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Potent de novo macrocyclic peptides that inhibit O‐GlcNAc transferase through an allosteric mechanism

Potent de novo macrocyclic peptides that inhibit O‐GlcNAc transferase through an allosteric mechanism
Potent de novo macrocyclic peptides that inhibit O‐GlcNAc transferase through an allosteric mechanism

Glycosyltransferases are a superfamily of enzymes that are notoriously difficult to inhibit. Here we apply an mRNA display technology integrated with genetic code reprogramming, referred to as the RaPID (random non-standard peptides integrated discovery) system, to identify macrocyclic peptides with high binding affinities for O-GlcNAc transferase (OGT). These macrocycles inhibit OGT activity through an allosteric mechanism that is driven by their binding to the tetratricopeptide repeats of OGT. Saturation mutagenesis in a maturation screen using 39 amino acids, including 22 non-canonical residues, led to an improved unnatural macrocycle that is ≈40 times more potent than the parent compound (K i app=1.5 nM). Subsequent derivatization delivered a biotinylated derivative that enabled one-step affinity purification of OGT from complex samples. The high potency and novel mechanism of action of these OGT ligands should enable new approaches to elucidate the specificity and regulation of OGT.

Allosteric Inhibitor, Glycosyltransferase, O-GlcNAc, Peptide Macrocycle, mRNA Display
1433-7851
Alteen, Matthew G.
af75d13d-fe74-4a55-a64e-99ea1d53d64f
Peacock, Hayden
8db61484-88ba-430b-8e51-5cc2d6eb3cca
Meek, Richard W.
5fdcf8d0-6b07-4d63-b719-8302fdd7a056
Busmann, Jil A.
2195bbfc-54dd-4b7b-be9b-42c70b1236d1
Zhu, Sha
3ec83b96-38be-49f6-9be0-d50647ec5686
Davies, Gideon J.
61049906-cf8c-4c45-afb6-edbea5efd8f1
Suga, Hiroaki
f0c91604-70a6-4f44-b99c-40d4b8e92264
Vocadlo, David J.
665c7d3d-08e8-459d-a93d-e466dbc97f4e
Alteen, Matthew G.
af75d13d-fe74-4a55-a64e-99ea1d53d64f
Peacock, Hayden
8db61484-88ba-430b-8e51-5cc2d6eb3cca
Meek, Richard W.
5fdcf8d0-6b07-4d63-b719-8302fdd7a056
Busmann, Jil A.
2195bbfc-54dd-4b7b-be9b-42c70b1236d1
Zhu, Sha
3ec83b96-38be-49f6-9be0-d50647ec5686
Davies, Gideon J.
61049906-cf8c-4c45-afb6-edbea5efd8f1
Suga, Hiroaki
f0c91604-70a6-4f44-b99c-40d4b8e92264
Vocadlo, David J.
665c7d3d-08e8-459d-a93d-e466dbc97f4e

Alteen, Matthew G., Peacock, Hayden, Meek, Richard W., Busmann, Jil A., Zhu, Sha, Davies, Gideon J., Suga, Hiroaki and Vocadlo, David J. (2023) Potent de novo macrocyclic peptides that inhibit O‐GlcNAc transferase through an allosteric mechanism. Angewandte Chemie International Edition, 62 (5), [e202215671]. (doi:10.1002/anie.202215671).

Record type: Article

Abstract

Glycosyltransferases are a superfamily of enzymes that are notoriously difficult to inhibit. Here we apply an mRNA display technology integrated with genetic code reprogramming, referred to as the RaPID (random non-standard peptides integrated discovery) system, to identify macrocyclic peptides with high binding affinities for O-GlcNAc transferase (OGT). These macrocycles inhibit OGT activity through an allosteric mechanism that is driven by their binding to the tetratricopeptide repeats of OGT. Saturation mutagenesis in a maturation screen using 39 amino acids, including 22 non-canonical residues, led to an improved unnatural macrocycle that is ≈40 times more potent than the parent compound (K i app=1.5 nM). Subsequent derivatization delivered a biotinylated derivative that enabled one-step affinity purification of OGT from complex samples. The high potency and novel mechanism of action of these OGT ligands should enable new approaches to elucidate the specificity and regulation of OGT.

Text
Alteen_ACIE_Manuscript_Dec2_2022_withSI - Accepted Manuscript
Available under License University of Southampton Accepted Manuscript Licence.
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More information

Accepted/In Press date: 2 December 2022
e-pub ahead of print date: 27 December 2022
Published date: 26 January 2023
Keywords: Allosteric Inhibitor, Glycosyltransferase, O-GlcNAc, Peptide Macrocycle, mRNA Display

Identifiers

Local EPrints ID: 476583
URI: http://eprints.soton.ac.uk/id/eprint/476583
DOI: doi:10.1002/anie.202215671
ISSN: 1433-7851
PURE UUID: f354940f-2be1-43d3-a976-7420bb96ef52
ORCID for Richard W. Meek: ORCID iD orcid.org/0000-0002-1370-0896

Catalogue record

Date deposited: 09 May 2023 16:46
Last modified: 17 Mar 2024 07:42

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Contributors

Author: Matthew G. Alteen
Author: Hayden Peacock
Author: Richard W. Meek ORCID iD
Author: Jil A. Busmann
Author: Sha Zhu
Author: Gideon J. Davies
Author: Hiroaki Suga
Author: David J. Vocadlo

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