Pathophysiology and Treatment of Fanconi's Anemia
Oregon Health & Science University, Portland OR
Investigators
Linked publications & trials
Abstract
Fanconi's Anemia (FA) is a genetic disorder manifesting with typical congenital malformations, childhood onset progressive bone marrow failure and increased cancer risk. 13 genes responsible for FA have been cloned and together constitute the FA/BRCA pathway which functions to maintain genome stability and to ensure stem cell survival. This Program Project will use a multidisciplinary approach to dissecting the molecular pathophysiology of FA and to use this knowledge to enhance therapy for FA, especially small molecule intervention. The clinical disciplines represented by the investigators include pediatrics, medical genetics, hematology and oncology. The scientific areas of expertise include stem cell biology, DNA repair, molecular hematology, zebra fish genetics, mouse genetics, cytogenetics, gene therapy and drug discovery. Core A will use cell-based assays to screen for novel compounds and genes that positively impact the phenotypes of FA cells. New drugs discovered by screening and others derived from insights into pathophysiology will be systematically evaluated in all 3 projects. Project 1 uses zebrafish models of FA, projects 2 and 3 use FA knockout mice as well as pluripotent stem cells from human FA patients. These IPS cells generated by direct reprogramming will be provided by Core C. Cytogenetic abnormalities are a key feature of FA and Core B will provide support in this area. In addition to drug screening the projects will study genetic interactions of the FA/BRCA pathway, work on the non-canonical roles of FA proteins and explore gene repair as a novel approach for gene therapy in the disease.
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