Issue 11, 2022

PAC-FragmentDEL – photoactivated covalent capture of DNA-encoded fragments for hit discovery

Abstract

We describe a novel approach for screening fragments against a protein that combines the sensitivity of DNA-encoded library technology with the ability of fragments to explore what will bind. Each of the members of the library consists of a fragment which is linked to a photoactivatable diazirine moiety. Split and pool synthesis combines each fragment with a set of linkers with the version of the library reported here containing some 70k different compounds, each with an individual DNA code. Incubation of the library with a protein sample is followed by photoactivation, washing and subsequent PCR and sequencing which allows the individual fragment hits to be identified. We illustrate how the approach allows successful hit fragment identification using only microgram quantities of material for two targets. PAK4 is a kinase for which conventional fragment screening has generated many advance leads. The as yet undrugged target, 2-epimerase, presents a more challenging active site for identification of hit compounds. In both cases, PAC-FragmentDEL identified fragments validated as hits by ligand-observed NMR measurements and crystal structure determination of off-DNA sample binding to the proteins.

Graphical abstract: PAC-FragmentDEL – photoactivated covalent capture of DNA-encoded fragments for hit discovery

Supplementary files

Article information

Article type
Research Article
Submitted
28 Jun 2022
Accepted
03 Aug 2022
First published
26 Aug 2022
This article is Open Access
Creative Commons BY-NC license

RSC Med. Chem., 2022,13, 1341-1349

PAC-FragmentDEL – photoactivated covalent capture of DNA-encoded fragments for hit discovery

H. Ma, J. B. Murray, H. Luo, X. Cheng, Q. Chen, C. Song, C. Duan, P. Tan, L. Zhang, J. Liu, B. A. Morgan, J. Li, J. Wan, L. M. Baker, W. Finnie, L. Guetzoyan, R. Harris, N. Hendrickson, N. Matassova, H. Simmonite, J. Smith, R. E. Hubbard and G. Liu, RSC Med. Chem., 2022, 13, 1341 DOI: 10.1039/D2MD00197G

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