Literature DB >> 28965760

Chemical Proteomics Identifies Druggable Vulnerabilities in a Genetically Defined Cancer.

Liron Bar-Peled1, Esther K Kemper2, Radu M Suciu2, Ekaterina V Vinogradova2, Keriann M Backus2, Benjamin D Horning2, Thomas A Paul3, Taka-Aki Ichu2, Robert U Svensson4, Jose Olucha2, Max W Chang5, Bernard P Kok2, Zhou Zhu3, Nathan T Ihle3, Melissa M Dix2, Ping Jiang3, Matthew M Hayward3, Enrique Saez2, Reuben J Shaw4, Benjamin F Cravatt6.   

Abstract

The transcription factor NRF2 is a master regulator of the cellular antioxidant response, and it is often genetically activated in non-small-cell lung cancers (NSCLCs) by, for instance, mutations in the negative regulator KEAP1. While direct pharmacological inhibition of NRF2 has proven challenging, its aberrant activation rewires biochemical networks in cancer cells that may create special vulnerabilities. Here, we use chemical proteomics to map druggable proteins that are selectively expressed in KEAP1-mutant NSCLC cells. Principal among these is NR0B1, an atypical orphan nuclear receptor that we show engages in a multimeric protein complex to regulate the transcriptional output of KEAP1-mutant NSCLC cells. We further identify small molecules that covalently target a conserved cysteine within the NR0B1 protein interaction domain, and we demonstrate that these compounds disrupt NR0B1 complexes and impair the anchorage-independent growth of KEAP1-mutant cancer cells. Our findings designate NR0B1 as a druggable transcriptional regulator that supports NRF2-dependent lung cancers.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  KEAP1; NR0B1; NRF2; activity-based profiling; chemical proteomics; covalent; fragment; lung cancer; mass spectrometry

Mesh:

Substances:

Year:  2017        PMID: 28965760      PMCID: PMC5728659          DOI: 10.1016/j.cell.2017.08.051

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  56 in total

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4.  Recurrent Loss of NFE2L2 Exon 2 Is a Mechanism for Nrf2 Pathway Activation in Human Cancers.

Authors:  Leonard D Goldstein; James Lee; Florian Gnad; Christiaan Klijn; Annalisa Schaub; Jens Reeder; Anneleen Daemen; Corey E Bakalarski; Thomas Holcomb; David S Shames; Ryan J Hartmaier; Juliann Chmielecki; Somasekar Seshagiri; Robert Gentleman; David Stokoe
Journal:  Cell Rep       Date:  2016-08-25       Impact factor: 9.423

5.  EWS/FLI and its downstream target NR0B1 interact directly to modulate transcription and oncogenesis in Ewing's sarcoma.

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6.  Discovery of N-((3R,4R)-4-Fluoro-1-(6-((3-methoxy-1-methyl-1H-pyrazol-4-yl)amino)-9-methyl-9H-purin-2-yl)pyrrolidine-3-yl)acrylamide (PF-06747775) through Structure-Based Drug Design: A High Affinity Irreversible Inhibitor Targeting Oncogenic EGFR Mutants with Selectivity over Wild-Type EGFR.

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Journal:  J Med Chem       Date:  2017-03-29       Impact factor: 7.446

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8.  The structure of corepressor Dax-1 bound to its target nuclear receptor LRH-1.

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9.  Nox2 redox signaling maintains essential cell populations in the brain.

Authors:  Bryan C Dickinson; Joseph Peltier; Daniel Stone; David V Schaffer; Christopher J Chang
Journal:  Nat Chem Biol       Date:  2010-12-26       Impact factor: 15.040

10.  Functional genomics reveal that the serine synthesis pathway is essential in breast cancer.

Authors:  Richard Possemato; Kevin M Marks; Yoav D Shaul; Michael E Pacold; Dohoon Kim; Kıvanç Birsoy; Shalini Sethumadhavan; Hin-Koon Woo; Hyun G Jang; Abhishek K Jha; Walter W Chen; Francesca G Barrett; Nicolas Stransky; Zhi-Yang Tsun; Glenn S Cowley; Jordi Barretina; Nada Y Kalaany; Peggy P Hsu; Kathleen Ottina; Albert M Chan; Bingbing Yuan; Levi A Garraway; David E Root; Mari Mino-Kenudson; Elena F Brachtel; Edward M Driggers; David M Sabatini
Journal:  Nature       Date:  2011-08-18       Impact factor: 49.962
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  66 in total

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2.  Tracking Pathogen Infections by Time-Resolved Chemical Proteomics.

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3.  The Proteome-Wide Potential for Reversible Covalency at Cysteine.

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Review 4.  Redox Systems Biology: Harnessing the Sentinels of the Cysteine Redoxome.

Authors:  Jason M Held
Journal:  Antioxid Redox Signal       Date:  2019-09-09       Impact factor: 8.401

Review 5.  Reactive-cysteine profiling for drug discovery.

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Journal:  Curr Opin Chem Biol       Date:  2019-03-18       Impact factor: 8.822

6.  Bioengineering of a single long noncoding RNA molecule that carries multiple small RNAs.

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Journal:  Appl Microbiol Biotechnol       Date:  2019-06-11       Impact factor: 4.813

7.  Heterogeneous adaptation of cysteine reactivity to a covalent oncometabolite.

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8.  An Activity-Guided Map of Electrophile-Cysteine Interactions in Primary Human T Cells.

Authors:  Ekaterina V Vinogradova; Xiaoyu Zhang; David Remillard; Daniel C Lazar; Radu M Suciu; Yujia Wang; Giulia Bianco; Yu Yamashita; Vincent M Crowley; Michael A Schafroth; Minoru Yokoyama; David B Konrad; Kenneth M Lum; Gabriel M Simon; Esther K Kemper; Michael R Lazear; Sifei Yin; Megan M Blewett; Melissa M Dix; Nhan Nguyen; Maxim N Shokhirev; Emily N Chin; Luke L Lairson; Bruno Melillo; Stuart L Schreiber; Stefano Forli; John R Teijaro; Benjamin F Cravatt
Journal:  Cell       Date:  2020-07-29       Impact factor: 41.582

Review 9.  Targeted therapy of esophageal squamous cell carcinoma: the NRF2 signaling pathway as target.

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Review 10.  Redox Signaling by Reactive Electrophiles and Oxidants.

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