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SUV39H1 maintains cancer stem cell chromatin state and properties in glioblastoma
Chunying Li, Qiqi Xie, Sugata Ghosh, Bihui Cao, Yuanning Du, Giau V. Vo, Timothy Y. Huang, Charles Spruck, Richard L. Carpenter, Y. Alan Wang, Q. Richard Lu, Kenneth P. Nephew, Jia Shen
Chunying Li, Qiqi Xie, Sugata Ghosh, Bihui Cao, Yuanning Du, Giau V. Vo, Timothy Y. Huang, Charles Spruck, Richard L. Carpenter, Y. Alan Wang, Q. Richard Lu, Kenneth P. Nephew, Jia Shen
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Research Article Cell biology Oncology Stem cells

SUV39H1 maintains cancer stem cell chromatin state and properties in glioblastoma

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Abstract

Glioblastoma (GBM) is the most lethal brain cancer, with GBM stem cells (GSCs) driving therapeutic resistance and recurrence. Targeting GSCs offers a promising strategy for preventing tumor relapse and improving outcomes. We identify SUV39H1, a histone-3, lysine-9 methyltransferase, as critical for GSC maintenance and GBM progression. SUV39H1 is upregulated in GBM compared with normal brain tissues, with single-cell RNA-seq showing its expression predominantly in GSCs due to super-enhancer–mediated activation. Knockdown of SUV39H1 in GSCs impaired their proliferation and stemness. Whole-cell RNA-seq analysis revealed that SUV39H1 regulates G2/M cell cycle progression, stem cell maintenance, and cell death pathways in GSCs. By integrating the RNA-seq data with ATAC-seq data, we further demonstrated that knockdown of SUV39H1 altered chromatin accessibility in key genes associated with these pathways. Chaetocin, an SUV39H1 inhibitor, mimics the effects of SUV39H1 knockdown, reducing GSC stemness and sensitizing cells to temozolomide, a standard GBM chemotherapy. In a patient-derived xenograft model, targeting SUV39H1 inhibits GSC-driven tumor growth. Clinically, high SUV39H1 expression correlates with poor glioma prognosis, supporting its relevance as a therapeutic target. This study identifies SUV39H1 as a crucial regulator of GSC maintenance and a promising therapeutic target to improve GBM treatment and patient outcomes.

Authors

Chunying Li, Qiqi Xie, Sugata Ghosh, Bihui Cao, Yuanning Du, Giau V. Vo, Timothy Y. Huang, Charles Spruck, Richard L. Carpenter, Y. Alan Wang, Q. Richard Lu, Kenneth P. Nephew, Jia Shen

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Figure 3

SUV39H1 expression in GSCs, NSGCs, and normal brain cells.

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SUV39H1 expression in GSCs, NSGCs, and normal brain cells.
(A) Analysis ...
(A) Analysis of RNA-seq data (GSE54791) for SUV39H1 expression in multiple GSC and NSGC pairs (MCG4, MCG6, MCG8). CPM, counts per million. (B–D) Representative images (B), qPCR data (C), and Western blotting data and quantification (D) for GSC3565 and GSC1914 differentiation by serum induction. OLIG2 is a GSC marker, and GFAP is a differentiated NSGC marker. (E) H3K27ac ChIP-seq data showing the SUV39H1 locus in indicated GSCs and NSGCs. (F) Violin plot showing SUV39H1 expression levels in GSCs compared to normal neural stem cells (NSCs). P value was calculated using an unpaired, 2-tailed t test. (G) H3K27ac ChIP-seq signal tracks showing the SUV39H1 locus in indicated GSCs and NSCs. (H) Representative images and qPCR data for GSC3565 cells treated with JQ1 for 48 hours. Scale bars: 100 μm. Data represent mean ± SD. *P < 0.05; **P < 0.01; ****P < 0.0001 by unpaired, 2-tailed t test.

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