Abstract
Abstract Ferroptosis is an iron-dependent form of cell death converging on lipid peroxidation, first identified by examining compounds with enhanced lethality to KRAS mutant cells. Two compounds widely used as ferroptosis inducers are erastin, which acts as an inhibitor of cystine import and thereby depletes cellular glutathione, and RSL-3, which inhibits glutathione peroxidase 4. Despite over 90% of pancreatic adenocarcinoma (PDAC) tumors harboring KRAS mutations, PDAC exhibits relative resistance to ferroptosis compared to other tumor types, and the mechanisms behind this resistance remain unclear. The pancreatic tumor environment is marked by severe hypoxia, due to poor vascularity and a dense fibrotic stroma, and so we hypothesized that hypoxia might mediate resistance to ferroptosis. Here we report that across a panel of human and murine PDAC cell lines, hypoxia induces resistance to both ferroptosis inducing agents, erastin and RSL-3. The effect of hypoxia was synergistic with exposure to pancreatic cancer tumor interstitial fluid, which induces a hypoxic-like gene expression profile even under normoxia and enhances hypoxic gene expression changes when combined with hypoxia. Our findings reveal that hypoxia-mediated resistance to ferroptosis is orchestrated by the hypoxia-inducible transcription factor HIF-2, as evidenced by its complete abolition in HIF-2 knockout cell lines, while the protective effect of hypoxia was maintained in HIF-1 knockout lines. RNA-seq analyses and chromatin immunoprecipitation studies (chIP) identified several HIF-2 target genes responsible for coordinating ferroptosis resistance mechanisms. Cysteine is a precursor for glutathione, and HIF-2 increased cystine import through upregulation of both components of the cystine-glutamate antiporter system Xc (SLC7A11 and SLC3A2) and increased cysteine biosynthesis via upregulation of transsulfuration pathway enzymes (CBS and CTH). In addition, HIF-2 upregulated Parkin, which we identify as a novel regulator of ferroptosis, thereby increasing mitophagy and decreasing reactive oxygen species. In vivo studies using human and murine PDAC xenograft models confirmed that HIF-2 knockout impaired tumor growth and increased susceptibility to the pro-ferroptotic agent sulfasalazine. Collectively, these data identify a mechanism by which PDAC evades ferroptosis and identifies a possible therapeutic strategy of combining HIF-2 inhibitors with pro-ferroptotic agents in pancreatic cancer. Citation Format: Maimon E Hubbi, Catherine Wang, Erin Hollander, Yasir Suhail, Kshitiz, Alexander Muir, Ben Z Stanger, Chi V Dang. The HIF-2 transcription factor mediates resistance to ferroptosis in pancreatic adenocarcinoma [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Advances in Pancreatic Cancer Research; 2024 Sep 15-18; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2024;84(17 Suppl_2):Abstract nr B085.
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