Abstract
The design of potent and specific peptide inhibitors to therapeutic targets is of enormous utility for both proof-of-concept studies and for the development of potential new therapeutics. Grb7 is a key signaling molecule in the progression of HER2 positive and triple negative breast cancers. Here we report the crystal structure of a stapled bicyclic peptide inhibitor G7-B1 in complex with the Grb7-SH2 domain. This revealed an unexpected binding mode of the peptide, in which the staple forms an alternative contact with the surface of the target protein. Based on this structural information, we designed a new series of bicyclic G7 peptides that progressively constrain the starting peptide, to arrive at the G7-B4 peptide that binds with an approximately 2-fold enhanced affinity to the Grb7-SH2 domain (KD = 0.83 μM) compared to G7-B1 and shows low affinity binding to Grb2-, Grb10- and Grb14-SH2 domains (KD > 100 μM). Furthermore, we determined the structure of the G7-B4 bicyclic peptide in complex with the Grb7-SH2 domain, both before and after ring closing metathesis to show that the closed staple is essential to the target interaction. The G7-B4 peptide represents an advance in the development of Grb7 inhibitors and is a classical example of structure aided inhibitor development.
Highlights
Mig-10 that is involved in cellular migration[9,10]
Crystal structure of the Grb7-SH2/G7-B1 complex reveals the involvement of the staple
We have previously shown that the cyclic peptide G7-18NATE has a 2–3 fold improved affinity for the Grb7-SH2 domain when modified to incorporate an O-allylserine derived staple between residues 1 and 829
Summary
Mig-10 that is involved in cellular migration[9,10]. It has been shown that overexpression of Grb[7] enhances cell migration, while inhibition of Grb[7] lowers the migratory potential of cells and is linked with metastatic spread of cancer cells[11]. We report the crystal structure of G7-B1 in complex with Grb7-SH2 domain, revealing an unanticipated mode of binding involving interactions between the staple and Grb7-SH2 domain. This finding was used to subsequently design increasingly constrained derivatives of G7-B1. We have solved the structure of the G7-B4 peptide in complex with Grb7-SH2 domain, both before and after ring closure metathesis, to show that the staple is essential to the target interaction These studies establish the structural basis of binding by a new peptide lead and demonstrate the importance of structural insight to the process of inhibitor development
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