| Literature DB >> 32142649 |
Yuka Nakazawa1, Yuichiro Hara1, Yasuyoshi Oka1, Okiru Komine2, Diana van den Heuvel3, Chaowan Guo1, Yasukazu Daigaku4, Mayu Isono1, Yuxi He1, Mayuko Shimada1, Kana Kato1, Nan Jia1, Satoru Hashimoto1, Yuko Kotani5, Yuka Miyoshi2, Miyako Tanaka6, Akira Sobue2, Norisato Mitsutake7, Takayoshi Suganami6, Akio Masuda8, Kinji Ohno8, Shinichiro Nakada9, Tomoji Mashimo10, Koji Yamanaka2, Martijn S Luijsterburg3, Tomoo Ogi11.
Abstract
Transcription-coupled nucleotide excision repair (TC-NER) is initiated by the stalling of elongating RNA polymerase II (RNAPIIo) at DNA lesions. The ubiquitination of RNAPIIo in response to DNA damage is an evolutionarily conserved event, but its function in mammals is unknown. Here, we identified a single DNA damage-induced ubiquitination site in RNAPII at RPB1-K1268, which regulates transcription recovery and DNA damage resistance. Mechanistically, RPB1-K1268 ubiquitination stimulates the association of the core-TFIIH complex with stalled RNAPIIo through a transfer mechanism that also involves UVSSA-K414 ubiquitination. We developed a strand-specific ChIP-seq method, which revealed RPB1-K1268 ubiquitination is important for repair and the resolution of transcriptional bottlenecks at DNA lesions. Finally, RPB1-K1268R knockin mice displayed a short life-span, premature aging, and neurodegeneration. Our results reveal RNAPII ubiquitination provides a two-tier protection mechanism by activating TC-NER and, in parallel, the processing of DNA damage-stalled RNAPIIo, which together prevent prolonged transcription arrest and protect against neurodegeneration.Entities:
Keywords: CRL/CSA/CSB; CS; ChIP-seq; Cockayne syndrome; NER; RNA polymerase II; RNAPII; TCR; TFIIH; UV-sensitive syndrome; UVSSA; UVsS; nucleotide excision repair; transcription coupled repair; ubiquitination of RNAPII
Year: 2020 PMID: 32142649 DOI: 10.1016/j.cell.2020.02.010
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582