Abstract

Abstract The low survival rate for high-grade serous ovarian cancer (HGSOC) motivates novel approaches to identify causative and therapeutically targetable factors involved in HGSOC initiation and progression. Cancer cells are known to sequester iron, which can potentiate cancer progression via mechanisms that have not yet been completely elucidated. In order to uncover novel, and potentially therapeutically tractable links, between iron and HGSOC, we developed an algorithm to identify perturbed regulatory pathways containing differentially expressed iron-related genes in microarray data from clinical sources and an experimental model of HGSOC. Used in tandem with over-representation analysis for iron-related genes, the algorithm led us to uncover an iron dependence of fatty acid import and synthesis pathways, which are upregulated in HGSOC and other cancers, and to develop a network synthesizing the relationship between iron, fatty acid metabolism, and HGSOC. We use the network to derive specific hypotheses of mechanisms by which iron impacts fatty acid metabolic pathways to promote tumorigenesis. We have thus shown that a systems-level approach to identifying novel regulatory links between iron and HGSOC has yielded a previously unappreciated association between iron and fatty acid metabolism that may be exploited for therapeutic potential. This work has been supported in part by NIH grants F32CA214030 to AK, R01CA188025 to SVT, and RO1CA171101 to FMT. Citation Format: Anna Konstorum, Miranda L. Lynch, Suzy V. Torti, Frank M. Torti, Reinhard C. Laubenbacher. A systems-level approach identifies novel links between iron and fatty acid metabolism in high-grade serous ovarian cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1322.

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