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Supplementary Figure from Ontogeny and Vulnerabilities of Drug-Tolerant Persisters in HER2+ Breast Cancer

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posted on 2023-04-04, 00:03 authored by Chewei Anderson Chang, Jayu Jen, Shaowen Jiang, Azin Sayad, Arvind Singh Mer, Kevin R. Brown, Allison M.L. Nixon, Avantika Dhabaria, Kwan Ho Tang, David Venet, Christos Sotiriou, Jiehui Deng, Kwok-kin Wong, Sylvia Adams, Peter Meyn, Adriana Heguy, Jane A. Skok, Aristotelis Tsirigos, Beatrix Ueberheide, Jason Moffat, Abhyudai Singh, Benjamin Haibe-Kains, Alireza Khodadadi-Jamayran, Benjamin G. Neel
Supplementary Figure from Ontogeny and Vulnerabilities of Drug-Tolerant Persisters in HER2+ Breast Cancer

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Cancer Center Support Grant

National Cancer Institute

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ARTICLE ABSTRACT

Resistance to targeted therapies is an important clinical problem in HER2-positive (HER2+) breast cancer. “Drug-tolerant persisters” (DTP), a subpopulation of cancer cells that survive via reversible, nongenetic mechanisms, are implicated in resistance to tyrosine kinase inhibitors (TKI) in other malignancies, but DTPs following HER2 TKI exposure have not been well characterized. We found that HER2 TKIs evoke DTPs with a luminal-like or a mesenchymal-like transcriptome. Lentiviral barcoding/single-cell RNA sequencing reveals that HER2+ breast cancer cells cycle stochastically through a “pre-DTP” state, characterized by a G0-like expression signature and enriched for diapause and/or senescence genes. Trajectory analysis/cell sorting shows that pre-DTPs preferentially yield DTPs upon HER2 TKI exposure. Cells with similar transcriptomes are present in HER2+ breast tumors and are associated with poor TKI response. Finally, biochemical experiments indicate that luminal-like DTPs survive via estrogen receptor–dependent induction of SGK3, leading to rewiring of the PI3K/AKT/mTORC1 pathway to enable AKT-independent mTORC1 activation. DTPs are implicated in resistance to anticancer therapies, but their ontogeny and vulnerabilities remain unclear. We find that HER2 TKI-DTPs emerge from stochastically arising primed cells (“pre-DTPs”) that engage either of two distinct transcriptional programs upon TKI exposure. Our results provide new insights into DTP ontogeny and potential therapeutic vulnerabilities.This article is highlighted in the In This Issue feature, p. 873

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