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. 2025 Oct 8.
doi: 10.1038/s41586-025-09585-9. Online ahead of print.

KCTD10 is a sensor for co-directional transcription-replication conflicts

Jake A Kloeber #  1   2 Bin Chen #  1   3 Guangchao Sun  4 Charles S King  1 Zhiquan Wang  5   6 Li Wang  6 Zheming Wu  1 Shouhai Zhu  1 Fei Zhao  1 Hongran Qin  1 Yaobin Ouyang  1 Huaping Xiao  1 Xinyi Tu  1 Jing Lu  1 Yanxia Jiang  1 Kuntian Luo  1 Ping Yin  1 Xinyan Wu  6 Robert W Mutter  3   6 Jinzhou Huang  7 Zhenkun Lou  8   9
Affiliations

KCTD10 is a sensor for co-directional transcription-replication conflicts

Jake A Kloeber et al. Nature. .

Abstract

During DNA replication, the replisome must remove barriers and roadblocks including the transcription machinery1,2. Transcription-replication conflicts (TRCs) occur when there are collisions between the replisome and transcription machinery, and are increasingly recognized as an important source of mammalian genome instability3. How cells facilitate replisome bypass at sites of TRCs is incompletely understood. Here we show that the CUL3-KCTD10 E3 ligase senses TRCs and promotes remodelling of the RNA polymerase complex to allow replisome bypass. We found that the substrate adaptor KCTD10 interacts with the replisome and the transcription machinery and regulates both in unstressed conditions. These bivalent interactions allow KCTD10 to detect co-directional TRCs and facilitate higher-order assembly of KCTD10 complexes that recruit CUL3 to induce the ubiquitination and removal of the RNA polymerase factor TCEA2. In the absence of KCTD10, there is increased retention of TCEA2 and the RNA polymerase complex, causing an accumulation of TRCs and increased DNA damage. Our results demonstrate how replication can proceed through transcriptionally active regions, utilizing a unique bridging function of the CUL3-KCTD10 complex. These findings provide a framework for how the coordination between transcription and replication may contribute to the maintenance of genome stability.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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