Abstract
Transcription-coupled repair (TCR) is the major pathway involved in the removal of UV-induced photolesions from the transcribed strand of active genes. Two Cockayne syndrome (CS) complementation group proteins, CSA and CSB, are important for TCR repair. The molecular mechanisms by which CS proteins regulate TCR remain elusive. Here, we report the characterization of KIAA1530, an evolutionarily conserved protein that participates in this pathway through its interaction with CSA and the TFIIH complex. We found that UV irradiation led to the recruitment of KIAA1530 onto chromatin in a CSA-dependent manner. Cells lacking KIAA1530 were highly sensitive to UV irradiation and displayed deficiency in TCR. In addition, KIAA1530 depletion abrogated stability of the CSB protein following UV irradiation. More excitingly, we found that a unique CSA mutant (W361C), which was previously identified in a patient with UV(s)S syndrome, showed defective KIAA1530 binding and resulted in a failure of recruiting KIAA1530 and stabilizing CSB after UV treatment. Together, our data not only reveal that KIAA1530 is an important player in TCR but also lead to a better understanding of the molecular mechanism underlying UV(s)S syndrome.
Highlights
Mutations on the KIAA1530 gene cause UV sensitivity syndrome (UVsS)
The endogenous TFIIH complex subunit XPB co-precipitated with KIAA1530-SFB in this experiment (Fig. 1C)
Based on the literature and the findings presented in this study, we propose the following working model for KIAA1530 function in Transcription-coupled repair (TCR)
Summary
Mutations on the KIAA1530 gene cause UV sensitivity syndrome (UVsS). Results: KIAA1530 is recruited by the CSA protein to UV-damaged chromatin. A point mutation, CSA (p.W361C) identified in patient UVSS1VI, causes mild UVSS syndrome, which is manifested by hypersensitivity to UV irradiation and a failure to resume RNA synthesis. This patient does not have any neurological or developmental abnormalities, and the cellular sensitivity to oxidative stress is normal, indicating that this mutant may uncouple the roles of CSA in UV response versus its function in oxidative damage repair [26]. We identify and characterize KIAA1530, a protein that is recruited to sites of DNA damage by CSA We showed that this protein is essential for transcription recovery and cell survival after UV irradiation. We demonstrated a link between KIAA1530 and the pathogenic CSA mutation (p.W361C) in the patient with UVSS and thereby shed light on the molecular mechanism of TCR repair
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