Coumarins as factor XIIa inhibitors: Potency and selectivity improvements using a fragment-based strategy
Research article published in European journal of medicinal chemistry (2023)
Abstract
Previously, we described weak coumarin inhibitors of factor XIIa, a promising target for artificial surface-induced thrombosis and various inflammatory diseases. In this work, we used fragment-based drug discovery approach to improve our coumarin series. First, we screened about 200 fragments for the S1 pocket. The S1 pocket of trypsin-like serine proteases, such as factor XIIa, is highly conserved and is known to drive a major part of the association energy. From the screening, we selected fragments displaying a micromolar activity and studied their selectivity on other serine proteases. Then, these fragments were merged to our coumarin templates, leading to the generation of nanomolar inhibitors. The mechanism of inhibition was further studied by mass spectrometry demonstrating the covalent binding through the formation of an acyl enzyme complex. The most potent compound was tested in plasma to evaluate its stability and efficacy on coagulation assays. It exhibited a plasmatic half-life of 1.9 h and a good selectivity for the intrinsic coagulation pathway over the extrinsic one.
Abstract sourced from PubMed (NCBI) for the cited record. See the original publication for the authoritative version.
Summary
Peer-reviewed pharmacology and drug-development research relevant to antithrombotic agents and leech-derived compounds. Indexed in PubMed and verified against the NCBI record.
Why This Matters for Hirudotherapy
Using a fragment-based drug-discovery strategy, this study improved weak coumarin inhibitors of factor XIIa into nanomolar, covalently binding inhibitors with good selectivity for the intrinsic coagulation pathway and a ~1.9 h plasma half-life, positioning FXIIa as a target for artificial-surface-induced thrombosis and inflammatory disease. For ASH it reinforces that the contact/intrinsic pathway, where leech-derived anticoagulant peptides also operate, is an actively pursued anticoagulation target, helping frame the rationale behind studying natural secretome molecules. Caveat: this is preclinical medicinal-chemistry and in-vitro/plasma work on synthetic coumarin compounds with no animal or clinical outcome data, and it involves no leeches or hirudotherapy.
Citation
Coumarins as factor XIIa inhibitors: Potency and selectivity improvements using a fragment-based strategy.
Davoine et al. · European journal of medicinal chemistry, 2023
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