Crystal structures of ERAP2 complexed with inhibitors reveal pharmacophore requirements for optimizing inhibitor potency
Crystal structures of ERAP2 complexed with inhibitors reveal pharmacophore requirements for optimizing inhibitor potency
Endoplasmic reticulum aminopeptidase 2 assists with the generation of antigenic peptides for presentation onto Major Histocompatibility Class I molecules in humans. Recent evidence has suggested that the activity of ERAP2 may contribute to the generation of autoimmunity, thus making ERAP2 a possible pharmacological target for the regulation of adaptive immune responses. To better understand the structural elements of inhibitors that govern their binding affinity to the ERAP2 active site, we cocrystallized ERAP2 with a medium activity 3,4-diaminobenzoic acid inhibitor and a poorly active hydroxamic acid derivative. Comparison of these two crystal structures with a previously solved structure of ERAP2 in complex with a potent phosphinic pseudopeptide inhibitor suggests that engaging the substrate N-terminus recognition properties of the active site is crucial for inhibitor binding even in the absence of a potent zinc-binding group. Proper utilization of all five major pharmacophores is necessary, however, to optimize inhibitor potency.
Aminopeptidase, antigen, inhibitors, X-ray crystallography
333-337
Mpakali, Anastasia
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Giastas, Petros
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Deprez-Poulain, Rebecca
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Papakyriakou, Athanasios
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Koumantou, Despoina
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Gealageas, Ronan
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Tsoukalidou, Sofia
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Vourloumis, Dionisios
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Mavridis, Irene M.
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Stratikos, Efstratios
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Saridakis, Emmanuel
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9 March 2017
Mpakali, Anastasia
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Giastas, Petros
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Deprez-Poulain, Rebecca
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Papakyriakou, Athanasios
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Koumantou, Despoina
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Gealageas, Ronan
25e43237-8575-48dc-aae3-3b0694da6ed3
Tsoukalidou, Sofia
8d2224eb-6b2f-4b40-b5f9-e6443d4e9785
Vourloumis, Dionisios
124a123e-77d0-496a-b624-a5da2cd7b8dc
Mavridis, Irene M.
8f1db0d5-813d-4461-adfb-683c4f8efeb8
Stratikos, Efstratios
85f4a2e4-422a-4dab-a067-f50ea7238c00
Saridakis, Emmanuel
ada20e9e-849c-47f8-b04f-641f8edcdb3b
Mpakali, Anastasia, Giastas, Petros, Deprez-Poulain, Rebecca, Papakyriakou, Athanasios, Koumantou, Despoina, Gealageas, Ronan, Tsoukalidou, Sofia, Vourloumis, Dionisios, Mavridis, Irene M., Stratikos, Efstratios and Saridakis, Emmanuel
(2017)
Crystal structures of ERAP2 complexed with inhibitors reveal pharmacophore requirements for optimizing inhibitor potency.
ACS Medicinal Chemistry Letters, 8 (3), .
(doi:10.1021/acsmedchemlett.6b00505).
Abstract
Endoplasmic reticulum aminopeptidase 2 assists with the generation of antigenic peptides for presentation onto Major Histocompatibility Class I molecules in humans. Recent evidence has suggested that the activity of ERAP2 may contribute to the generation of autoimmunity, thus making ERAP2 a possible pharmacological target for the regulation of adaptive immune responses. To better understand the structural elements of inhibitors that govern their binding affinity to the ERAP2 active site, we cocrystallized ERAP2 with a medium activity 3,4-diaminobenzoic acid inhibitor and a poorly active hydroxamic acid derivative. Comparison of these two crystal structures with a previously solved structure of ERAP2 in complex with a potent phosphinic pseudopeptide inhibitor suggests that engaging the substrate N-terminus recognition properties of the active site is crucial for inhibitor binding even in the absence of a potent zinc-binding group. Proper utilization of all five major pharmacophores is necessary, however, to optimize inhibitor potency.
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Accepted/In Press date: 21 February 2017
e-pub ahead of print date: 21 February 2017
Published date: 9 March 2017
Keywords:
Aminopeptidase, antigen, inhibitors, X-ray crystallography
Identifiers
Local EPrints ID: 413278
URI: http://eprints.soton.ac.uk/id/eprint/413278
ISSN: 1948-5875
PURE UUID: aa1f0744-d2b8-4241-93d7-3ab3a98437c2
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Date deposited: 18 Aug 2017 16:31
Last modified: 16 Mar 2024 04:28
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Contributors
Author:
Anastasia Mpakali
Author:
Petros Giastas
Author:
Rebecca Deprez-Poulain
Author:
Athanasios Papakyriakou
Author:
Despoina Koumantou
Author:
Ronan Gealageas
Author:
Sofia Tsoukalidou
Author:
Dionisios Vourloumis
Author:
Irene M. Mavridis
Author:
Efstratios Stratikos
Author:
Emmanuel Saridakis
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