Signaling and Metabolic Control in the Drosophila Eye
University Of California Los Angeles, Los Angeles CA
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Abstract
Project Summary/Abstract Mitochondrial dysfunction and changes in cellular metabolism trigger several clinical conditions including cancer. It is critically important to understand the molecular mechanisms underlying the control of mitochondrial biogenesis and function, and metabolism in general, during normal development and oncogenic transformation. The remarkable conservation in molecular strategy controlling basic cellular processes allows the exploitation of powerful genetic tools developed in the Drosophila eye to study the control of mitochondria and metabolism. The proposed work intends to determine the mechanism by which developmental pathways in the eye primordium regulate mitochondrial structure and function. Also proposed is a study to better understand the mechanism by which a metabolic shift from oxidative phosphorylation to glycolysis takes place when an oncogene is activated. The proposal has three specific aims. In AIM1, the mechanism of control of mitochondria by Lozenge and its mammalian homolog, the oncogene Runx-1 (Acute myeloid leukemia-1/AML-1) will be explored in the context of the growth promoting Yorkie/Scalloped pathway and the steroid hormone receptor, EcR (Ecdysone receptor). In AIM 2, the role of mitochondrial Complex I and two metabolic enzymes that also function as oncogenes, Sdh and Idh, will be studied in the context of oxidative stress response. In AIM 3, the oncogenic influence on cellular metabolism and the molecular mechanism that causes a metabolic shift towards glycolysis will be investigated.
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