Journal of Nucleic Acids (Jan 2010)

Parameters of Reserpine Analogs That Induce MSH2/MSH6-Dependent Cytotoxic Response

  • Aksana Vasilyeva,
  • Jill E. Clodfelter,
  • Michael J. Gorczynski,
  • Anthony R. Gerardi,
  • S. Bruce King,
  • Freddie Salsbury,
  • Karin D. Scarpinato

DOI
https://doi.org/10.4061/2010/162018
Journal volume & issue
Vol. 2010

Abstract

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Mismatch repair proteins modulate the cytotoxicity of several chemotherapeutic agents. We have recently proposed a “death conformation” of the MutS homologous proteins that is distinguishable from their “repair conformation.” This conformation can be induced by a small molecule, reserpine, leading to DNA-independent cell death. We investigated the parameters for a small reserpine-like molecule that are required to interact with MSH2/MSH6 to induce MSH2/MSH6-dependent cytotoxic response. A multidisciplinary approach involving structural modeling, chemical synthesis, and cell biology analyzed reserpine analogs and modifications. We demonstrate that the parameters controlling the induction of MSH2/MSH6-dependent cytotoxicity for reserpine-analogous molecules reside in the specific requirements for methoxy groups, the size of the molecule, and the orientation of molecules within the protein-binding pocket. Reserpine analog rescinnamine showed improved MSH2-dependent cytotoxicity. These results have important implications for the identification of compounds that require functional MMR proteins to exhibit their full cytotoxicity, which will avoid resistance in MMR-deficient cells.