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Toward photopharmacological antimicrobial chemotherapy using photoswitchable amidohydrolase inhibitors

Toward photopharmacological antimicrobial chemotherapy using photoswitchable amidohydrolase inhibitors
Toward photopharmacological antimicrobial chemotherapy using photoswitchable amidohydrolase inhibitors
Photopharmacological agents exhibit light-dependent biological activity and may have potential in the development of new antimicrobial agents/modalities. Amidohydrolase enzymes homologous to the well-known human histone deacetylases (HDACs) are present in bacteria, including resistant organisms responsible for a significant number of hospital-acquired infections and deaths. We report photopharmacological inhibitors of these enzymes, using two classes of photoswitches embedded in the inhibitor pharmacophore: azobenzenes and arylazopyrazoles. Although both classes of inhibitor show excellent inhibitory activity (nM IC50 values) of the target enzymes and promising differential activity of the switchable E- and Z-isomeric forms, the arylazopyrazoles exhibit better intrinsic photoswitch performance (more complete switching, longer thermal lifetime of the Z-isomer). We also report protein–ligand crystal structures of the E-isomers of both an azobenzene and an arylazopyrazole inhibitor, bound to bacterial histone deacetylase-like amidohydrolases (HDAHs). These structures not only uncover interactions important for inhibitor binding but also reveal conformational differences between the two photoswitch inhibitor classes. As such, our data may pave the way for the design of improved photopharmacological agents targeting the HDAC superfamily.
2373-8227
152-161
Weston, Claire E.
105a0338-fc15-4ed4-84a2-b5a8d6f63d31
Krämer, Andreas
5f9467a5-fcc1-4d05-b03d-67467599ee0e
Colin, Felix
55efe340-960f-43c4-af95-a368996380aa
Yildiz, Özkan
4813d7ac-67fd-475c-9340-d3465a91d94a
Baud, Matthias G.J.
8752d519-3d33-43b6-9a77-ab731d410c2e
Meyer-Almes, Franz-Josef
9f252633-80d9-4a9b-bcc7-96c0891a2dcf
Fuchter, Matthew J.
a98083c4-2a98-4844-8289-5468ec472801
Weston, Claire E.
105a0338-fc15-4ed4-84a2-b5a8d6f63d31
Krämer, Andreas
5f9467a5-fcc1-4d05-b03d-67467599ee0e
Colin, Felix
55efe340-960f-43c4-af95-a368996380aa
Yildiz, Özkan
4813d7ac-67fd-475c-9340-d3465a91d94a
Baud, Matthias G.J.
8752d519-3d33-43b6-9a77-ab731d410c2e
Meyer-Almes, Franz-Josef
9f252633-80d9-4a9b-bcc7-96c0891a2dcf
Fuchter, Matthew J.
a98083c4-2a98-4844-8289-5468ec472801

Weston, Claire E., Krämer, Andreas, Colin, Felix, Yildiz, Özkan, Baud, Matthias G.J., Meyer-Almes, Franz-Josef and Fuchter, Matthew J. (2017) Toward photopharmacological antimicrobial chemotherapy using photoswitchable amidohydrolase inhibitors. ACS Infectious Diseases, 3 (2), 152-161. (doi:10.1021/acsinfecdis.6b00148).

Record type: Article

Abstract

Photopharmacological agents exhibit light-dependent biological activity and may have potential in the development of new antimicrobial agents/modalities. Amidohydrolase enzymes homologous to the well-known human histone deacetylases (HDACs) are present in bacteria, including resistant organisms responsible for a significant number of hospital-acquired infections and deaths. We report photopharmacological inhibitors of these enzymes, using two classes of photoswitches embedded in the inhibitor pharmacophore: azobenzenes and arylazopyrazoles. Although both classes of inhibitor show excellent inhibitory activity (nM IC50 values) of the target enzymes and promising differential activity of the switchable E- and Z-isomeric forms, the arylazopyrazoles exhibit better intrinsic photoswitch performance (more complete switching, longer thermal lifetime of the Z-isomer). We also report protein–ligand crystal structures of the E-isomers of both an azobenzene and an arylazopyrazole inhibitor, bound to bacterial histone deacetylase-like amidohydrolases (HDAHs). These structures not only uncover interactions important for inhibitor binding but also reveal conformational differences between the two photoswitch inhibitor classes. As such, our data may pave the way for the design of improved photopharmacological agents targeting the HDAC superfamily.

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e-pub ahead of print date: 18 October 2016
Published date: 10 February 2017
Related URLs:
Organisations: Chemical Biology Group

Identifiers

Local EPrints ID: 410828
URI: http://eprints.soton.ac.uk/id/eprint/410828
DOI: doi:10.1021/acsinfecdis.6b00148
ISSN: 2373-8227
PURE UUID: 5967b516-0136-4712-bd8f-6eb8a53b5bc6
ORCID for Matthias G.J. Baud: ORCID iD orcid.org/0000-0003-3714-4350

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Date deposited: 09 Jun 2017 09:42
Last modified: 16 Mar 2024 04:24

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Contributors

Author: Claire E. Weston
Author: Andreas Krämer
Author: Felix Colin
Author: Özkan Yildiz
Author: Matthias G.J. Baud ORCID iD
Author: Franz-Josef Meyer-Almes
Author: Matthew J. Fuchter

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