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Molecular basis of USP7 inhibition by selective small-molecule inhibitors.
Turnbull, Andrew P; Ioannidis, Stephanos; Krajewski, Wojciech W; Pinto-Fernandez, Adan; Heride, Claire; Martin, Agnes C L; Tonkin, Louise M; Townsend, Elizabeth C; Buker, Shane M; Lancia, David R; Caravella, Justin A; Toms, Angela V; Charlton, Thomas M; Lahdenranta, Johanna; Wilker, Erik; Follows, Bruce C; Evans, Nicola J; Stead, Lucy; Alli, Cristina; Zarayskiy, Vladislav V; Talbot, Adam C; Buckmelter, Alexandre J; Wang, Minghua; McKinnon, Crystal L; Saab, Fabienne; McGouran, Joanna F; Century, Hannah; Gersch, Malte; Pittman, Marc S; Marshall, C Gary; Raynham, Tony M; Simcox, Mary; Stewart, Lorna M D; McLoughlin, Sheila B; Escobedo, Jaime A; Bair, Kenneth W; Dinsmore, Christopher J; Hammonds, Tim R; Kim, Sunkyu; Urbé, Sylvie; Clague, Michael J; Kessler, Benedikt M; Komander, David.
Afiliación
  • Turnbull AP; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • Ioannidis S; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Krajewski WW; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • Pinto-Fernandez A; Target Discovery Institute, Nuffield Department of Medicine, University of Oxford, Roosevelt Drive, Oxford OX3 7FZ, UK.
  • Heride C; Cellular and Molecular Physiology, Institute of Translational Medicine, University of Liverpool, Crown Street, Liverpool L69 3BX, UK.
  • Martin ACL; CRUK Therapeutic Discovery Laboratories, Jonas Webb Building, Babraham Research Campus, Cambridge CB22 3AT, UK.
  • Tonkin LM; CRUK Therapeutic Discovery Laboratories, Jonas Webb Building, Babraham Research Campus, Cambridge CB22 3AT, UK.
  • Townsend EC; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Buker SM; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Lancia DR; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Caravella JA; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Toms AV; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Charlton TM; Target Discovery Institute, Nuffield Department of Medicine, University of Oxford, Roosevelt Drive, Oxford OX3 7FZ, UK.
  • Lahdenranta J; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Wilker E; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Follows BC; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Evans NJ; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • Stead L; Cellular and Molecular Physiology, Institute of Translational Medicine, University of Liverpool, Crown Street, Liverpool L69 3BX, UK.
  • Alli C; CRUK Therapeutic Discovery Laboratories, Jonas Webb Building, Babraham Research Campus, Cambridge CB22 3AT, UK.
  • Zarayskiy VV; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Talbot AC; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Buckmelter AJ; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Wang M; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • McKinnon CL; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Saab F; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • McGouran JF; Target Discovery Institute, Nuffield Department of Medicine, University of Oxford, Roosevelt Drive, Oxford OX3 7FZ, UK.
  • Century H; Target Discovery Institute, Nuffield Department of Medicine, University of Oxford, Roosevelt Drive, Oxford OX3 7FZ, UK.
  • Gersch M; Medical Research Council Laboratory of Molecular Biology, Francis Crick Avenue, Cambridge CB2 0QH, UK.
  • Pittman MS; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • Marshall CG; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Raynham TM; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • Simcox M; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Stewart LMD; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • McLoughlin SB; CRUK Therapeutic Discovery Laboratories, Jonas Webb Building, Babraham Research Campus, Cambridge CB22 3AT, UK.
  • Escobedo JA; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Bair KW; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Dinsmore CJ; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Hammonds TR; CRUK Therapeutic Discovery Laboratories, London Bioscience Innovation Centre, London NW1 0NH, UK.
  • Kim S; FORMA Therapeutics, Arsenal Street, Watertown, Massachusetts 02472, USA.
  • Urbé S; Cellular and Molecular Physiology, Institute of Translational Medicine, University of Liverpool, Crown Street, Liverpool L69 3BX, UK.
  • Clague MJ; Cellular and Molecular Physiology, Institute of Translational Medicine, University of Liverpool, Crown Street, Liverpool L69 3BX, UK.
  • Kessler BM; Target Discovery Institute, Nuffield Department of Medicine, University of Oxford, Roosevelt Drive, Oxford OX3 7FZ, UK.
  • Komander D; Medical Research Council Laboratory of Molecular Biology, Francis Crick Avenue, Cambridge CB2 0QH, UK.
Nature ; 550(7677): 481-486, 2017 10 26.
Article en En | MEDLINE | ID: mdl-29045389
ABSTRACT
Ubiquitination controls the stability of most cellular proteins, and its deregulation contributes to human diseases including cancer. Deubiquitinases remove ubiquitin from proteins, and their inhibition can induce the degradation of selected proteins, potentially including otherwise 'undruggable' targets. For example, the inhibition of ubiquitin-specific protease 7 (USP7) results in the degradation of the oncogenic E3 ligase MDM2, and leads to re-activation of the tumour suppressor p53 in various cancers. Here we report that two compounds, FT671 and FT827, inhibit USP7 with high affinity and specificity in vitro and within human cells. Co-crystal structures reveal that both compounds target a dynamic pocket near the catalytic centre of the auto-inhibited apo form of USP7, which differs from other USP deubiquitinases. Consistent with USP7 target engagement in cells, FT671 destabilizes USP7 substrates including MDM2, increases levels of p53, and results in the transcription of p53 target genes, induction of the tumour suppressor p21, and inhibition of tumour growth in mice.
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Texto completo: 1 Base de datos: MEDLINE Asunto principal: Piperidinas / Pirazoles / Pirimidinas / Peptidasa Específica de Ubiquitina 7 Idioma: En Revista: Nature Año: 2017 Tipo del documento: Article
Texto completo
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XML
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Texto completo: 1 Base de datos: MEDLINE Asunto principal: Piperidinas / Pirazoles / Pirimidinas / Peptidasa Específica de Ubiquitina 7 Idioma: En Revista: Nature Año: 2017 Tipo del documento: Article