PLoS ONE (Jan 2012)

A spiroligomer α-helix mimic that binds HDM2, penetrates human cells and stabilizes HDM2 in cell culture.

  • Zachary Z Brown,
  • Kavitha Akula,
  • Alla Arzumanyan,
  • Jennifer Alleva,
  • Marcus Jackson,
  • Eugeney Bichenkov,
  • Joel B Sheffield,
  • Mark A Feitelson,
  • Christian E Schafmeister

DOI
https://doi.org/10.1371/journal.pone.0045948
Journal volume & issue
Vol. 7, no. 10
p. e45948

Abstract

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We demonstrate functionalized spiroligomers that mimic the HDM2-bound conformation of the p53 activation domain. Spiroligomers are stereochemically defined, functionalized, spirocyclic monomers coupled through pairs of amide bonds to create spiro-ladder oligomers. Two series of spiroligomers were synthesized, one of structural analogs and one of stereochemical analogs, from which we identified compound 1, that binds HDM2 with a Kd value of 400 nM. The spiroligomer 1 penetrates human liver cancer cells through passive diffusion and in a dose-dependent and time-dependent manner increases the levels of HDM2 more than 30-fold in Huh7 cells in which the p53/HDM2 negative feed-back loop is inoperative. This is a biological effect that is not seen with the HDM2 ligand nutlin-3a. We propose that compound 1 modulates the levels of HDM2 by stabilizing it to proteolysis, allowing it to accumulate in the absence of a p53/HDM2 feedback loop.