DNA-damage dependent isoform switching modulates RIF1 DNA repair complex assembly and phase separation Article Swipe

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Interactome Chromatin Terminal (telecommunication) RNA splicing Chemistry Domain (mathematical analysis) Cell biology Computational biology Biology Computer science Biochemistry DNA Gene Mathematics Computer network Mathematical analysis RNA

Adenine Si-Hui Koo , Weiyan Jia , Sang Hwa Kim , Mark Scalf , Claire E. Boos , Yuhong Chen , Demin Wang , Andrew F. Voter , Aditya Bajaj , Lloyd M. Smith , James L. Keck , Christopher J. Bakkenist , Lin Guo , Randal S. Tibbetts ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.1101/2024.10.29.619708 · OA: W4404008268

How RIF1 (RAP1 interacting factor) fulfills its diverse roles in DNA double-strand break (DSB) repair, DNA replication, and nuclear organization remains elusive. Here we show that alternative splicing (AS) of a cassette exon (Ex32) encoding a Ser/Lys-rich (S/K) cassette in the RIF1 C-terminal domain (CTD) gives rise to RIF1-Long (RIF1-L) and RIF1-Short (RIF1-S) isoforms with different functional characteristics. We demonstrate that RIF1-Ex32 splice-in is mediated by an exonic splicing enhancer that is recognized by the splicing factor SRSF1 and antagonized by splicing inhibitors SRSF3 and SRSF7. Exposure to DNA damage inhibited Ex32 splice-in, potentiated the association of SRSF3 and SRSF7 with RIF1 pre-mRNA, and caused an increase in RIF1-S protein expression, which was also observed across a diverse set of primary cancers. Isoform-specific proteomic analyses revealed RIF1-L preferentially associated with mediator of DNA damage checkpoint 1 (MDC1) and sustained MDC1 focus formation to a greater extent than RIF1-S. We further show that the S/K cassette stabilized a novel phase separation activity of the RIF1 CTD and enhanced RIF1-L chromatin retention, which was reversed by CDK1-dependent phosphorylation of the RIF1 CTD in response to G 2 DNA damage checkpoint inhibition. These combined findings suggest DNA damage-dependent RIF1 AS contributes to RIF1 functional diversification in genome protection.