Dominant Polycystic Kidney Disease (ADPKD) progression involves a complex interaction of different molecular pathways, ultimately leading to cyst growth and loss of kidney function. The exact mechanism behind cyst formation is still not clearly understood. Moreover, we know some of the molecular pathways involved in cyst initiation and progression, but we do not know at which stage of the disease they play a role. In this thesis, we investigated the molecular pathways involved in renal injury-repair mechanisms and ADPKD. According to the currently available literature, injury-repair and ADPKD are two extremely intertwined mechanisms, which not only are characterised by activation of similar molecular pathways but are also able to influence each other. In fact, injury is able to accelerate cyst formation and progression, and cyst growth can cause injury to the surrounding tissue. Thus, the introduction of injury in the context of ADPKD can help to characterize the steps of disease progression, particularly in the early phases of cyst initiation, and direct future research to new possible therapeutic targets. Show less
In dit proefschrift worden de moleculaire mechanismen behandeld die onderliggend zijn aan artrose. Specifiek wordt genoomwijd onderzocht welke genen anders tot expressie komen in aangedaan... Show moreIn dit proefschrift worden de moleculaire mechanismen behandeld die onderliggend zijn aan artrose. Specifiek wordt genoomwijd onderzocht welke genen anders tot expressie komen in aangedaan vergeleken met gezond kraakbeen van artrose patienten. Dit in de context van epigenetische regulatie van gen expressie, specifiek door DNA methylatie in het licht van de lokale genetische context in de vorm van puntmutaties. Show less
This thesis provides insights into the mechanisms of renal I/R injury based on human kidney transplantation (i.e. the status of delayed graft function: DGF). A severe energetic crisis... Show moreThis thesis provides insights into the mechanisms of renal I/R injury based on human kidney transplantation (i.e. the status of delayed graft function: DGF). A severe energetic crisis differentiates DGF kidneys from adequately functioning controls. Although intact beta-oxidation, aerobic glycolysis and glutaminolysis provide Krebs Cycle intermediates, these intermediates are not able to enter the mitochondrial Krebs cycle. Hence, dysfunctional mitochondria disable efficient ATP production leading to the metabolic incompetence that causes DGF and underlies renal I/R injury. This finding sheds a whole new light on I/R injury and explains why ATP-dependent therapeutics are ineffective as treatment for I/R injury. A major difference in the vulnerability of mitochondria to ischemia and reperfusion between rodents and humans was found. This could explain the current differences in effectiveness of therapies in the experimental versus the clinical setting. Big cohort studies give insights in donor, recipient and transplant-procedure variables and challenge the reluctance towards the use of DCD donor kidneys. New preventive strategies could limit I/R injury by preserving mitochondria (hypothetically with peptide SS-31 or activation of mitochondrial aldehyde dehydrogenase). This will overcome the detrimental effects of I/R injury on graft function and survival - thereby increasing the success rate of kidney transplantation. Show less
In chapter 2, the pancreas was used as a paradigm to study human organ development and assess the quality of our fetal material. In a descriptive, histochemical study, we investigated how blood... Show moreIn chapter 2, the pancreas was used as a paradigm to study human organ development and assess the quality of our fetal material. In a descriptive, histochemical study, we investigated how blood and lymphatic vascular networks develop and their association with basement membranes and smooth muscle cells between gestational weeks 9 and 22 (W9 and W22). In Chapter 3, 4 and 5, we analyzed a total of 21 fetal organs and maternal endometrium at three time points (W9, W18 and W22) at the transcriptional and epigenetic level, thereby, providing an atlas of human organ development. The rare fetal material also allowed us to investigate the presence of an epigenetic memory from the cell of origin in induced pluripotent stem cells (iPSCs). We generated isogenic iPSC lines from six fetal organs (brain, skin, kidney, muscle, lung and pancreas) in chapter 5. The six iPSC lines had very similar DNA methylation profiles, however, we showed that the two clones derived from the brain harbored 18 hypermethylated and 6 hypomethylated CpGs also found in the fetal brain and we demonstrated that the brain-iPSC clones appeared to have a differentiation bias towards neural derivatives when comparing neural differentiation of the brain- and skin-iPSC clones. Show less
