Literature DB >> 30415949

An Insulin-Responsive Sensor in the SIRT1 Disordered Region Binds DBC1 and PACS-2 to Control Enzyme Activity.

Troy C Krzysiak1, Laurel Thomas2, You-Jin Choi2, Sylvain Auclair2, Yiqi Qian2, Shan Luan2, Stephanie M Krasnow3, Laura L Thomas2, Leonardus M I Koharudin1, Panayiotis V Benos4, Daniel L Marks3, Angela M Gronenborn5, Gary Thomas6.   

Abstract

Current models of SIRT1 enzymatic regulation primarily consider the effects of fluctuating levels of its co-substrate NAD+, which binds to the stably folded catalytic domain. By contrast, the roles of the sizeable disordered N- and C-terminal regions of SIRT1 are largely unexplored. Here we identify an insulin-responsive sensor in the SIRT1 N-terminal region (NTR), comprising an acidic cluster (AC) and a 3-helix bundle (3HB), controlling deacetylase activity. The allosteric assistor DBC1 removes a distal N-terminal shield from the 3-helix bundle, permitting PACS-2 to engage the acidic cluster and the transiently exposed helix 3 of the 3-helix bundle, disrupting its structure and inhibiting catalysis. The SIRT1 activator (STAC) SRT1720 binds and stabilizes the 3-helix bundle, protecting SIRT1 from inhibition by PACS-2. Identification of the SIRT1 insulin-responsive sensor and its engagement by the DBC1 and PACS-2 regulatory hub provides important insight into the roles of disordered regions in enzyme regulation and the mode by which STACs promote metabolic fitness.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  3-helix bundle; AKT; FGF21; NMR spectroscopy; PACS2; PGC-1alpha; PPARalpha; STACs; diet-induced obesity; liver; nuclear magnetic resonance spectroscopy; small molecule sirtuin-activating compounds

Mesh:

Substances:

Year:  2018        PMID: 30415949      PMCID: PMC6309500          DOI: 10.1016/j.molcel.2018.10.007

Source DB:  PubMed          Journal:  Mol Cell        ISSN: 1097-2765            Impact factor:   17.970


  53 in total

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