ABH2 Couples Regulation of Ribosomal DNA Transcription with DNA Alkylation Repair

•ABH2 protects highly transcribed rDNA genes from transcription-associated mutagenesis•ABH2 is highly enriched in the nucleolus and enhances rDNA transcription•ABH2 enhances rDNA transcription through its DNA alkylation repair activity•ABH2 interacts with Ku70 and may couple DNA alkylation repair with DSB repair

SummaryTranscription has been linked to DNA damage. How the most highly transcribed mammalian ribosomal (rDNA) genes maintain genome integrity in the absence of transcription-coupled DNA damage repair is poorly understood. Here, we report that ABH2/ALKBH2, a DNA alkylation repair enzyme, is highly enriched in the nucleolus. ABH2 interacts with DNA repair proteins Ku70 and Ku80 as well as nucleolar proteins nucleolin, nucleophosmin 1, and upstream binding factor (UBF). ABH2 associates with and promotes rDNA transcription through its DNA repair activity. ABH2 knockdown impairs rDNA transcription and leads to increased single-stranded and double-stranded DNA breaks that are more pronounced in the rDNA genes, whereas ABH2 overexpression protects cells from methyl-methanesulfonate-induced DNA damage and inhibition of rDNA transcription. In response to massive alkylation damage, ABH2 rapidly redistributes from the nucleolus to nucleoplasm. Our study thus reveals a critical role of ABH2 in maintaining rDNA gene integrity and transcription and provides insight into the ABH2 DNA repair function.

Graphical AbstractFigure optionsDownload full-size imageDownload as PowerPoint slide