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Article Abstract
Replication stress is a major driver of genomic instability and a hallmark of cancer cells. Although dynamic heterochromatin remodeling has been implicated in replication stress response, the precise mechanisms remain unclear. Here, we identify the CHAMP1 complex, composed of CHAMP1, POGZ, HP1α, and the H3K9 methyltransferase SETDB1, as a critical regulator of heterochromatin assembly at stalled replication forks. Upon replication stress, the CHAMP1 complex is recruited to stalled forks where it facilitates H3K9me3 deposition, creating a repressive chromatin environment that shields replication forks from MRE11-mediated degradation. The complex promotes the recruitment of the origin recognition complex (ORC) to sites of replication stress, such as the telomeric heterochromatin in alternative lengthening of telomeres (ALT)-positive tumor cells, thereby supporting efficient telomeric DNA replication. Loss of CHAMP1 disrupts ORC2 recruitment and impairs fork restart, leading to increased micronuclei formation and heightened sensitivity to replication stress. Notably, CHAMP1 deficiency induces synthetic lethality with FANCM inhibition in ALT-positive tumor cells, and the CHAMP1 complex is essential for the survival of CCNE1-amplified ovarian cancers. These findings uncover a chromatin-based mechanism of replication fork stabilization and suggest that CHAMP1 may represent a candidate therapeutic vulnerability in cancers with elevated replication stress.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12340823 | PMC |
| http://dx.doi.org/10.1101/2025.08.05.667964 | DOI Listing |
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