<HashMap><database>biostudies-literature</database><scores/><additional><submitter>Alagia A</submitter><funding>Cancer Research UK</funding><funding>Medical Research Council</funding><pagination>7882</pagination><full_dataset_link>https://www.ebi.ac.uk/biostudies/studies/S-EPMC12374970</full_dataset_link><repository>biostudies-literature</repository><omics_type>Unknown</omics_type><volume>16(1)</volume><pubmed_abstract>DNA integrity is constantly challenged by both endogenous and exogenous damaging agents, resulting in various forms of damage. Failure to repair DNA accurately leads to genomic instability, a hallmark of cancer. Distinct pathways exist to repair different types of DNA damage. Double-strand breaks (DSBs) represent a particularly severe form of damage, due to the physical separation of DNA strands. The repair of DSBs requires the activity of RNA Polymerase II (RNAPII) and the generation of Damage-responsive transcripts (DARTs). Here we show that the RNA m5C-methyltransferase NSUN2 localises to DSBs in a transcription-dependent manner, where it binds to and methylates DARTs. The depletion of NSUN2 results in an accumulation of nascent primary DARTs around DSBs. Furthermore, we detect an RNA-dependent interaction between NSUN2 and DICER, which is stimulated by DNA damage. NSUN2 activity promotes DICER cleavage of DARTs-associated R-loops, which is required for efficient DNA repair. We report a role of the RNA m5C -methyltransferase NSUN2 within the RNA-dependent DNA damage response, highlighting its function as a DICER chaperone for the clearance of non-canonical substrates such as DARTs, thereby contributing to genomic integrity.</pubmed_abstract><journal>Nature communications</journal><pubmed_title>NSUN2 facilitates DICER cleavage of DNA damage-associated R-loops to promote repair.</pubmed_title><pmcid>PMC12374970</pmcid><funding_grant_id>BVR02590</funding_grant_id><funding_grant_id>BVR01170</funding_grant_id><pubmed_authors>Gullerova M</pubmed_authors><pubmed_authors>Di Fazio A</pubmed_authors><pubmed_authors>Alagia A</pubmed_authors><pubmed_authors>Ajit K</pubmed_authors><pubmed_authors>Long Q</pubmed_authors></additional><is_claimable>false</is_claimable><name>NSUN2 facilitates DICER cleavage of DNA damage-associated R-loops to promote repair.</name><description>DNA integrity is constantly challenged by both endogenous and exogenous damaging agents, resulting in various forms of damage. Failure to repair DNA accurately leads to genomic instability, a hallmark of cancer. Distinct pathways exist to repair different types of DNA damage. Double-strand breaks (DSBs) represent a particularly severe form of damage, due to the physical separation of DNA strands. The repair of DSBs requires the activity of RNA Polymerase II (RNAPII) and the generation of Damage-responsive transcripts (DARTs). Here we show that the RNA m5C-methyltransferase NSUN2 localises to DSBs in a transcription-dependent manner, where it binds to and methylates DARTs. The depletion of NSUN2 results in an accumulation of nascent primary DARTs around DSBs. Furthermore, we detect an RNA-dependent interaction between NSUN2 and DICER, which is stimulated by DNA damage. NSUN2 activity promotes DICER cleavage of DARTs-associated R-loops, which is required for efficient DNA repair. We report a role of the RNA m5C -methyltransferase NSUN2 within the RNA-dependent DNA damage response, highlighting its function as a DICER chaperone for the clearance of non-canonical substrates such as DARTs, thereby contributing to genomic integrity.</description><dates><release>2025-01-01T00:00:00Z</release><publication>2025 Aug</publication><modification>2026-05-09T18:00:55.879Z</modification><creation>2026-04-08T01:08:59.393Z</creation></dates><accession>S-EPMC12374970</accession><cross_references><pubmed>40849328</pubmed><doi>10.1038/s41467-025-63220-9</doi></cross_references></HashMap>