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Methylation Status of the <i>Nanog</i> Promoter Determines the Switch between Cancer Cells and Cancer Stem Cells

Shupeng Liu, Shupeng Liu, Kai Cheng, Hui Zhang, Ruijiao Kong, Shuo Wang, Chuanbin Mao, Shanrong Liu, Shanrong Liu

2020Advanced Science43 citationsDOIOpen Access PDF

Abstract

Abstract Cancer stem cells (CSCs) are the main cause of tumor development, metastasis, and relapse. CSCs are thus considered promising targets for cancer therapy. However, it is hard to eradicate CSCs due to their inherent plasticity and heterogeneity, and the underlying mechanism of the switch between non‐CSCs and CSCs remains unclear. Here, it is shown that miR‐135a combined with SMYD4 activates Nanog expression and induces the switch of non‐CSCs into CSCs. The miR‐135a level, once elevated, lowers the methylation level of the CG5 site in the Nanog promoter by directly targeting DNMT1. SMYD4 binds to the unmethylated Nanog promoter to activate Nanog expression in Nanog‐negative tumor cells. The in vivo regulation of miR‐135a levels could significantly affect both the CSCs proportion and tumor progression. These findings indicate that DNA methylation of the Nanog promoter modulates the switch of non‐CSCs into CSCs under the control of the miRNA‐135 level. In addition, the related pathways, miR‐135a/DNMT1 and SMYD4, involved in these processes are potential targets for CSC‐targeted therapy.

Topics & Concepts

Homeobox protein NANOGCancer stem cellCancer researchNanog Homeobox ProteinCancer cellMethylationBiologyDNA methylationmicroRNAMetastasisStem cellCancerChemistryCell biologyEmbryonic stem cellSOX2Gene expressionInduced pluripotent stem cellGeneticsGeneCancer Cells and MetastasisEpigenetics and DNA MethylationMicroRNA in disease regulation