Abstract
In response to DNA damage tissue homoeostasis is ensured by protein networks promoting DNA repair, cell cycle arrest or apoptosis. DNA damage response signaling pathways coordinate these processes, partly by propagating gene expression-modulating signals. DNA damage influences not only abundance of mRNAs, but also their coding information through alternative splicing. Here we show that transcription-blocking DNA lesions promote chromatin displacement of late-stage spliceosomes and initiate a positive feedback loop centered on the signaling kinase ATM. We propose that initial spliceosome displacement and subsequent R-loop formation is triggered by pausing of RNA polymerase at DNA lesions. In turn, R-loops activate ATM which signals to further impede spliceosome organization and augment UV-triggered alternative splicing at genome-wide level. Our findings define the R-loop-dependent ATM activation by transcription-blocking lesions as an important event in the DNA damage response of non-replicating cells and highlight a key role for spliceosome displacement in this process.
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