Clinical and Translational Medicine (Jul 2024)
KMT2D‐mediated H3K4me1 recruits YBX1 to facilitate triple‐negative breast cancer progression through epigenetic activation of c‐Myc
Abstract
Abstract Background Lysine methyltransferase 2D (KMT2D) mediates mono‐methylation of histone H3 lysine 4 (H3K4me1) in mammals. H3K4me1 mark is involved in establishing an active chromatin structure to promote gene transcription. However, the precise molecular mechanism underlying the KMT2D‐mediated H3K4me1 mark modulates gene expression in triple‐negative breast cancer (TNBC) progression is unresolved. Methods and Results We recognized Y‐box‐binding protein 1 (YBX1) as a “reader” of the H3K4me1 mark, and a point mutation of YBX1 (E121A) disrupted this interaction. We found that KMT2D and YBX1 cooperatively promoted cell growth and metastasis of TNBC cells in vitro and in vivo. The expression levels of KMT2D and YBX1 were both upregulated in tumour tissues and correlated with poor prognosis for breast cancer patients. Combined analyses of ChIP‐seq and RNA‐seq data indicated that YBX1 was co‐localized with KMT2D‐mediated H3K4me1 in the promoter regions of c‐Myc and SENP1, thereby activating their expressions in TNBC cells. Moreover, we demonstrated that YBX1 activated the expressions of c‐Myc and SENP1 in a KMT2D‐dependent manner. Conclusion Our results suggest that KMT2D‐mediated H3K4me1 recruits YBX1 to facilitate TNBC progression through epigenetic activation of c‐Myc and SENP1. These results together unveil a crucial interplay between histone mark and gene regulation in TNBC progression, thus providing novel insights into targeting the KMT2D‐H3K4me1‐YBX1 axis for TNBC treatment. Highlights YBX1 is a KMT2D‐mediated H3K4me1‐binding effector protein and mutation of YBX1 (E121A) disrupts its binding to H3K4me1. KMT2D and YBX1 cooperatively promote TNBC proliferation and metastasis by activating c‐Myc and SENP1 expression in vitro and in vivo. YBX1 is colocalized with H3K4me1 in the c‐Myc and SENP1 promoter regions in TNBC cells and increased YBX1 expression predicts a poor prognosis in breast cancer patients.
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