PLoS Computational Biology (Apr 2019)

Integrated computational and Drosophila cancer model platform captures previously unappreciated chemicals perturbing a kinase network.

  • Peter M U Ung,
  • Masahiro Sonoshita,
  • Alex P Scopton,
  • Arvin C Dar,
  • Ross L Cagan,
  • Avner Schlessinger

DOI
https://doi.org/10.1371/journal.pcbi.1006878
Journal volume & issue
Vol. 15, no. 4
p. e1006878

Abstract

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Drosophila provides an inexpensive and quantitative platform for measuring whole animal drug response. A complementary approach is virtual screening, where chemical libraries can be efficiently screened against protein target(s). Here, we present a unique discovery platform integrating structure-based modeling with Drosophila biology and organic synthesis. We demonstrate this platform by developing chemicals targeting a Drosophila model of Medullary Thyroid Cancer (MTC) characterized by a transformation network activated by oncogenic dRetM955T. Structural models for kinases relevant to MTC were generated for virtual screening to identify unique preliminary hits that suppressed dRetM955T-induced transformation. We then combined features from our hits with those of known inhibitors to create a 'hybrid' molecule with improved suppression of dRetM955T transformation. Our platform provides a framework to efficiently explore novel kinase inhibitors outside of explored inhibitor chemical space that are effective in inhibiting cancer networks while minimizing whole body toxicity.