Literature DB >> 22902903

Mitochondrial sirtuins: regulators of protein acylation and metabolism.

Wenjuan He1, John C Newman, Margaret Z Wang, Linh Ho, Eric Verdin.   

Abstract

Sirtuins are NAD(+)-dependent protein deacetylases and have been implicated in the regulation of metabolism, stress responses, and aging. Three sirtuins are located in mitochondria: SIRT3, 4, and 5. SIRT3 deacetylates and regulates the enzymatic activity of many metabolic enzymes in mitochondria, whereas SIRT5 removes two novel post-translational modifications, lysine malonylation and succinylation. Here, we review the current knowledge of how mitochondrial sirtuins function in metabolism and metabolic diseases, and offer a conceptual model how they may regulate mitochondrial function through distinct deacylation activities (deacetylation, demalonylation, or desuccinylation).
Copyright © 2012 Elsevier Ltd. All rights reserved.

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Year:  2012        PMID: 22902903     DOI: 10.1016/j.tem.2012.07.004

Source DB:  PubMed          Journal:  Trends Endocrinol Metab        ISSN: 1043-2760            Impact factor:   12.015


  107 in total

1.  Mitochondrial SIRT3 Mediates Adaptive Responses of Neurons to Exercise and Metabolic and Excitatory Challenges.

Authors:  Aiwu Cheng; Ying Yang; Ye Zhou; Chinmoyee Maharana; Daoyuan Lu; Wei Peng; Yong Liu; Ruiqian Wan; Krisztina Marosi; Magdalena Misiak; Vilhelm A Bohr; Mark P Mattson
Journal:  Cell Metab       Date:  2015-11-19       Impact factor: 27.287

2.  The many faces of sirtuins: Coupling of NAD metabolism, sirtuins and lifespan.

Authors:  Eric Verdin
Journal:  Nat Med       Date:  2014-01       Impact factor: 53.440

3.  SIRT3 deacetylates and activates OPA1 to regulate mitochondrial dynamics during stress.

Authors:  Sadhana A Samant; Hannah J Zhang; Zhigang Hong; Vinodkumar B Pillai; Nagalingam R Sundaresan; Donald Wolfgeher; Stephen L Archer; David C Chan; Mahesh P Gupta
Journal:  Mol Cell Biol       Date:  2013-12-16       Impact factor: 4.272

4.  The diversity of histone versus nonhistone sirtuin substrates.

Authors:  Paloma Martínez-Redondo; Alejandro Vaquero
Journal:  Genes Cancer       Date:  2013-03

Review 5.  The nexus of chromatin regulation and intermediary metabolism.

Authors:  Philipp Gut; Eric Verdin
Journal:  Nature       Date:  2013-10-24       Impact factor: 49.962

6.  Sirtuin 3 (SIRT3) protein regulates long-chain acyl-CoA dehydrogenase by deacetylating conserved lysines near the active site.

Authors:  Sivakama S Bharathi; Yuxun Zhang; Al-Walid Mohsen; Radha Uppala; Manimalha Balasubramani; Emanuel Schreiber; Guy Uechi; Megan E Beck; Matthew J Rardin; Jerry Vockley; Eric Verdin; Bradford W Gibson; Matthew D Hirschey; Eric S Goetzman
Journal:  J Biol Chem       Date:  2013-10-11       Impact factor: 5.157

Review 7.  Acylation of Biomolecules in Prokaryotes: a Widespread Strategy for the Control of Biological Function and Metabolic Stress.

Authors:  Kristy L Hentchel; Jorge C Escalante-Semerena
Journal:  Microbiol Mol Biol Rev       Date:  2015-07-15       Impact factor: 11.056

Review 8.  Epigenetics and the environment: in search of the "toleroasome" vital to execution of ischemic preconditioning.

Authors:  David Brand; Rajiv R Ratan
Journal:  Transl Stroke Res       Date:  2013-01-08       Impact factor: 6.829

Review 9.  Regulation of Akt signaling by sirtuins: its implication in cardiac hypertrophy and aging.

Authors:  Vinodkumar B Pillai; Nagalingam R Sundaresan; Mahesh P Gupta
Journal:  Circ Res       Date:  2014-01-17       Impact factor: 17.367

10.  Germline copy number variation of genes involved in chromatin remodelling in families suggestive of Li-Fraumeni syndrome with brain tumours.

Authors:  Juliette Aury-Landas; Gaëlle Bougeard; Hélène Castel; Hector Hernandez-Vargas; Aurélie Drouet; Jean-Baptiste Latouche; Marie-Thérèse Schouft; Claude Férec; Dominique Leroux; Christine Lasset; Isabelle Coupier; Olivier Caron; Zdenko Herceg; Thierry Frebourg; Jean-Michel Flaman
Journal:  Eur J Hum Genet       Date:  2013-04-24       Impact factor: 4.246
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