XAB2 Dynamics during DNA Damage-Dependent Transcription Inhibition

Abstract

ABSTRACTXeroderma Pigmentosum group A (XPA)-binding protein 2 (XAB2) is a multi-functional protein that plays a critical role in distinct cellular processes including transcription, splicing, DNA repair and mRNA export. In this study, we detailed XAB2 involvement during Nucleotide Excision Repair (NER), a repair pathway that guarantees genome integrity against UV light-induced DNA damage and that specifically removes transcription-blocking damage in a dedicated process known as Transcription-Coupled repair (TC-NER). Here, we demonstrated that XAB2 is involved specifically and exclusively in TC-NER reaction and solely for RNA Polymerase 2 transcribed genes. Surprisingly, contrary to all the other NER proteins studied so far, XAB2 does not accumulate on the local UV-C damage but on the contrary is remobilized after damage induction. This fast change in mobility is restored when DNA repair reactions are completed. By scrutinizing from which cellular complex/partner/structure XAB2 is released, we have identified that XAB2 is detached after DNA damage induction from the DNA:RNA hybrids, commonly known as R-loops, and from the CSA and XPG protein and this release is thought to contribute to the DNA damage recognition step during TC-NER. Importantly, we have disclosed a role for XAB2 in retaining RNAP2 on its substrate.