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Decreasing oxygen metabolism to redcue hypoxia and radiosensitize tumors.

$316,438R01FY2016CANIH

Ohio State University, Columbus OH

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Abstract

DESCRIPTION (provided by applicant): Tumor hypoxia has been recognized as a hindrance to successful radiation therapy for over 50 years. Attempts to overcome this obstacle by delivering more oxygen to the tumor, however, have been clinically disappointing, largely due to the functional limitations of the tumor vasculature. Instead of reducing hypoxia by increased delivery of oxygen, this application proposes to limit hypoxia by reducing oxygen consumption within the tumor. If the supply of oxygen delivered to the tumor is constant, then transient reduction in demand will increase overall functional oxygenation. Commonly prescribed anti-diabetic biguanidedrugs (metformin, phenformin) have been shown to reduce mitochondrial function in vitro at least in part through inhibition of electron transport chain (ETC) complex 1. We propose to test the hypothesis that pharmacologic downregulation of mitochondrial metabolism will reduce cellular demand for oxygen and result in decreased tumor hypoxia and specific radiosensitization of model tumors. This approach will be especially effective when using hypofractionated radiation protocols where oxygen enhancement can have a profound effect on overall tumor cell killing. We have organized this proposal into the following four specific aims. 1) Determine the role of tumor suppressor LKB1 in mediating the effect of biguanides on mitochondrial metabolism. 2) Establish the relative importance of glucose versus glutamine as a mitochondrial fuel in regulating mitochondrial response to intervention with biguanides. 3) Quantitate the biochemical effect of biguanides on mitochondrial function, tumor hypoxia, and glucose consumption in vivo. And 4) Establish the optimal level of radiosensitization in both subcutaneous and orthotopic model tumors treated with biguanides and radiation. It is important to note that because normal tissue is typically well oxygenated, thi systemic approach will specifically radiosensitize tumors, without causing enhanced normal tissue toxicity.

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Decreasing oxygen metabolism to redcue hypoxia and radiosensitize tumors. · GrantIndex