AIG laboratory members successful at the FWO
Tuesday, June 26, 2012 at 2:54PM This week we received exciting news that the Autoimmune Genetics laboratory had three successful candidates at the FWO, the premier fellowship program in Belgium.
Dr Stephanie Humblet-Baron won an FWO Post-doctoral Fellowship award to research a new genetic disease caused by a loss of dendritic cells:
In the immune system, dendritic cells (DCs) are a subset of white blood cells that are specialized to activate lymphocytes when a pathogen is present In the absence of DCs, activation of lymphocytes and clearance of infections is impaired. A new genetic disease has recently been identified where patients have no DCs, and surprisingly not only do they have poor clearance of infections, but they also have a large expansion of myeloid cells in their blood. For this project we have created a mouse model of this disease, which we will use to try to understand the biology of the myeloid expansion and to test potential therapeutics.
Dr Susan Schlenner won a Pegasus Post-doctoral Fellowship award to move to the laboratory from Harvard. Here she will use novel genetic approaches to understand the biology of regulatory T cells.
Regulatory T cells are an important subset of white blood cells that have the ability to prevent the immune system from attacking components of the body (“autoimmunity”) and from attacking harmless environmental components (“allergy”). In order to exert this function the regulatory T cells need to be educated as to which components are safe and should be protected from immune attack. The location where this occurs is highly controversial as previously there have not been the correct tools to do functional tests. This project aims to generate a sophisticated set of genetically-altered mouse strains to allow measurement of where regulatory T cells are educated, and then to use these mice in models of autoimmunity and allergy. Having more knowledge about the education process of regulatory T cells may allow the future development of therapeutic interventions in those patients where regulatory T cells fail to prevent autoimmunity or allergy.
Dr Lien Van Eyck won an FWO PhD Fellowship, to move from the clinic to the laboratory to study auto-inflammatory diseases.
Blau Syndrome (BS) and Early Onset Sarcoidosis (EOS) are rare monogenic auto-inflammatory diseases characterized by a clinical triad of granulomatous arthritis, uveitis and rash. Extended manifestations with potentially high morbidity have been reported recently. The pathologic hallmark of BS/EOS is the presence of multinucleated giant cell and epithelioid cell granulomas in affected tissues. Both diseases are associated with gain-of-function mutations in the NOD2 gene. NOD2 is a specialised intracellular protein that plays a critical role in the regulation of the host innate immune response through recognising conserved microbial molecular signatures, thus leading to the induction of pro-inflammatory and anti-microbial responses as well as apoptosis. While the genetic basis of BS/EOS has been characterized, the molecular mechanisms by which NOD2 mutations drive granuloma formation and the development of sarcoidosis remain unclear. A better understanding of these mechanisms is of direct relevance for the development of targeted immunotherapies. The present project aims to determine the mechanisms by which NOD2 gain-of-function mutations lead to immunopathology in BS/EOS by developing a murine model with a gain-of-function mutation in NOD2. This model will allow for a full characterization of the immunopathology of NOD2 associated inflammation, and for the unravelling of molecular and cellular mechanisms involved in disease pathogenesis.
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