PO.MCB06.02 · 分子与细胞生物学

Targeting UHRF1-SUV39H1/H2 crosstalk enhances DNMT1 inhibitor efficacy in colon cancer

海报缩略图:Targeting UHRF1-SUV39H1/H2 crosstalk enhances DNMT1 inhibitor efficacy in colon cancer
编号 1958 展板 10 时间 4/20 09:00–12:00 区域 Section 22 主讲 Yanqing Liu, MD
分会场 DNA Methylation
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作者与单位

Yanqing Liu1, Joel A. Hrit1, Alison A. Chomiak1, Stephanie Stransky2, Jordan Hoffman3, Rochelle L. Tiedemann1, Ashley K. Wiseman1, Leena S. Kariapper1, Bradley M. Dickson1, Evan J. Worden1, Christopher J. Fry3, Simone Sidoli2, Scott B. Rothbart1

1Van Andel Institute (VAI), Grand Rapids, MI,2Albert Einstein College of Medicine, Bronx, NY,3Cell Signaling Technology, Inc., Danvers, MA

摘要 Abstract

DNA hypomethylating agent (DNMTi) efficacy is associated with the re-expression of epigenetically silenced tumor suppressor genes (TSGs) and transposable elements (TEs) in preclinical cancer models, yet their clinical efficacy in solid tumors is limited. An emerging mechanism of resistance to DNMTi involves compensation through repressive histone post-translational modifications (PTMs). Here, we define a targetable chromatin-based mechanism through UHRF1-SUV39H1/H2 crosstalk that reinforces transcriptional silencing in colon cancer cells exposed to DNMTi's. Leveraging integrative epigenomic profiling and biochemical analyses, we discovered that transient DNA hypomethylation triggers UHRF1-dependent mono-ubiquitination of lysine 18 on histone H3 (H3K18ub), which in turn stimulates SUV39H1/H2 methyltransferases to deposit H3K9me3 at CpG island promoters of DNA methylation-silenced TSGs. This UHRF1-SUV39H1/H2 crosstalk establishes new heterochromatin domains that stabilize repression despite global DNA demethylation. Disrupting UHRF1 enzymatic function or an identified H3K18ub-recognition motif in SUV39H1 prevents H3K9me3 accumulation, increases TSG re-expression, and enhances DNMTi-induced antiproliferative effects in colon cancer cells. These findings reveal a compensatory heterochromatin signaling mechanism that limits DNMTi responses and identify the UHRF1-SUV39H1 pathway as a novel therapeutic target to improve epigenetic therapy efficacy in solid tumors.
利益披露 Disclosure
Y. Liu, None.. J. A. Hrit, None.. A. A. Chomiak, None.. S. Stransky, None.. R. L. Tiedemann, None.. A. K. Wiseman, None.. L. S. Kariapper, None.. B. M. Dickson, None.. E. J. Worden, None.. C. J. Fry, None.. S. Sidoli, None.. S. B. Rothbart, None.

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