Designed Nanomolar Small-molecule Inhibitors of Ena/VASP EVH1 Interaction Impair Invasion and Extravasation of Breast Cancer Cells

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2020 Nov 13

PMID 33184177

Citations 16

Authors

Matthias Barone

Matthias Muller

Slim Chiha

Jiang Ren

Dominik Albat

Arne Soicke

Stephan Dohmen

Marco Klein

Judith Bruns

Maarten van Dinther

Robert Opitz

Peter Lindemann

Monika Beerbaum

Kathrin Motzny

Yvette Roske

Peter Schmieder

Rudolf Volkmer

Marc Nazare

Udo Heinemann

Hartmut Oschkinat

Peter Ten Dijke

Hans-Gunther Schmalz

Ronald Kuhne

Affiliations

Soon will be listed here.

Abstract

Battling metastasis through inhibition of cell motility is considered a promising approach to support cancer therapies. In this context, Ena/VASP-depending signaling pathways, in particular interactions with their EVH1 domains, are promising targets for pharmaceutical intervention. However, protein-protein interactions involving proline-rich segments are notoriously difficult to address by small molecules. Hence, structure-based design efforts in combination with the chemical synthesis of additional molecular entities are required. Building on a previously developed nonpeptidic micromolar inhibitor, we determined 22 crystal structures of ENAH EVH1 in complex with inhibitors and rationally extended our library of conformationally defined proline-derived modules (ProMs) to succeed in developing a nanomolar inhibitor ([Formula: see text] Da). In contrast to the previous inhibitor, the optimized compounds reduced extravasation of invasive breast cancer cells in a zebrafish model. This study represents an example of successful, structure-guided development of low molecular weight inhibitors specifically and selectively addressing a proline-rich sequence-recognizing domain that is characterized by a shallow epitope lacking defined binding pockets. The evolved high-affinity inhibitor may now serve as a tool in validating the basic therapeutic concept, i.e., the suppression of cancer metastasis by inhibiting a crucial protein-protein interaction involved in actin filament processing and cell migration.

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