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Biomimetic Macrocyclic Inhibitors of Human Cathepsin D: Structure–Activity Relationship and Binding Mode Analysis

Radka Houštecká, Martin Hadzima, Jindřich Fanfrlík, J. Brynda, Lenka Pallova, Iva Hánová, Helena Mertlíková‐Kaiserová, Martin Lepšı́k, Martin Horn, Martin Smrčina, Pavel Majer, Michael A. Mares

2020Journal of Medicinal Chemistry25 citationsDOIOpen Access PDF

Abstract

Human cathepsin D (CatD), a pepsin-family aspartic protease, plays an important role in tumor progression and metastasis. Here, we report the development of biomimetic inhibitors of CatD as novel tools for regulation of this therapeutic target. We designed a macrocyclic scaffold to mimic the spatial conformation of the minimal pseudo-dipeptide binding motif of pepstatin A, a microbial oligopeptide inhibitor, in the CatD active site. A library of more than 30 macrocyclic peptidomimetic inhibitors was employed for scaffold optimization, mapping of subsite interactions, and profiling of inhibitor selectivity. Furthermore, we solved high-resolution crystal structures of three macrocyclic inhibitors with low nanomolar or subnanomolar potency in complex with CatD and determined their binding mode using quantum chemical calculations. The study provides a new structural template and functional profile that can be exploited for design of potential chemotherapeutics that specifically inhibit CatD and related aspartic proteases.

Topics & Concepts

ChemistryPeptidomimeticPepstatinDipeptideCathepsin DOligopeptideBiochemistryMolecular modelStereochemistryCathepsinCyclic peptideStructure–activity relationshipBinding selectivityPeptideProteaseEnzymeCombinatorial chemistryIn vitroPeptidase Inhibition and AnalysisChemical Synthesis and AnalysisBiochemical and Structural Characterization
Biomimetic Macrocyclic Inhibitors of Human Cathepsin D: Structure–Activity Relationship and Binding Mode Analysis | Litcius