The MYCN oncoprotein resolves conflicts of stalling RNA Polymerase with the replication fork [DP_EXOSC10_ChIP_4sUseq]
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ABSTRACT: During the S-phase, conflicts of replication forks with RNA Polymerase II (RNAPII) threaten genomic stability. While the PAF complex can resolve such conflicts during elongation, the particularly deleterious conflicts with stalling RNAPII are resolved by an as of yet unknown mechanism. Here we show that the MYCN oncoprotein forms a ternary complex with RNAPII and the nuclear RNA exosome, a 3’‑5’ exoribonuclease complex. Together with TFIIS, this complex restarts promoter‑proximal RNAPII, allows escape from co-directional transcription-replication conflicts and prevents double‑strand break accumulation. In cells lacking RNA exosome function, MYCN globally terminates transcription. MYCN-mediated termination is triggered by ATM‑dependent recruitment of BRCA1, which then stabilizes nuclear mRNA decapping complexes. Disruption of mRNA decapping activates ATR, indicative of head-on transcription-replication conflicts, and inhibits DNA replication. We propose that MYCN resolves transcription-replication conflicts via this two-step mechanism to sustain the rapid proliferation of neuroendocrine tumor cells.
ORGANISM(S): Homo sapiens
PROVIDER: GSE164555 | GEO | 2021/12/10
REPOSITORIES: GEO
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