Abstract

Abstract Aidan Moriarty Mentor: Dr. Min Yu Hypoxic Memory in Breast Cancer Cells Metastasis is the main cause of tumor-related mortality in breast cancer patients. Improving our understanding of the metastatic cascade is imperative to improve patient outcomes. Prior research indicates cancer cells with increased metastatic potential have acquired adaptive properties induced by factors in the tumor microenvironment (TME), including hypoxia. However, previous hypoxia research has been primarily focused on signaling changes that occur when cancer cells are in the hypoxic TME and does not account for long-term changes that may occur once cancer cells re-enter normoxia, such as when they metastasize. Our research in patient-derived circulating tumor cell (CTCs) lines and breast cancer cell lines has indicated that certain transcriptional changes are maintained after cells leave hypoxia, and that these post-hypoxic CTCs maintain a higher metastatic potential compared to cells not exposed to hypoxia. Taking an un-biased approach to define changes in hypoxia-exposed breast cancer cells upon reoxygenation, we performed bulk RNA-Seq on luminal breast cancer cell lines in various oxygen conditions over time. We found that a subset of genes that were differentially expressed in hypoxic conditions were maintained as up- or down-regulated after cells were reoxygenated, indicating a “hypoxic memory”. Additionally, a subset of genes were differentially expressed in the post-hypoxic cells compared to normoxia controls, demonstrating novel and prolonged gene expression changes induced by hypoxia exposure. We performed functional assays and observed that this post-hypoxic state is associated with a more aggressive phenotype in vitro. Current research in our lab is on-going to understand the epigenetic changes that may be responsible for this hypoxic memory to further understand the consequences of hypoxic memory in CTC biology and metastasis. Finally, we have designed a dual-reporter hypoxia-tracing system to validate our findings in vivo. This research will improve our understanding of the prolonged influence of hypoxia on metastatic potential in breast cancer cells and has the potential to inform future therapeutic strategies. Citation Format: Aidan Moriarty, Oihana Iriondo, Desirae Mecenas, Yilin Li, Yonatan Amzaleg, Remi Klotz, Min Yu. Prolonged Effects of Hypoxia in Luminal Breast Cancer Cells Promotes an Aggressive Phenotype [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PO2-24-09.

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