DESCRIPTION (provided by applicant): Understanding the epigenetic basis of human familial paraganglioma. Our laboratory is interested in understanding how defects in metabolism can promote tumorigenesis. Specifically, we study familial paraganglioma (PGL), a neuroendocrine cancer, as a model that exemplifies metabolic derangement. Familial PGL displays autosomal dominant inheritance and is due to loss of both copies of genes encoding subunits of succinate dehydrogenase (SDH), a tricarboxylic acid (TCA) cycle enzyme. Loss of SDH function is particularly interesting because it exemplifies the Warburg effect of aerobic glycolysis, a mysterious feature of many cancers. To date, there is no clear explanation for how loss of SDH function leads to tumor formation in neuroendocrine cells. Furthermore, there is no preclinical model to study this cancer. The long-term goal of this proposal is to understand how loss of function of SDH induces PGL in neuroendocrine cells. This knowledge will provide new approaches to PGL prevention and treatment. Our central hypothesis is that dioxygenase inhibition by succinate accumulation causes oncogenic epigenetic effects including activation of Hypoxia Inducible Factor (HIF), accumulation of histone methylation, and depletion of 5-hydroxymethyl-deoxycytosine (5hmdC). Our strategy is to develop three models to study succinate accumulation. These include (1) human familial PGL tumor histology specimens, (2) SDHB lentiviral knockdown human tissue culture cells, and (3) a mouse SDHC-/- cell line. Aim 1 will examine the effects of SDH loss in PGL tumor specimens. Aim 2 will determine effects of SDH knockdown in tissue culture cells and if these effects can be overcome by SDH gene replacement or increasing 2-ketoglutarate levels. Finally, Aim 3 will characterize the effects of SDH loss in a mouse SDHC-/- cell line. |