Single-molecule tracking of DNMT1 in living cells reveals its cell cycle dynamics and its redistribution upon drug treatment
Eliza S Lee, Ella R Tommer, Paul B Rothman, Sarah V Middleton, Daniel T Youmans, Thomas R Cech

TL;DR
This study tracks DNMT1 in living cells to understand its behavior during the cell cycle and how drugs affect its activity.
Contribution
The study reveals new insights into DNMT1 dynamics and drug effects using single-molecule tracking in live cells.
Findings
DNMT1 becomes increasingly bound to chromatin during the S phase of the cell cycle.
Only ∼12% chromatin-bound DNMT1 is sufficient to maintain DNA methylation.
Non-covalent and covalent inhibitors cause similar chromatin binding of DNMT1.
Abstract
DNMT1 is a methyltransferase that restores 5-methylcytidine marks on newly replicated DNA and is required for maintaining epigenetic inheritance. Using Halo-tagged DNMT1 and highly inclined thin illumination (HiLo) microscopy, we show that DNMT1 mobility in living human cells changes under a variety of conditions. DNMT1 molecules become increasingly bound to chromatin in the S phase of the cell cycle, but surprisingly only ∼ 12% chromatin-bound DNMT1 is sufficient to maintain DNA methylation. Upon treatment with small molecule inhibitors, GSK-3484862 (GSK), 5-azacytidine (5-azaC) and decitabine (5-aza-deoxyC), in vivo DNMT1 dynamics are greatly altered. Unexpectedly, treatment of cells with GSK, a non-covalent inhibitor, causes binding of DNMT1 to chromatin similar to that observed upon treatment with 5-azaC and decitabine, covalent inhibitors. 5-azaC inhibition of DNMT1 dynamics occurs…
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Taxonomy
TopicsEpigenetics and DNA Methylation · Genomics and Chromatin Dynamics · Cancer-related gene regulation
