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RECQ4-MUS81 interaction contributes to telomere maintenance with implications to Rothmund-Thomson syndrome

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  • Raghib Ashraf

    (Masaryk University
    Masaryk University)

  • Hana Polasek-Sedlackova

    (Masaryk University
    Czech Academy of Sciences)

  • Victoria Marini

    (Masaryk University)

  • Jana Prochazkova

    (Masaryk University)

  • Zdenka Hasanova

    (Masaryk University)

  • Magdalena Zacpalova

    (Masaryk University)

  • Michala Boudova

    (Masaryk University)

  • Lumir Krejci

    (Masaryk University
    Masaryk University)

Abstract

Replication stress, particularly in hard-to-replicate regions such as telomeres and centromeres, leads to the accumulation of replication intermediates that must be processed to ensure proper chromosome segregation. In this study, we identify a critical role for the interaction between RECQ4 and MUS81 in managing such stress. We show that RECQ4 physically interacts with MUS81, targeting it to specific DNA substrates and enhancing its endonuclease activity. Loss of this interaction, results in significant chromosomal segregation defects, including the accumulation of micronuclei, anaphase bridges, and ultrafine bridges (UFBs). Our data further demonstrate that the RECQ4-MUS81 interaction plays an important role in ALT-positive cells, where MUS81 foci primarily colocalise with telomeres, highlighting its role in telomere maintenance. We also observe that a mutation associated with Rothmund-Thomson syndrome, which produces a truncated RECQ4 unable to interact with MUS81, recapitulates these chromosome instability phenotypes. This underscores the importance of RECQ4-MUS81 in safeguarding genome integrity and suggests potential implications for human disease. Our findings demonstrate the RECQ4-MUS81 interaction as a key mechanism in alleviating replication stress at hard-to-replicate regions and highlight its relevance in pathological conditions such as RTS.

Suggested Citation

  • Raghib Ashraf & Hana Polasek-Sedlackova & Victoria Marini & Jana Prochazkova & Zdenka Hasanova & Magdalena Zacpalova & Michala Boudova & Lumir Krejci, 2025. "RECQ4-MUS81 interaction contributes to telomere maintenance with implications to Rothmund-Thomson syndrome," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56518-1
    DOI: 10.1038/s41467-025-56518-1
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