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Mechanism of activating mutations and allosteric drug inhibition of the phosphatase SHP2

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Listed:
  • Ricardo A. P. Pádua

    (Brandeis University)

  • Yizhi Sun

    (Brandeis University
    Dana-Farber Cancer Institute and Harvard Medical School)

  • Ingrid Marko

    (Brandeis University)

  • Warintra Pitsawong

    (Brandeis University)

  • John B. Stiller

    (Brandeis University)

  • Renee Otten

    (Brandeis University)

  • Dorothee Kern

    (Brandeis University)

Abstract

Protein tyrosine phosphatase SHP2 functions as a key regulator of cell cycle control, and activating mutations cause several cancers. Here, we dissect the energy landscape of wild-type SHP2 and the oncogenic mutation E76K. NMR spectroscopy and X-ray crystallography reveal that wild-type SHP2 exchanges between closed, inactive and open, active conformations. E76K mutation shifts this equilibrium toward the open state. The previously unknown open conformation is characterized, including the active-site WPD loop in the inward and outward conformations. Binding of the allosteric inhibitor SHP099 to E76K mutant, despite much weaker, results in an identical structure as the wild-type complex. A conformational selection to the closed state reduces drug affinity which, combined with E76K’s much higher activity, demands significantly greater SHP099 concentrations to restore wild-type activity levels. The differences in structural ensembles and drug-binding kinetics of cancer-associated SHP2 forms may stimulate innovative ideas for developing more potent inhibitors for activated SHP2 mutants.

Suggested Citation

  • Ricardo A. P. Pádua & Yizhi Sun & Ingrid Marko & Warintra Pitsawong & John B. Stiller & Renee Otten & Dorothee Kern, 2018. "Mechanism of activating mutations and allosteric drug inhibition of the phosphatase SHP2," Nature Communications, Nature, vol. 9(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06814-w
    DOI: 10.1038/s41467-018-06814-w
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