Epigenetics (Dec 2023)

ELOVL2-AS1 suppresses tamoxifen resistance by sponging miR-1233-3p in breast cancer

  • Hyeon Woo Kim,
  • Minjae Baek,
  • Sanghyun Jung,
  • Siyeon Jang,
  • Hyeonjin Lee,
  • Seung-Hoon Yang,
  • Beom Seok Kwak,
  • Sun Jung Kim

DOI
https://doi.org/10.1080/15592294.2023.2276384
Journal volume & issue
Vol. 18, no. 1

Abstract

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ABSTRACTTamoxifen (Tam) has long been a top treatment option for breast cancer patients, but the challenge of eliminating cancer recurrence remains. Here, we identify a signalling pathway involving ELOVL2, ELOVL2-AS1, and miR-1233-3p, which contributes to drug resistance in Tam-resistant (TamR) breast cancer. ELOVL2-AS1, a long noncoding RNA, was significantly upregulated by its antisense gene, ELOVL2, which is known to be downregulated in TamR cells. Additionally, ELOVL2-AS1 underwent the most hypermethylation in MCF-7/TamR cells. Furthermore, patients with breast cancer who developed TamR during chemotherapy had significantly lower expression of ELOVL2-AS1 compared to those who responded to Tam. Ectopic downregulation of ELOVL2-AS1 by siRNA both stimulated cancer cell growth and deteriorated TamR. We also found that ELOVL2-AS1 sponges miR-1233-3p, which has pro-proliferative activity and elevates TamR, leading to the activation of potential target genes, such as MYEF2, NDST1, and PIK3R1. These findings suggest that ELOVL2-AS1, in association with ELOVL2, may contribute to the suppression of drug resistance by sponging miR-1233-3p in breast cancer.

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