SMARCAD1 Regulates R-Loops at Active Replication Forks Linked to Cancer Mutation  Hotspots

Sidrit Uruci; Nicole Hoitsma; Maria E. Soler-Oliva; Vincent Gaggioli; Maria L. Garcia-Rubio; Calvin Lo; Collin Bakker; Jessica Marinello; Marilena Manolika; Biovanni Capranico; Martijn S. Luijsterburg; Karolin Luger; Nitika Taneja; A Aguilera

doi:10.1101/2024.09.13.612941

SMARCAD1 Regulates R-Loops at Active Replication Forks Linked to Cancer Mutation Hotspots

Sidrit Uruci, Nicole Hoitsma, Maria E. Soler-Oliva, Vincent Gaggioli, Maria L. Garcia-Rubio, Calvin Lo, Collin Bakker, Jessica Marinello, Marilena Manolika, Biovanni Capranico, Martijn S. Luijsterburg, Karolin Luger, Nitika Taneja^*, A Aguilera

^*Corresponding author for this work

Molecular Genetics

Research output: Working paper › Preprint › Academic

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Abstract

DNA replication often encounters obstacles like the stalled transcription machinery and R-loops. While ribonucleases and DNA-RNA helicases can resolve these structures, the role of chromatin remodelers remains understudied. Through a series of in vitro and in vivo experiments, we show that the chromatin remodeler SMARCAD1, which associates with active replication forks, is crucial for resolving nearby R-loops to maintain fork stability. SMARCAD1 directly binds R-loops via its ATPase domain and associates with the replisome through its N-terminus region. Both interactions are critical for resolving R-loops within cells. Genome-wide assays reveal that cells expressing mutant SMARCAD1 accumulate significantly more R-loops than wild-type cells, particularly in regions distinct from known fork blockage-prone sites. These R-loop-enriched regions in SMARCAD1 mutants also exhibit increased mutagenesis in germline tumors, suggesting they are mutation hotspots in cancer. Therefore, SMARCAD1 acts as an R-loop sensor and resolvase at actively progressing forks, maintaining genome stability and preventing tumorigenesis.

Original language	English
Pages	1-63
Number of pages	63
DOIs	https://doi.org/10.1101/2024.09.13.612941
Publication status	Published - 15 Sept 2024

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2024.09.13.612941v1.fullSubmitted manuscript, 22.8 MBLicence: CC BY-NC-ND

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title = "SMARCAD1 Regulates R-Loops at Active Replication Forks Linked to Cancer Mutation Hotspots",

abstract = "DNA replication often encounters obstacles like the stalled transcription machinery and R-loops. While ribonucleases and DNA-RNA helicases can resolve these structures, the role of chromatin remodelers remains understudied. Through a series of in vitro and in vivo experiments, we show that the chromatin remodeler SMARCAD1, which associates with active replication forks, is crucial for resolving nearby R-loops to maintain fork stability. SMARCAD1 directly binds R-loops via its ATPase domain and associates with the replisome through its N-terminus region. Both interactions are critical for resolving R-loops within cells. Genome-wide assays reveal that cells expressing mutant SMARCAD1 accumulate significantly more R-loops than wild-type cells, particularly in regions distinct from known fork blockage-prone sites. These R-loop-enriched regions in SMARCAD1 mutants also exhibit increased mutagenesis in germline tumors, suggesting they are mutation hotspots in cancer. Therefore, SMARCAD1 acts as an R-loop sensor and resolvase at actively progressing forks, maintaining genome stability and preventing tumorigenesis.",

author = "Sidrit Uruci and Nicole Hoitsma and Soler-Oliva, {Maria E.} and Vincent Gaggioli and Garcia-Rubio, {Maria L.} and Calvin Lo and Collin Bakker and Jessica Marinello and Marilena Manolika and Biovanni Capranico and Luijsterburg, {Martijn S.} and Karolin Luger and Nitika Taneja and A Aguilera",

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T1 - SMARCAD1 Regulates R-Loops at Active Replication Forks Linked to Cancer Mutation Hotspots

AU - Uruci, Sidrit

AU - Hoitsma, Nicole

AU - Soler-Oliva, Maria E.

AU - Gaggioli, Vincent

AU - Garcia-Rubio, Maria L.

AU - Lo, Calvin

AU - Bakker, Collin

AU - Marinello, Jessica

AU - Manolika, Marilena

AU - Capranico, Biovanni

AU - Luijsterburg, Martijn S.

AU - Luger, Karolin

AU - Taneja, Nitika

AU - Aguilera, A

PY - 2024/9/15

Y1 - 2024/9/15

N2 - DNA replication often encounters obstacles like the stalled transcription machinery and R-loops. While ribonucleases and DNA-RNA helicases can resolve these structures, the role of chromatin remodelers remains understudied. Through a series of in vitro and in vivo experiments, we show that the chromatin remodeler SMARCAD1, which associates with active replication forks, is crucial for resolving nearby R-loops to maintain fork stability. SMARCAD1 directly binds R-loops via its ATPase domain and associates with the replisome through its N-terminus region. Both interactions are critical for resolving R-loops within cells. Genome-wide assays reveal that cells expressing mutant SMARCAD1 accumulate significantly more R-loops than wild-type cells, particularly in regions distinct from known fork blockage-prone sites. These R-loop-enriched regions in SMARCAD1 mutants also exhibit increased mutagenesis in germline tumors, suggesting they are mutation hotspots in cancer. Therefore, SMARCAD1 acts as an R-loop sensor and resolvase at actively progressing forks, maintaining genome stability and preventing tumorigenesis.

AB - DNA replication often encounters obstacles like the stalled transcription machinery and R-loops. While ribonucleases and DNA-RNA helicases can resolve these structures, the role of chromatin remodelers remains understudied. Through a series of in vitro and in vivo experiments, we show that the chromatin remodeler SMARCAD1, which associates with active replication forks, is crucial for resolving nearby R-loops to maintain fork stability. SMARCAD1 directly binds R-loops via its ATPase domain and associates with the replisome through its N-terminus region. Both interactions are critical for resolving R-loops within cells. Genome-wide assays reveal that cells expressing mutant SMARCAD1 accumulate significantly more R-loops than wild-type cells, particularly in regions distinct from known fork blockage-prone sites. These R-loop-enriched regions in SMARCAD1 mutants also exhibit increased mutagenesis in germline tumors, suggesting they are mutation hotspots in cancer. Therefore, SMARCAD1 acts as an R-loop sensor and resolvase at actively progressing forks, maintaining genome stability and preventing tumorigenesis.

U2 - 10.1101/2024.09.13.612941

DO - 10.1101/2024.09.13.612941

M3 - Preprint

SP - 1

EP - 63

BT - SMARCAD1 Regulates R-Loops at Active Replication Forks Linked to Cancer Mutation Hotspots

ER -

SMARCAD1 Regulates R-Loops at Active Replication Forks Linked to Cancer Mutation Hotspots

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