AI Article Synopsis
- DNA damage disrupts gene transcription by RNA polymerase II, leading to cellular issues, while Transcription-Coupled Nucleotide Excision Repair (TC-NER) helps fix this damage.
- The proteins CSB, CSA, and UVSSA are essential for initiating TC-NER; without them, repair processes fail, leading to different syndromes: UVSS with mild symptoms from UVSSA loss and severe Cockayne Syndrome (CS) from CSA or CSB loss.
- Research shows that in cells lacking CSA or CSB, RNA polymerase II remains stuck at damage sites, hindering repair, while in UVSSA-deficient cells, it is cleared away, allowing alternative repair pathways to function.
Article Abstract
DNA damage severely impedes gene transcription by RNA polymerase II (Pol II), causing cellular dysfunction. Transcription-Coupled Nucleotide Excision Repair (TC-NER) specifically removes such transcription-blocking damage. TC-NER initiation relies on the CSB, CSA and UVSSA proteins; loss of any results in complete TC-NER deficiency. Strikingly, UVSSA deficiency results in UV-Sensitive Syndrome (UVSS), with mild cutaneous symptoms, while loss of CSA or CSB activity results in the severe Cockayne Syndrome (CS), characterized by neurodegeneration and premature aging. Thus far the underlying mechanism for these contrasting phenotypes remains unclear. Live-cell imaging approaches reveal that in TC-NER proficient cells, lesion-stalled Pol II is swiftly resolved, while in CSA and CSB knockout (KO) cells, elongating Pol II remains damage-bound, likely obstructing other DNA transacting processes and shielding the damage from alternative repair pathways. In contrast, in UVSSA KO cells, Pol II is cleared from the damage via VCP-mediated proteasomal degradation which is fully dependent on the CRL4CSA ubiquitin ligase activity. This Pol II degradation might provide access for alternative repair mechanisms, such as GG-NER, to remove the damage. Collectively, our data indicate that the inability to clear lesion-stalled Pol II from the chromatin, rather than TC-NER deficiency, causes the severe phenotypes observed in CS.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11381366 | PMC |
| http://dx.doi.org/10.1093/nar/gkae618 | DOI Listing |
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