Hot-spot mimicry of a cytokine receptor by a small molecule

  1. Christopher D. Thanos*,,
  2. Warren L. DeLano*,, and
  3. James A. Wells*,§,
  1. *Sunesis Pharmaceuticals, 341 Oyster Point Boulevard, South San Francisco, CA 94080;
  2. Catalyst Biosciences, Inc., 290 Utah Avenue, South San Francisco, CA 94080;
  3. DeLano Scientific LLC, 400 Oyster Point Boulevard, Suite 213, South San Francisco, CA 94080; and
  4. §Departments of Pharmaceutical Chemistry and Cellular and Molecular Pharmacology, University of California, San Francisco, CA 94158

  1. Contributed by James A. Wells, August 14, 2006

Abstract

Protein–protein complexes remain enticing, but extremely challenging, targets for small-molecule drug discovery. In a rare example described earlier, a high-affinity small molecule, SP4206 (K d ≈ 70 nM), was found to block binding of the IL-2α receptor (IL-2Rα) to IL-2 (K d ≈ 10 nM). Recently, the structure of the IL-2/IL-2Rα complex was solved [Rickert, M., Wang, X., Boulanger, M. J., Goriatcheva, N., Garcia, K. C. (2005) Science 308:1477–1480]. Using structural and functional analysis, we compare how SP4206 mimics the 83-fold larger IL-2Rα in binding IL-2. The binding free energy per contact atom (ligand efficiency) for SP4206 is about twice that of the receptor because of a smaller, but overlapping, contact epitope that insinuates into grooves and cavities not accessed by the receptor. Despite its independent design, the small molecule has a similar, but more localized, charge distribution compared with IL-2Rα. Mutational studies show that SP4206 targets virtually the same critical “hot-spot” residues on IL-2 that drive binding of IL-2Rα. Moreover, a mutation that enhances binding to the IL-2Rα near these hot spots also enhances binding to SP4206. Although the protein and small molecule do bind the same hot spot, they trap very different conformations of IL-2 because of its flexible nature. Our studies suggest that precise structural mimics of receptors are not required for high-affinity binding of small molecules, and they show that there are multiple solutions to tight binding at shared and adaptive hot spots.

Footnotes

  • To whom correspondence should be addressed. E-mail: jim.wells{at}ucsf.edu

  • Author contributions: C.D.T. and J.A.W. designed research; C.D.T. performed research; C.D.T. contributed new reagents/analytic tools; C.D.T., W.L.D., and J.A.W. analyzed data; and C.D.T., W.L.D., and J.A.W. wrote the paper.

  • The authors declare no conflict of interest.

  • Data deposition: The atomic coordinates and structure factors corresponding to the crystal structure of SP4160 bound to IL-2 V69A have been deposited in the Protein Data Bank, www.pdb.org (PDB ID code 1QVN).

  • Abbreviation:
    IL-2Rα,
    IL-2α receptor.

  • Freely available online through the PNAS open access option.

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  1. Published online before print October 10, 2006, doi: 10.1073/pnas.0607058103 PNAS October 17, 2006 vol. 103 no. 42 15422-15427
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