Mechanism-based Inhibitors of the Human Sirtuin 5 Deacylase: Structure-Activity Relationship, Biostructural, and Kinetic Insight

Nima Rajabi; Marina Auth; Kathrin Rentzius Troelsen; Martin Pannek; Dhaval Bhatt; Martin Fontenas; Matthew Hirschey; Clemens Steegborn; Andreas Stahl Madsen; Christian Adam Olsen

doi:10.1002/anie.201709050

Mechanism-based Inhibitors of the Human Sirtuin 5 Deacylase: Structure-Activity Relationship, Biostructural, and Kinetic Insight

Nima Rajabi, Marina Auth, Kathrin Rentzius Troelsen, Martin Pannek, Dhaval Bhatt, Martin Fontenas, Matthew Hirschey, Clemens Steegborn, Andreas Stahl Madsen, Christian Adam Olsen

Medicinal Chemistry Research

Research output: Contribution to journal › Journal article › Research › peer-review

52 Citations (Scopus)

Abstract

The sirtuin enzymes are important regulatory deacylases in a variety of biochemical contexts and may therefore be potential therapeutic targets through either activation or inhibition by small molecules. Here, we describe the discovery of the most potent inhibitor of sirtuin 5 (SIRT5) reported to date. We provide rationalization of the mode of binding by solving co-crystal structures of selected inhibitors in complex with both human and zebrafish SIRT5, which provide insight for future optimization of inhibitors with more "drug-like" properties. Importantly, enzyme kinetic evaluation revealed a slow, tight-binding mechanism of inhibition, which is unprecedented for sirtuins. This is important information when applying inhibitors to probe mechanisms in biology.

Original language	English
Journal	Angewandte Chemie, Int. Ed.
Volume	56
Issue number	47
Pages (from-to)	14836-14841
ISSN	1433-7851
DOIs	https://doi.org/10.1002/anie.201709050
Publication status	Published - 20 Nov 2017

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Cite this

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title = "Mechanism-based Inhibitors of the Human Sirtuin 5 Deacylase: Structure-Activity Relationship, Biostructural, and Kinetic Insight",

abstract = "The sirtuin enzymes are important regulatory deacylases in a variety of biochemical contexts and may therefore be potential therapeutic targets through either activation or inhibition by small molecules. Here, we describe the discovery of the most potent inhibitor of sirtuin 5 (SIRT5) reported to date. We provide rationalization of the mode of binding by solving co-crystal structures of selected inhibitors in complex with both human and zebrafish SIRT5, which provide insight for future optimization of inhibitors with more {"}drug-like{"} properties. Importantly, enzyme kinetic evaluation revealed a slow, tight-binding mechanism of inhibition, which is unprecedented for sirtuins. This is important information when applying inhibitors to probe mechanisms in biology.",

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T1 - Mechanism-based Inhibitors of the Human Sirtuin 5 Deacylase: Structure-Activity Relationship, Biostructural, and Kinetic Insight

AU - Rajabi, Nima

AU - Auth, Marina

AU - Troelsen, Kathrin Rentzius

AU - Pannek, Martin

AU - Bhatt, Dhaval

AU - Fontenas, Martin

AU - Hirschey, Matthew

AU - Steegborn, Clemens

AU - Madsen, Andreas Stahl

AU - Olsen, Christian Adam

PY - 2017/11/20

Y1 - 2017/11/20

N2 - The sirtuin enzymes are important regulatory deacylases in a variety of biochemical contexts and may therefore be potential therapeutic targets through either activation or inhibition by small molecules. Here, we describe the discovery of the most potent inhibitor of sirtuin 5 (SIRT5) reported to date. We provide rationalization of the mode of binding by solving co-crystal structures of selected inhibitors in complex with both human and zebrafish SIRT5, which provide insight for future optimization of inhibitors with more "drug-like" properties. Importantly, enzyme kinetic evaluation revealed a slow, tight-binding mechanism of inhibition, which is unprecedented for sirtuins. This is important information when applying inhibitors to probe mechanisms in biology.

AB - The sirtuin enzymes are important regulatory deacylases in a variety of biochemical contexts and may therefore be potential therapeutic targets through either activation or inhibition by small molecules. Here, we describe the discovery of the most potent inhibitor of sirtuin 5 (SIRT5) reported to date. We provide rationalization of the mode of binding by solving co-crystal structures of selected inhibitors in complex with both human and zebrafish SIRT5, which provide insight for future optimization of inhibitors with more "drug-like" properties. Importantly, enzyme kinetic evaluation revealed a slow, tight-binding mechanism of inhibition, which is unprecedented for sirtuins. This is important information when applying inhibitors to probe mechanisms in biology.

U2 - 10.1002/anie.201709050

DO - 10.1002/anie.201709050

M3 - Journal article

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SN - 1433-7851

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SP - 14836

EP - 14841

JO - Angewandte Chemie, Int. Ed.

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