Design, Solid-phase Synthesis, and Evaluation of a Phenyl-piperazine-triazine Scaffold As α-helix Mimetics

Overview

Journal ACS Comb Sci

Publisher American Chemical Society

Specialty Chemistry

Date 2014 Oct 23

PMID 25336412

Citations 12

Authors

Heejo Moon

Woo Sirl Lee

Misook Oh

Huisun Lee

Ji Hoon Lee

Wonpil Im

Hyun-Suk Lim

Affiliations

Soon will be listed here.

Abstract

α-Helices play a critical role in mediating many protein-protein interactions (PPIs) as recognition motifs. Therefore, there is a considerable interest in developing small molecules that can mimic helical peptide segments to modulate α-helix-mediated PPIs. Due to the relatively low aqueous solubility and synthetic difficulty of most current α-helix mimetic small molecules, one important goal in this area is to develop small molecules with favorable physicochemical properties and ease of synthesis. Here we designed phenyl-piperazine-triazine-based α-helix mimetics that possess improved water solubility and excellent synthetic accessibility. We developed a facile solid-phase synthetic route that allows for rapid creation of a large, diverse combinatorial library of α-helix mimetics. Further, we identified a selective inhibitor of the Mcl-1/BH3 interaction by screening a focused library of phenyl-piperazine-triazines, demonstrating that the scaffold is able to serve as functional mimetics of α-helical peptides. We believe that our phenyl-piperazine-triazine-based α-helix mimetics, along with the facile and divergent solid-phase synthetic method, have great potential as powerful tools for discovering potent inhibitors of given α-helix-mediated PPIs.

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