Reversing PROTAC-induced ASH2L degradation reactivates proliferation in senescent cells
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Abstract
Nucleosomes control access to gene promoters. Histone H3 lysine 4 tri-methylation, catalyzed by 6 KMT2 complexes, correlates with accessible promoters and gene expression. The catalytic activity of KMT2 enzymes depends on an obligatory core complex with ASH2L being an essential subunit. We find that PROTAC induced depletion of ASH2L reduces H3K4me3, deregulates gene expression and prevents proliferation. Upon prolonged ASH2L loss, cells develop a senescent phenotype, a process linked to aging and disease. Competing the PROTAC reactivates ASH2L, reestablishes H3K4me3 at promoters and reverts gene expression changes. Cells reenter the cell cycle and resume proliferation, thereby reverting senescence. Structure-function studies demonstrate that these molecular and cellular consequences are primarily due to the loss of ASH2L functions associated with KMT2 complexes. Together, these findings indicate that stress inflicted by the loss of KMT2 catalytic activities promotes a reversible senescence phenotype, suggesting that the functions of KMT2 complexes are implicated in aging. Graphical abstract
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- europepmc
- last seen: 2026-05-20T01:45:00.602351+00:00