M. Gertz scite author profile

Sirtuins are protein deacetylases regulating metabolism and stress responses. The seven human Sirtuins (Sirt1-7) are attractive drug targets, but Sirtuin inhibition mechanisms are mostly unidentified. We report the molecular mechanism of Sirtuin inhibition by 6-chloro-2,3,4,9-tetrahydro-1H-carbazole-1-carboxamide (Ex-527). Inhibitor binding to potently inhibited Sirt1 and Thermotoga maritima Sir2 and to moderately inhibited Sirt3 requires NAD + , alone or together with acetylpeptide. Crystal structures of several Sirtuin inhibitor complexes show that Ex-527 occupies the nicotinamide site and a neighboring pocket and contacts the ribose of NAD + or of the coproduct 2'-O-acetyl-ADP ribose. Complex structures with native alkylimidate and thio-analog support its catalytic relevance and show, together with biochemical assays, that only the coproduct complex is relevant for inhibition by Ex-527, which stabilizes the closed enzyme conformation preventing product release. Ex-527 inhibition thus exploits Sirtuin catalysis, and kinetic isoform differences explain its selectivity. Our results provide insights in Sirtuin catalysis and inhibition with important implications for drug development.

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A Molecular Mechanism for Direct Sirtuin Activation by Resveratrol

Gertz

Nguyen²,

Fischer³

et al. 2012

PLOS ONE

255

225

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Sirtuins are protein deacetylases regulating metabolism, stress responses, and aging processes, and they were suggested to mediate the lifespan extending effect of a low calorie diet. Sirtuin activation by the polyphenol resveratrol can mimic such lifespan extending effects and alleviate metabolic diseases. The mechanism of Sirtuin stimulation is unknown, hindering the development of improved activators. Here we show that resveratrol inhibits human Sirt3 and stimulates Sirt5, in addition to Sirt1, against fluorophore-labeled peptide substrates but also against peptides and proteins lacking the non-physiological fluorophore modification. We further present crystal structures of Sirt3 and Sirt5 in complex with fluorogenic substrate peptide and modulator. The compound acts as a top cover, closing the Sirtuin’s polypeptide binding pocket and influencing details of peptide binding by directly interacting with this substrate. Our results provide a mechanism for the direct activation of Sirtuins by small molecules and suggest that activators have to be tailored to a specific Sirtuin/substrate pair.

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An acetylome peptide microarray reveals specificities and deacetylation substrates for all human sirtuin isoforms

et al. 2013

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Sirtuin enzymes regulate metabolism and aging processes through deacetylation of acetyllysines in target proteins. More than 6,800 mammalian acetylation sites are known, but few targets have been assigned to most sirtuin isoforms, hampering our understanding of sirtuin function. Here we describe a peptide microarray system displaying 6,802 human acetylation sites for the parallel characterisation of their modification by deacetylases. Deacetylation data for all seven human sirtuins obtained with this system reveal isoform-specific substrate preferences and deacetylation substrate candidates for all sirtuin isoforms, including Sirt4. We confirm malate dehydrogenase protein as a Sirt3 substrate and show that peroxiredoxin 1 and high-mobility group B1 protein are deacetylated by Sirt5 and Sirt1, respectively, at the identified sites, rendering them likely new in vivo substrates. Our microarray platform enables parallel studies on physiological acetylation sites and the deacetylation data presented provide an exciting resource for the identification of novel substrates for all human sirtuins.

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Structure and Inhibition of the CO2-Sensing Carbonic Anhydrase Can2 from the Pathogenic Fungus Cryptococcus neoformans

Schlicker

Hall

Vullo

et al. 2009

Journal of Molecular Biology

185

173

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M. Gertz

Substrates and Regulation Mechanisms for the Human Mitochondrial Sirtuins Sirt3 and Sirt5

Ex-527 inhibits Sirtuins by exploiting their unique NAD ⁺ -dependent deacetylation mechanism

A Molecular Mechanism for Direct Sirtuin Activation by Resveratrol

An acetylome peptide microarray reveals specificities and deacetylation substrates for all human sirtuin isoforms

Structure and Inhibition of the CO2-Sensing Carbonic Anhydrase Can2 from the Pathogenic Fungus Cryptococcus neoformans

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M. Gertz

Substrates and Regulation Mechanisms for the Human Mitochondrial Sirtuins Sirt3 and Sirt5

Ex-527 inhibits Sirtuins by exploiting their unique NAD + -dependent deacetylation mechanism

A Molecular Mechanism for Direct Sirtuin Activation by Resveratrol

An acetylome peptide microarray reveals specificities and deacetylation substrates for all human sirtuin isoforms

Structure and Inhibition of the CO2-Sensing Carbonic Anhydrase Can2 from the Pathogenic Fungus Cryptococcus neoformans

Contact Info

Product

Resources

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Ex-527 inhibits Sirtuins by exploiting their unique NAD ⁺ -dependent deacetylation mechanism