AI Article Synopsis
- Fragment-based drug discovery (FBDD) helps researchers explore a large variety of potential drug compounds by Screening small fragments and determining how they interact with proteins using techniques like X-ray crystallography.
- In a study, researchers screened 15 very small fragments computationally and found three key interaction sites on the FKBP51 FK1 domain, achieving a hit rate of 40% with six successful X-ray co-structures.
- The study suggests a hybrid approach that combines computational methods, X-ray screening, and N HSQC NMR to quickly identify promising drug candidates and their binding interactions.
Article Abstract
Fragment-based drug discovery (FBDD) permits efficient sampling of the vast chemical space for hit identification. Libraries are screened biophysically and fragment:protein co-structures are determined by X-ray crystallography. In parallel, computational methods can derive pharmacophore models or screen virtual libraries. We screened 15 very small fragments (VSFs) (HA ≤ 11) computationally, using site identification by ligand competitive saturation (SILCS), and experimentally, by X-ray crystallography, to map potential interaction sites on the FKBP51 FK1 domain. We identified three hot spots and obtained 6 X-ray co-structures, giving a hit rate of 40%. SILCS FragMaps overlapped with X-ray structures. The compounds had millimolar affinities as determined by N HSQC NMR. VSFs identified the same interactions as known FK1 binder and provide new chemical starting points. We propose a hybrid screening strategy starting with SILCS, followed by a pharmacophore-derived X-ray screen and N HSQC NMR based KD determination to rapidly identify hits and their binding poses.
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| http://dx.doi.org/10.1021/acs.jmedchem.0c00120 | DOI Listing |
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