ZMYND8 protects breast cancer stem cells against oxidative stress and ferroptosis through activation of NRF2
Maowu Luo, … , Yingfei Wang, Weibo Luo
Maowu Luo, … , Yingfei Wang, Weibo Luo
Published January 23, 2024
Citation Information: J Clin Invest. 2024;134(6):e171166. https://doi.org/10.1172/JCI171166.
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Research Article

ZMYND8 protects breast cancer stem cells against oxidative stress and ferroptosis through activation of NRF2

Abstract

Breast cancer stem cells (BCSCs) mitigate oxidative stress to maintain their viability and plasticity. However, the regulatory mechanism of oxidative stress in BCSCs remains unclear. We recently found that the histone reader ZMYND8 was upregulated in BCSCs. Here, we showed that ZMYND8 reduced ROS and iron to inhibit ferroptosis in aldehyde dehydrogenase–high (ALDHhi) BCSCs, leading to BCSC expansion and tumor initiation in mice. The underlying mechanism involved a two-fold posttranslational regulation of nuclear factor erythroid 2–related factor 2 (NRF2). ZMYND8 increased stability of NRF2 protein through KEAP1 silencing. On the other hand, ZMYND8 interacted with and recruited NRF2 to the promoters of antioxidant genes to enhance gene transcription in mammospheres. NRF2 phenocopied ZMYND8 to enhance BCSC stemness and tumor initiation by inhibiting ROS and ferroptosis. Loss of NRF2 counteracted ZMYND8’s effects on antioxidant genes and ROS in mammospheres. Interestingly, ZMYND8 expression was directly controlled by NRF2 in mammospheres. Collectively, these findings uncover a positive feedback loop that amplifies the antioxidant defense mechanism sustaining BCSC survival and stemness.

Authors

Maowu Luo, Lei Bao, Yuanyuan Xue, Ming Zhu, Ashwani Kumar, Chao Xing, Jennifer E. Wang, Yingfei Wang, Weibo Luo

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Figure 7

ZMYND8 recruits NRF2 to the promoters of antioxidant genes.

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ZMYND8 recruits NRF2 to the promoters of antioxidant genes. (A-C) Metage...
(A-C) Metagene analysis of the genomic distribution of NRF2 (A and C) and ZMYND8 (B and C) in MDA-MB-231 mammospheres (n = 2). RPKM, reads per kilobase of transcript per million reads mapped; TSS, transcription start site; TES, transcription end site. (D and E) Venn diagram of the overlapped ChIP-Seq peaks (D) and cooccupied genes (E) by ZMYND8 and NRF2 (n = 2). (F) Cooccupancy analysis of NRF2 and ZMYND8 ChIP-Seq peaks (n = 2). (G) Motif density analysis of ZMYND8 ChIP-Seq peaks (n = 2). ARE is shown in the top panel. (H) Genome browser snapshots of NRF2 and ZMYND8 ChIP-Seq peaks on antioxidant genes.