Crystal structure of JAK2 JH1 with type II inhibitor YLIU-04-105-1

  • Matthew L. Arwood (Ann & Robert H. Lurie Children's Hospital of Chicago) (Creator)
  • Yao Liu (Dana-Farber Cancer Institute) (Creator)
  • Shannon K. Harkins (Dana-Farber Cancer Institute) (Creator)
  • David M. Weinstock (Dana-Farber Cancer Institute, Broad Institute, Harvard Medical School) (Creator)
  • Lei Yang (Dana-Farber Cancer Institute) (Creator)
  • Kristen E. Stevenson (Dana-Farber Cancer Institute) (Creator)
  • Olivia D. Plana (Dana-Farber Cancer Institute) (Creator)
  • Jingyun Dong (NYU Grossman School of Medicine) (Creator)
  • Haley Cirka (Dana-Farber Cancer Institute) (Creator)
  • Kristen L. Jones (Dana-Farber Cancer Institute) (Creator)
  • Anniina Virtanen (Creator)
  • Dikshat G. Gupta (Lurie Children’s Hospital) (Creator)
  • Amanda Ceas (Lurie Children’s Hospital) (Creator)
  • Brian Lawney (Dana-Farber Cancer Institute) (Creator)
  • Akinori Yoda (Dana-Farber Cancer Institute) (Creator)
  • Catharine Leahy (Dana-Farber Cancer Institute) (Creator)
  • Mingfeng Hao (Dana-Farber Cancer Institute) (Creator)
  • Zhixiang He (Dana-Farber Cancer Institute) (Creator)
  • Hwan Geun Choi (Dana-Farber Cancer Institute) (Creator)
  • Yaning Wang (Stanford Cancer Institute) (Creator)
  • Olli Silvennoinen (Creator)
  • Stevan R. Hubbard (Creator)
  • Tinghu Zhang (Stanford Cancer Institute) (Creator)
  • Nathanael S. Gray (Stanford Cancer Institute) (Creator)
  • Loretta S. Li (Northwestern University Feinberg School of Medicine, Lurie Children’s Hospital) (Creator)

    Tietoaineisto

    Kuvaus

    Recurrent JAK2 alterations are observed in myeloproliferative neoplasms, B-cell acute lymphoblastic leukemia, and other hematologic malignancies. Currently available type I JAK2 inhibitors have limited activity in these diseases. Preclinical data support the improved efficacy of type II JAK2 inhibitors, which lock the kinase in the inactive conformation. By screening small molecule libraries, we identified a lead compound with JAK2 selectivity. We highlight analogs with on-target biochemical and cellular activity and demonstrate in vivo activity using a mouse model of polycythemia vera. We present a co-crystal structure that confirms the type II binding mode of our compounds with the “DFG-out” conformation of the JAK2 activation loop. Finally, we identify a JAK2 G993A mutation that confers resistance to the type II JAK2 inhibitor CHZ868 but not to our analogs. These data provide a template for identifying novel type II kinase inhibitors and inform further development of agents targeting JAK2 that overcome resistance.
    Koska saatavilla21 kesäk. 2023
    JulkaisijaProtein Data Bank (PDB)

    Rahoitus

    RahoittajatRahoittajan numero
    Ann & Robert H. Lurie Children’s Hospital of Chicago
    Foundation for Childhood Cancer Research
    Pirkanmaa Hospital District Competitive Research Funding
    Stanley Manne Children’s Research Institute
    Strike 3 Foundation
    American Cancer Society
    National Cancer Institute
    Prostate Cancer Foundation
    Damon Runyon Cancer Research Foundation
    CureSearch for Children's Cancer
    Academy of Finland
    Jane ja Aatos Erkon Säätiö
    Sigrid Juséliuksen Säätiö
    Tampereen tuberkuloosisäätiö
    Syöpäsäätiö

      Field of science, Statistics Finland

      • 3111 Biolääketieteet
      • 1182 Biokemia, solu- ja molekyylibiologia

      • New scaffolds for type II JAK2 inhibitors overcome the acquired G993A resistance mutation

        Arwood, M. L., Liu, Y., Harkins, S. K., Weinstock, D. M., Yang, L., Stevenson, K. E., Plana, O. D., Dong, J., Cirka, H., Jones, K. L., Virtanen, A. T., Gupta, D. G., Ceas, A., Lawney, B., Yoda, A., Leahy, C., Hao, M., He, Z., Choi, H. G. & Wang, Y. & 5 muuta, Silvennoinen, O., Hubbard, S. R., Zhang, T., Gray, N. S. & Li, L. S., 15 kesäk. 2023, julkaisussa: Cell chemical biology. 30, 6, s. 618-631.e12

        Tutkimustuotos: ArtikkeliTieteellinenvertaisarvioitu

        3 Sitaatiot (Scopus)

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