Hyper-recombination in ribosomal DNA is driven by long-range resection-independent RAD51 accumulation

Zita Gál; Stavroula Boukoura; Kezia Catharina Oxe; Sara Badawi; Blanca Nieto; Lea Milling Korsholm; Sille Blangstrup Geisler; Ekaterina Dulina; Anna Vestergaard Rasmussen; Christina Dahl; Wei Lv; Huixin Xu; Xiaoguang Pan; Stefanos Arampatzis; Danai-Eleni Stratou; Panagiotis Galanos; Lin Lin; Per Guldberg; Jiri Bartek; Yonglun Luo; Dorthe H. Larsen

doi:10.1038/s41467-024-52189-6

Nature Communications (Sep 2024)

Hyper-recombination in ribosomal DNA is driven by long-range resection-independent RAD51 accumulation

Zita Gál,
Stavroula Boukoura,
Kezia Catharina Oxe,
Sara Badawi,
Blanca Nieto,
Lea Milling Korsholm,
Sille Blangstrup Geisler,
Ekaterina Dulina,
Anna Vestergaard Rasmussen,
Christina Dahl,
Wei Lv,
Huixin Xu,
Xiaoguang Pan,
Stefanos Arampatzis,
Danai-Eleni Stratou,
Panagiotis Galanos,
Lin Lin,
Per Guldberg,
Jiri Bartek,
Yonglun Luo,
Dorthe H. Larsen

Affiliations

Zita Gál: Nucleolar Stress and Disease Group, Danish Cancer Institute
Stavroula Boukoura: Nucleolar Stress and Disease Group, Danish Cancer Institute
Kezia Catharina Oxe: Nucleolar Stress and Disease Group, Danish Cancer Institute
Sara Badawi: Nucleolar Stress and Disease Group, Danish Cancer Institute
Blanca Nieto: Nucleolar Stress and Disease Group, Danish Cancer Institute
Lea Milling Korsholm: Nucleolar Stress and Disease Group, Danish Cancer Institute
Sille Blangstrup Geisler: Nucleolar Stress and Disease Group, Danish Cancer Institute
Ekaterina Dulina: Nucleolar Stress and Disease Group, Danish Cancer Institute
Anna Vestergaard Rasmussen: Nucleolar Stress and Disease Group, Danish Cancer Institute
Christina Dahl: Molecular Diagnostics, Danish Cancer Institute
Wei Lv: Department of Biomedicine, Aarhus University
Huixin Xu: Department of Biomedicine, Aarhus University
Xiaoguang Pan: Department of Biology, University of Copenhagen
Stefanos Arampatzis: Genome Integrity Group, Danish Cancer Institute
Danai-Eleni Stratou: Genome Integrity Group, Danish Cancer Institute
Panagiotis Galanos: Genome Integrity Group, Danish Cancer Institute
Lin Lin: Department of Biomedicine, Aarhus University
Per Guldberg: Molecular Diagnostics, Danish Cancer Institute
Jiri Bartek: Genome Integrity Group, Danish Cancer Institute
Yonglun Luo: Department of Biomedicine, Aarhus University
Dorthe H. Larsen: Nucleolar Stress and Disease Group, Danish Cancer Institute

DOI: https://doi.org/10.1038/s41467-024-52189-6
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Ribosomal DNA (rDNA) encodes the ribosomal RNA genes and represents an intrinsically unstable genomic region. However, the underlying mechanisms and implications for genome integrity remain elusive. Here, we use Bloom syndrome (BS), a rare genetic disease characterized by DNA repair defects and hyper-unstable rDNA, as a model to investigate the mechanisms leading to rDNA instability. We find that in Bloom helicase (BLM) proficient cells, the homologous recombination (HR) pathway in rDNA resembles that in nuclear chromatin; it is initiated by resection, replication protein A (RPA) loading and BRCA2-dependent RAD51 filament formation. However, BLM deficiency compromises RPA-loading and BRCA1/2 recruitment to rDNA, but not RAD51 accumulation. RAD51 accumulates at rDNA despite depletion of long-range resection nucleases and rDNA damage results in micronuclei when BLM is absent. In summary, our findings indicate that rDNA is permissive to RAD51 accumulation in the absence of BLM, leading to micronucleation and potentially global genomic instability.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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