A protein-targeting strategy used to develop a selective inhibitor of the E17K point mutation in the PH domain of Akt1

Abstract

Ligands that can bind selectively to proteins with single amino-acid point mutations offer the potential to detect or treat an abnormal protein in the presence of the wild type (WT). However, it is difficult to develop a selective ligand if the point mutation is not associated with an addressable location, such as a binding pocket. Here we report an all-chemical synthetic epitope-targeting strategy that we used to discover a 5-mer peptide with selectivity for the E17K-transforming point mutation in the pleckstrin homology domain of the Akt1 oncoprotein. A fragment of Akt1 that contained the E17K mutation and an I19[propargylglycine] substitution was synthesized to form an addressable synthetic epitope. Azide-presenting peptides that clicked covalently onto this alkyne-presenting epitope were selected from a library using in situ screening. One peptide exhibits a 10:1 in vitro selectivity for the oncoprotein relative to the WT, with a similar selectivity in cells. This 5-mer peptide was expanded into a larger ligand that selectively blocks the E17K Akt1 interaction with its PIP3 (phosphatidylinositol (3,4,5)-trisphosphate) substrate.

ICB Affiliated Authors

Authors
K. M. Deyle, B. Farrow, Y. Q. Hee, J. Work, M. Wong, B. Lai, A. Umeda, S. W. Millward, A. Nag, Samir Das, and J. R. Heath
Date
Type
Peer-Reviewed Article
Journal
Nature Chemistry
Volume
7
Pages
455–462
Emblems