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Hedgehog signaling enables repair of ribosomal DNA double-strand breaks

Tshering Lama-Sherpa, Victor T. G. Lin, Brandon J. Metge, Shannon E. Weeks, Dongquan Chen, Rajeev S. Samant, Lalita A. Shevde

2020Nucleic Acids Research13 citationsDOIOpen Access PDF

Abstract

Ribosomal DNA (rDNA) consists of highly repeated sequences that are prone to incurring damage. Delays or failure of rDNA double-strand break (DSB) repair are deleterious, and can lead to rDNA transcriptional arrest, chromosomal translocations, genomic losses, and cell death. Here, we show that the zinc-finger transcription factor GLI1, a terminal effector of the Hedgehog (Hh) pathway, is required for the repair of rDNA DSBs. We found that GLI1 is activated in triple-negative breast cancer cells in response to ionizing radiation (IR) and localizes to rDNA sequences in response to both global DSBs generated by IR and site-specific DSBs in rDNA. Inhibiting GLI1 interferes with rDNA DSB repair and impacts RNA polymerase I activity and cell viability. Our findings tie Hh signaling to rDNA repair and this heretofore unknown function may be critically important in proliferating cancer cells.

Topics & Concepts

BiologyDNA damageRibosomal DNADNA repairRNA polymerase IEffectorGLI1Ribosomal RNADNAGeneticsCell biologyMolecular biologyHedgehog signaling pathwayRNARNA polymeraseGenePhylogeneticsGenomics and Chromatin DynamicsHedgehog Signaling Pathway StudiesDNA Repair Mechanisms