Background To date, there is neither any pharmacological treatment with efficacy in traumatic brain injury (TBI) nor any method to halt the disease progress. This is due to an incomplete... Show moreBackground To date, there is neither any pharmacological treatment with efficacy in traumatic brain injury (TBI) nor any method to halt the disease progress. This is due to an incomplete understanding of the vast complexity of the biological cascades and failure to appreciate the diversity of secondary injury mechanisms in TBI. In recent years, techniques for high-throughput characterization and quantification of biological molecules that include genomics, proteomics, and metabolomics have evolved and referred to as omics. Methods In this narrative review, we highlight how omics technology can be applied to potentiate diagnostics and prognostication as well as to advance our understanding of injury mechanisms in TBI. Results The omics platforms provide possibilities to study function, dynamics, and alterations of molecular pathways of normal and TBI disease states. Through advanced bioinformatics, large datasets of molecular information from small biological samples can be analyzed in detail and provide valuable knowledge of pathophysiological mechanisms, to include in prognostic modeling when connected to clinically relevant data. In such a complex disease as TBI, omics enables broad categories of studies from gene compositions associated with susceptibility to secondary injury or poor outcome, to potential alterations in metabolites following TBI. Conclusion The field of omics in TBI research is rapidly evolving. The recent data and novel methods reviewed herein may form the basis for improved precision medicine approaches, development of pharmacological approaches, and individualization of therapeutic efforts by implementing mathematical "big data" predictive modeling in the near future. Show less
Numerous studies have contributed to our current understanding of autoimmune diseases (AIDs), however, pathogenesis of many AIDs can still not be fully explained. Both genetic factors and... Show moreNumerous studies have contributed to our current understanding of autoimmune diseases (AIDs), however, pathogenesis of many AIDs can still not be fully explained. Both genetic factors and environmental factors are involved in the onset of autoimmunity. Which mechanisms explain the contribution of these genetic and environmental factors to disease pathogenesis, and how the different factors interplay remain unanswered key questions. The studies presented in this thesis aimed at identifying and unravelling some of the enigmatic mechanisms in rheumatoid arthritis (RA) and systemic sclerosis (SSc). Show less
A large part of the human genome consists of repetitive DNA. In this thesis two human diseases have been studied in which deregulation of repetitive DNA is a central feature: facioscapulohumeral... Show moreA large part of the human genome consists of repetitive DNA. In this thesis two human diseases have been studied in which deregulation of repetitive DNA is a central feature: facioscapulohumeral muscular dystrophy (FSHD) and immunodeficiency, centromere instability and facial anomalies (ICF) syndrome. FSHD is caused by the misexression of the transcription factor DUX4 in skeletal muscle. DUX4 is encoded in the D4Z4 repeat array and is silenced in healthy somatic tissues. In this thesis, several aspects of the epigenetic deregulation of DUX4 in FSHD are described. We have analysed possible correlations between disease severity and epigenetic organization of the D4Z4 repeat. Next we showed that cellular ageing results in deregulation of genomic regions like D4Z4. Moreover, we show that SMCHD1 is the main epigenetic repressor of DUX4 in somatic cells. We next showed that DUX4 misexpression results in the activation of an FSHD candidate gene, FRG2. Finally, we report the generation of a transgenic mouse model for FSHD. The disease mechanism of ICF syndrome remains to be elucidated. However, in this thesis we identify two new ICF disease genes. We highlight a role for all four known ICF genes in repressing repetitive DNA, suggesting functional convergence of these genes. Show less
The ultimate goal of translational colon and rectal cancer research is to turn these types of cancer into curable or manageable chronic diseases. The approach to achieve this is to enable... Show moreThe ultimate goal of translational colon and rectal cancer research is to turn these types of cancer into curable or manageable chronic diseases. The approach to achieve this is to enable clinicians to make (adjuvant) treatment decisions, based on the individual patient characteristics and individual characteristics of a patient__s tumor. Identification of new prognostic and predictive biomarkers, based on the biology of individual tumor characteristics, is therefore warranted to further refine the current TNM classification. This thesis describes the use of molecular techniques for the identification of prognostic biomarkers for clinical outcome in (sporadic) colon and rectal cancer. We here present compelling candidate biomarker combinations for validation in further studies. Retrospective and prospective validation of these prognostic biomarker combinations in international and independent patient series is therefore the crucial next step. Additionally, the presented studies stress the importance of -1- combining biomarkers based on tumor biology, -2- integrative analysis of cancer hallmark related processes at all different cellular regulatory levels (genetics, epigenetics and protein level), -3- assessment of tissue specificity between colon and rectal tumors, and -4- studying age-related effects in future colorectal cancer research. Show less
Uveal melanoma (UM) is the most common malignancy of the eye in adults and it is the second most common form of melanoma after cutaneous melanoma (CM). The identification of patients who have a... Show moreUveal melanoma (UM) is the most common malignancy of the eye in adults and it is the second most common form of melanoma after cutaneous melanoma (CM). The identification of patients who have a high risk of developing metastases would allow the possibility of providing adjuvant therapies to prevent metastases. The application of FISH on transvitreal fine-needle aspiration biopsies is thought to be a reliable method for assaying genetic parameters such as chromosome 3 loss. However, this is based on the assumption that this chromosomal abnormality is distributed homogeneously throughout the tumor. We show that UM can be heterogeneous for the number of copies of chromosome 3 and investigated whether any evidence can be found for heterogeneity in the regulation of tumor-suppressor genes (TSG). Recently, a segregation study identified a potential locus harboring a TSG. One of the genes in this area, RASEF, was analyzed whether the RASEF gene was affected by mutations or gene silencing due to promoter methylation. The MAPK pathway is involved in the balance between melanocyte proliferation and differentiation. Whereas mutant B-RAF and N-RAS are responsible for the activation of the MAPK pathway in most CM, mutations in these genes are usually absent in UM. Nowadays, an assay with increased potential to identify mutations is available and we set out to reanalyze UM cell lines and primary UM for B-RAF mutations. We set out to explore the MAPK pathway by using MAPK profiling and tyrosine kinase arrays. Finally, conclusions drawn from above mentioned studies are summarized and put into perspective. Show less
This thesis examines the impact of genetic and epigenetic factors on several aspects of vascular disease. Part 1 addresses the influence of genetic variation in genes involved in the different... Show moreThis thesis examines the impact of genetic and epigenetic factors on several aspects of vascular disease. Part 1 addresses the influence of genetic variation in genes involved in the different processes that lead to the occurrence of adverse events after percutaneous coronary intervention, mainly restenosis after bare metal stent placement, but also late acquired stent malapposition after implantation of a drug-eluting stent. Part 2 discusses the role of a relatively new area of research, which we refer to as 'epigenetic epidemiology', in restenosis and other aspects of coronary heart disease. In this part we show that polymorphisms in genes encoding lysine acetyltransferases, which are able to modify chromatin structure to allow gene transcription, can influence restenosis and mortality from coronary heart disease in several large prospective follow-up studies. Show less
The general objective of this thesis was to investigate associations between genetic variants involved in inflammation and epigenetics and age-related diseases in an elderly cohort to get more... Show moreThe general objective of this thesis was to investigate associations between genetic variants involved in inflammation and epigenetics and age-related diseases in an elderly cohort to get more insights in the patho-physiological mechanisms involved in age-related diseases, like cardiovascular disease, cognitive decline and cancer. For all analyses we used data of the participants of the PROspective Study of Pravastatin in the Elderly at Risk (PROSPER). We have shown that subjects carrying genetic variants coding for a high pro-inflammatory profile or a low anti-inflammatory profile have an increased risk to develop cardiovascular disease and cognitive decline. Moreover, they tend to have an increased risk of dying as a consequence of cancer. Furthermore we have provided first evidence that the process of epigenetics can play an important role in the patho-physiology of age-related diseases. Future research is necessary to investigate how we can corporate these results into clinical practice. For example, Anti-inflammatory and immunosuppressive mechanisms may be attractive targets for disease prevention and/or treatment. Show less