Computationally Empowered Workflow Identifies Novel Covalent Allosteric Binders for KRASG12C

被引:14
|
作者
Mortier, Jeremie [1 ]
Friberg, Anders [1 ]
Badock, Volker [1 ]
Moosmayer, Dieter [1 ]
Schroeder, Jens [1 ]
Steigemann, Patrick [1 ]
Siegel, Franziska [1 ]
Gradl, Stefan [1 ]
Bauser, Marcus [1 ]
Hillig, Roman C. [1 ]
Briem, Hans [1 ]
Eis, Knut [1 ]
Bader, Benjamin [1 ]
Nguyen, Duy [1 ]
Christ, Clara D. [1 ]
机构
[1] Bayer AG, Res & Dev, Pharmaceut, Mullerstr 178, D-13342 Berlin, Germany
来源
CHEMMEDCHEM | 2020年 / 15卷 / 10期
关键词
free-energy perturbation (FEP); KRAS; medicinal chemistry; molecular dynamics; virtual library design; DRUG DISCOVERY; RAS; DATABASE; PROTEIN; LIGAND;
D O I
10.1002/cmdc.201900727
中图分类号
R914 [药物化学];
学科分类号
100701 ;
摘要
Due to its frequent mutations in multiple lethal cancers, KRAS is one of the most-studied anticancer targets nowadays. Since the discovery of the druggable allosteric binding site containing a G12C mutation, KRAS(G12C) has been the focus of attention in oncology research. We report here a computationally driven approach aimed at identifying novel and selective KRAS(G12C) covalent inhibitors. The workflow involved initial enumeration of virtual molecules tailored for the KRAS allosteric binding site. Tools such as pharmacophore modeling, docking, and free-energy perturbations were deployed to prioritize the compounds with the best profiles. The synthesized naphthyridinone scaffold showed the ability to react with G12C and inhibit KRAS(G12C). Analogues were prepared to establish structure-activity relationships, while molecular dynamics simulations and crystallization of the inhibitor-KRAS(G12C) complex highlighted an unprecedented binding mode.
引用
收藏
页码:827 / 832
页数:6
相关论文
共 50 条
  • [1] Progress on Covalent Inhibition of KRASG12C
    Westover, Kenneth D.
    Jaenne, Pasi A.
    Gray, Nathanael S.
    CANCER DISCOVERY, 2016, 6 (03) : 233 - 234
  • [2] Discovery of AZD4625, a Covalent Allosteric Inhibitor of the MutantGTPase KRASG12C
    Kettle, Jason G.
    Bagal, Sharan K.
    Bickerton, Sue
    Bodnarchuk, Michael S.
    Boyd, Scott
    Breed, Jason
    Carbajo, Rodrigo J.
    Cassar, Doyle J.
    Chakraborty, Atanu
    Cosulich, Sabina
    Cumming, Iain
    Davies, Michael
    Davies, Nichola L.
    Eatherton, Andrew
    Evans, Laura
    Feron, Lyman
    Fillery, Shaun
    Gleave, Emma S.
    Goldberg, Frederick W.
    Hanson, Lyndsey
    Harlfinger, Stephanie
    Howard, Martin
    Howells, Rachel
    Jackson, Anne
    Kemmitt, Paul
    Lamont, Gillian
    Lamont, Scott
    Lewis, Hilary J.
    Liu, Libin
    Niedbala, Michael J.
    Phillips, Christopher
    Polanski, Radek
    Raubo, Piotr
    Robb, Graeme
    Robinson, David M.
    Ross, Sarah
    Sanders, Matthew G.
    Tonge, Michael
    Whiteley, Rebecca
    Wilkinson, Stephen
    Yang, Junsheng
    Zhang, Wenman
    JOURNAL OF MEDICINAL CHEMISTRY, 2022, 65 (09) : 6940 - 6952
  • [3] Chemical Proteomic Characterization of a Covalent KRASG12C Inhibitor
    Wijeratne, Aruna
    Xiao, Junpeng
    Reutter, Christopher
    Furness, Kelly W.
    Leon, Rebecca
    Zia-Ebrahimi, Mohammad
    Cavitt, Rachel N.
    Strelow, John M.
    Van Horn, Robert D.
    Peng, Sheng-Bin
    Barda, David A.
    Engler, Thomas A.
    Chalmers, Michael J.
    ACS MEDICINAL CHEMISTRY LETTERS, 2018, 9 (06): : 557 - 562
  • [4] Covalent fragment mapping of KRasG12C revealed novel chemotypes with in vivo potency
    Orgovan, Zoltan
    Peczka, Nikolett
    Petri, Laszlo
    Abranyi-Balogh, Peter
    Randelovic, Ivan
    Toth, Szilard
    Szakacs, Gergely
    Nyiri, Kinga
    Vertessy, Beata
    Palfy, Gyula
    Vida, Istvan
    Perczel, Andras
    Tovari, Jozsef
    Keseru, Gyorgy M.
    EUROPEAN JOURNAL OF MEDICINAL CHEMISTRY, 2023, 250
  • [5] Structure-Based Design and Pharmacokinetic Optimization of Covalent Allosteric Inhibitors of the Mutant GTPase KRASG12C
    Kettle, Jason G.
    Bagal, Sharan K.
    Bickerton, Sue
    Bodnarchuk, Michael S.
    Breed, Jason
    Carbajo, Rodrigo J.
    Cassar, Doyle J.
    Chakraborty, Atanu
    Cosulich, Sabina
    Cumming, Iain
    Davies, Michael
    Eatherton, Andrew
    Evans, Laura
    Feron, Lyman
    Fillery, Shaun
    Gleave, Emma S.
    Goldberg, Frederick W.
    Harlfinger, Stephanie
    Hanson, Lyndsey
    Howard, Martin
    Howells, Rachel
    Jackson, Anne
    Kemmitt, Paul
    Kingston, Jennifer K.
    Lamont, Scott
    Lewis, Hilary J.
    Li, Songlei
    Liu, Libin
    Ogg, Derek
    Phillips, Christopher
    Polanski, Radek
    Robb, Graeme
    Robinson, David
    Ross, Sarah
    Smith, James M.
    Tonge, Michael
    Whiteley, Rebecca
    Yang, Junsheng
    Zhang, Longfei
    Zhao, Xiliang
    JOURNAL OF MEDICINAL CHEMISTRY, 2020, 63 (09) : 4468 - 4483
  • [6] Unlocked groove-developing covalent inhibitors of KRASG12C
    Lipford, J. Russell
    Cee, Victor
    Lanman, Brian
    Saiki, Anne
    Rex, Karen
    Volak, Laurie
    Shimanovich, Roman
    Hinkle, Beth
    MOLECULAR CANCER RESEARCH, 2020, 18 (05) : 24 - 25
  • [7] Covalent inhibitors of the GTPase KRASG12C: a review of the patent literature
    Kettle, Jason G.
    Cassar, Doyle J.
    EXPERT OPINION ON THERAPEUTIC PATENTS, 2020, 30 (02) : 103 - 120
  • [8] Evaluation of KRASG12C inhibitor responses in novel murine KRASG12C lung cancer cell line models
    Sisler, Daniel J.
    Hinz, Trista K.
    Le, Anh T.
    Kleczko, Emily K.
    Nemenoff, Raphael A.
    Heasley, Lynn E.
    FRONTIERS IN ONCOLOGY, 2023, 13
  • [9] The reactivity-driven biochemical mechanism of covalent KRASG12C inhibitors
    Rasmus Hansen
    Ulf Peters
    Anjali Babbar
    Yuching Chen
    Jun Feng
    Matthew R. Janes
    Lian-Sheng Li
    Pingda Ren
    Yi Liu
    Patrick P. Zarrinkar
    Nature Structural & Molecular Biology, 2018, 25 : 454 - 462
  • [10] The reactivity-driven biochemical mechanism of covalent KRASG12C inhibitors
    Hansen, Rasmus
    Peters, Uif
    Babbar, Anjali
    Chen, Yuching
    Feng, Jun
    Janes, Matthew R.
    Li, Lian-Sheng
    Ren, Pingda
    Liu, Yi
    Zarrinkar, Patrick P.
    NATURE STRUCTURAL & MOLECULAR BIOLOGY, 2018, 25 (06) : 454 - +
12345