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Spironolactone-induced XPB degradation depends on CDK7 kinase and SCFFBXL18 E3 ligase.

Genes to cells : devoted to molecular & cellular mechanisms (2019-02-15)
Masanobu Ueda, Kenkyo Matsuura, Hidehiko Kawai, Mitsuo Wakasugi, Tsukasa Matsunaga
RÉSUMÉ

The multisubunit complex transcription factor IIH (TFIIH) has dual functions in transcriptional initiation and nucleotide excision repair (NER). TFIIH is comprised of two subcomplexes, the core subcomplex (seven subunits) including XPB and XPD helicases and the cyclin-dependent kinase (CDK)-activating kinase (CAK) subcomplex (three subunits) containing CDK7 kinase. Recently, it has been reported that spironolactone, an anti-aldosterone drug, inhibits cellular NER by inducing proteasomal degradation of XPB and potentiates the cytotoxicity of platinum-based drugs in cancer cells, suggesting possible drug repositioning. In this study, we have tried to uncover the mechanism underlying the chemical-induced XPB destabilization. Based on siRNA library screening and subsequent analyses, we identified SCFFBXL18 E3 ligase consisting of Skp1, Cul1, F-box protein FBXL18 and Rbx1 responsible for spironolactone-induced XPB polyubiquitination and degradation. In addition, we showed that CDK7 kinase activity is required for this process. Finally, we found that the Ser90 residue of XPB is essential for the chemical-induced destabilization. These results led us to propose a model that spironolactone may trigger the phosphorylation of XPB at Ser90 by CDK7, which promotes the recognition and polyubiquitination of XPB by SCFFBXL18 for proteasomal degradation.

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Sigma-Aldrich
Anticorps anti-phosphosérine, clone 4A4 (IgG1 de souris), clone 4A4, Upstate®, from mouse
Sigma-Aldrich
Anti-XPB Antibody, clone 15TF2-1B3, ascites fluid, clone 15TF2-1B3, from mouse