A small molecule screen identifies an inhibitor of DNA repair inducing the degradation of TFIIH and the chemosensitization of tumor cells to platinum. Alekseev, S; Ayadi, M; Brino, L; Egly, JM; Larsen, AK; Coin, F Chemistry & biology
21
398-407
2014
显示摘要
Nucleotide excision repair (NER) removes DNA lesions resulting from exposure to UV irradiation or chemical agents such as platinum-based drugs used as anticancer molecules. Pharmacological inhibition of NER is expected to enhance chemosensitivity but nontoxic NER inhibitors are rare. Using a drug repositioning approach, we identify spironolactone (SP), an antagonist of aldosterone, as a potent NER inhibitor. We found that SP promotes a rapid and reversible degradation of XPB, a subunit of transcription/repair factor TFIIH. Such degradation depends both on ubiquitin-activating enzyme and on the 26S proteasome. Supplementation of extracts from SP-treated cells with purified TFIIH restored TFIIH-dependent repair and transcription activities in vitro, demonstrating the specific impact of SP on two fundamental functions of TFIIH. Finally, SP potentiated the cytotoxicity of platinum derivatives toward tumor cells, making it a potential therapeutic and research tool. | 24508195
|
Initiation of DNA repair mediated by a stalled RNA polymerase IIO. Lainé, JP; Egly, JM The EMBO journal
25
387-97
2006
显示摘要
The transcription-coupled repair (TCR) pathway preferentially repairs DNA damage located in the transcribed strand of an active gene. To gain insight into the coupling mechanism between transcription and repair, we have set up an in vitro system in which we isolate an elongating RNA pol IIO, which is stalled in front of a cisplatin adduct. This immobilized RNA pol IIO is used as 'bait' to sequentially recruit TFIIH, XPA, RPA, XPG and XPF repair factors in an ATP-dependent manner. This RNA pol IIO/repair complex allows the ATP-dependent removal of the lesion only in the presence of CSB, while the latter does not promote dual incision in an XPC-dependent nucleotide excision repair reaction. In parallel to the dual incision, the repair factors also allow the partial release of RNA pol IIO. In this 'minimal TCR system', the RNA pol IIO can effectively act as a loading point for all the repair factors required to eliminate a transcription-blocking lesion. | 16407975
|
The comings and goings of nucleotide excision repair factors on damaged DNA. Riedl, T; Hanaoka, F; Egly, JM The EMBO journal
22
5293-303
2003
显示摘要
To understand the mechanism of nucleotide excision repair (NER), one of the major human DNA repair pathways, we have set up a DNA repair system in which a linear damaged DNA substrate is immobilized by its terminus. By isolating functionally active intermediate complexes, our data dissect the ordered arrival and displacement of NER factors in the progress of the dual incision step. We describe (i) the role of ATP in remodelling the NER-initiating complex of XPC/TFIIH/damaged DNA as a prerequisite for the recruitment of the next NER factors; (ii) the coordination between damage removal and DNA resynthesis and the release of XPC-HR23B, TFIIH and XPA upon arrival of XPG and XPF-ERCC1, respectively; (iii) how RPA remains associated with the excised DNA initiating the assembly of resynthesis factors such as PCNA; (iv) the recycling of XPC-HR23B, TFIIH and XPA in the NER; and the shuttling of TFIIH between NER and transcription. Thus, our findings define multiple functions of NER factors to explain the molecular basis of human NER disorders. | 14517266
|