Dynamic Covalent Identification of an Efficient Heparin Ligand

Despite heparin being the most widely used macromolecular drug, the design of small‐molecule ligands to modulate its effects has been hampered by the structural properties of this polyanionic polysaccharide. Now a dynamic covalent selection approach is used to identify a new ligand for heparin, asse...

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Veröffentlicht in:	Angewandte Chemie International Edition 2018-09, Vol.57 (37), p.11973-11977
Hauptverfasser:	Corredor, Miriam, Carbajo, Daniel, Domingo, Cecilia, Pérez, Yolanda, Bujons, Jordi, Messeguer, Angel, Alfonso, Ignacio
Format:	Artikel
Sprache:	eng
Schlagworte:	Anticoagulants Blood coagulation Cascade chemical reactions Covalence Drug development dynamic covalent chemistry Glycosaminoglycans Heparin Hydrogen bonding Ligands Macromolecules Modulators Molecular modelling molecular recognition NMR Nuclear magnetic resonance Organic chemistry Polysaccharides supramolecular chemistry
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container_title	Angewandte Chemie International Edition
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creator	Corredor, Miriam Carbajo, Daniel Domingo, Cecilia Pérez, Yolanda Bujons, Jordi Messeguer, Angel Alfonso, Ignacio
description	Despite heparin being the most widely used macromolecular drug, the design of small‐molecule ligands to modulate its effects has been hampered by the structural properties of this polyanionic polysaccharide. Now a dynamic covalent selection approach is used to identify a new ligand for heparin, assembled from extremely simple building blocks. The amplified molecule strongly binds to heparin (KD in the low μm range, ITC) by a combination of electrostatic, hydrogen bonding, and CH–π interactions as shown by NMR and molecular modeling. Moreover, this ligand reverts the inhibitory effect of heparin within an enzymatic cascade reaction related to blood coagulation. This study demonstrates the power of dynamic covalent chemistry for the discovery of new modulators of biologically relevant glycosaminoglycans. A dynamic covalent chemistry approach leads to the identification of an efficient ligand for heparin, which strongly binds and inhibits this anionic polysaccharide. The simple and modular method could be easily applied to other glycosaminoglycans.
doi_str_mv	10.1002/anie.201806770
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subjects	Anticoagulants Blood coagulation Cascade chemical reactions Covalence Drug development dynamic covalent chemistry Glycosaminoglycans Heparin Hydrogen bonding Ligands Macromolecules Modulators Molecular modelling molecular recognition NMR Nuclear magnetic resonance Organic chemistry Polysaccharides supramolecular chemistry
title	Dynamic Covalent Identification of an Efficient Heparin Ligand
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