Literature DB >> 28355558

Neuroprotective Functions for the Histone Deacetylase SIRT6.

Shai Kaluski1, Miguel Portillo1, Antoine Besnard2, Daniel Stein1, Monica Einav1, Lei Zhong2, Uwe Ueberham3, Thomas Arendt3, Raul Mostoslavsky2, Amar Sahay2, Debra Toiber4.   

Abstract

The histone deacetylase SIRT6 promotes DNA repair, but its activity declines with age with a concomitant accumulation of DNA damage. Furthermore, SIRT6 knockout mice exhibit an accelerated aging phenotype and die prematurely. Here, we report that brain-specific SIRT6-deficient mice survive but present behavioral defects with major learning impairments by 4 months of age. Moreover, the brains of these mice show increased signs of DNA damage, cell death, and hyperphosphorylated Tau-a critical mark in several neurodegenerative diseases. Mechanistically, SIRT6 regulates Tau protein stability and phosphorylation through increased activation of the kinase GSK3α/β. Finally, SIRT6 mRNA and protein levels are reduced in patients with Alzheimer's disease. Taken together, our results suggest that SIRT6 is critical to maintain genomic stability in the brain and that its loss leads to toxic Tau stability and phosphorylation. Therefore, SIRT6 and its downstream signaling could be targeted in Alzheimer's disease and age-related neurodegeneration.
Copyright © 2017 The Author(s). Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Alzheimer’s disease; DNA damage; GSK3; SIRT6; Tau; aging

Mesh:

Substances:

Year:  2017        PMID: 28355558      PMCID: PMC5389893          DOI: 10.1016/j.celrep.2017.03.008

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  60 in total

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Authors:  Michael D Saxe; Fortunato Battaglia; Jing-Wen Wang; Gael Malleret; Denis J David; James E Monckton; A Denise R Garcia; Michael V Sofroniew; Eric R Kandel; Luca Santarelli; René Hen; Michael R Drew
Journal:  Proc Natl Acad Sci U S A       Date:  2006-11-06       Impact factor: 11.205

2.  Genomic instability and aging-like phenotype in the absence of mammalian SIRT6.

Authors:  Raul Mostoslavsky; Katrin F Chua; David B Lombard; Wendy W Pang; Miriam R Fischer; Lionel Gellon; Pingfang Liu; Gustavo Mostoslavsky; Sonia Franco; Michael M Murphy; Kevin D Mills; Parin Patel; Joyce T Hsu; Andrew L Hong; Ethan Ford; Hwei-Ling Cheng; Caitlin Kennedy; Nomeli Nunez; Roderick Bronson; David Frendewey; Wojtek Auerbach; David Valenzuela; Margaret Karow; Michael O Hottiger; Stephen Hursting; J Carl Barrett; Leonard Guarente; Richard Mulligan; Bruce Demple; George D Yancopoulos; Frederick W Alt
Journal:  Cell       Date:  2006-01-27       Impact factor: 41.582

3.  Understanding biomarkers of neurodegeneration: Novel approaches to detecting tau pathology.

Authors:  Casey N Cook; Melissa E Murray; Leonard Petrucelli
Journal:  Nat Med       Date:  2015-03       Impact factor: 53.440

4.  ALS-associated mutation FUS-R521C causes DNA damage and RNA splicing defects.

Authors:  Haiyan Qiu; Sebum Lee; Yulei Shang; Wen-Yuan Wang; Kin Fai Au; Sherry Kamiya; Sami J Barmada; Steven Finkbeiner; Hansen Lui; Caitlin E Carlton; Amy A Tang; Michael C Oldham; Hejia Wang; James Shorter; Anthony J Filiano; Erik D Roberson; Warren G Tourtellotte; Bin Chen; Li-Huei Tsai; Eric J Huang
Journal:  J Clin Invest       Date:  2014-02-10       Impact factor: 14.808

5.  SIRT6 promotes DNA repair under stress by activating PARP1.

Authors:  Zhiyong Mao; Christopher Hine; Xiao Tian; Michael Van Meter; Matthew Au; Amita Vaidya; Andrei Seluanov; Vera Gorbunova
Journal:  Science       Date:  2011-06-17       Impact factor: 47.728

6.  Nuclear tau, a key player in neuronal DNA protection.

Authors:  Audrey Sultan; Fabrice Nesslany; Marie Violet; Séverine Bégard; Anne Loyens; Smail Talahari; Zeyni Mansuroglu; Daniel Marzin; Nicolas Sergeant; Sandrine Humez; Morvane Colin; Eliette Bonnefoy; Luc Buée; Marie-Christine Galas
Journal:  J Biol Chem       Date:  2010-12-03       Impact factor: 5.157

Review 7.  Hyperphosphorylation of microtubule-associated protein tau: a promising therapeutic target for Alzheimer disease.

Authors:  C-X Gong; K Iqbal
Journal:  Curr Med Chem       Date:  2008       Impact factor: 4.530

8.  SIRT6 stabilizes DNA-dependent protein kinase at chromatin for DNA double-strand break repair.

Authors:  Ronald A McCord; Eriko Michishita; Tao Hong; Elisabeth Berber; Lisa D Boxer; Rika Kusumoto; Shenheng Guan; Xiaobing Shi; Or Gozani; Alma L Burlingame; Vilhelm A Bohr; Katrin F Chua
Journal:  Aging (Albany NY)       Date:  2009-01-15       Impact factor: 5.682

9.  Lamin A Is an Endogenous SIRT6 Activator and Promotes SIRT6-Mediated DNA Repair.

Authors:  Shrestha Ghosh; Baohua Liu; Yi Wang; Quan Hao; Zhongjun Zhou
Journal:  Cell Rep       Date:  2015-11-05       Impact factor: 9.423

10.  Differential expression of sirtuins in the aging rat brain.

Authors:  Nady Braidy; Anne Poljak; Ross Grant; Tharusha Jayasena; Hussein Mansour; Tailoi Chan-Ling; George Smythe; Perminder Sachdev; Gilles J Guillemin
Journal:  Front Cell Neurosci       Date:  2015-05-08       Impact factor: 5.505
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  37 in total

Review 1.  SIRT6, a Mammalian Deacylase with Multitasking Abilities.

Authors:  Andrew R Chang; Christina M Ferrer; Raul Mostoslavsky
Journal:  Physiol Rev       Date:  2019-08-22       Impact factor: 37.312

2.  NAD+ supplementation normalizes key Alzheimer's features and DNA damage responses in a new AD mouse model with introduced DNA repair deficiency.

Authors:  Yujun Hou; Sofie Lautrup; Stephanie Cordonnier; Yue Wang; Deborah L Croteau; Eduardo Zavala; Yongqing Zhang; Kanako Moritoh; Jennifer F O'Connell; Beverly A Baptiste; Tinna V Stevnsner; Mark P Mattson; Vilhelm A Bohr
Journal:  Proc Natl Acad Sci U S A       Date:  2018-02-05       Impact factor: 11.205

3.  SIRT6 is a DNA double-strand break sensor.

Authors:  Lior Onn; Miguel Portillo; Stefan Ilic; Gal Cleitman; Daniel Stein; Shai Kaluski; Ido Shirat; Zeev Slobodnik; Monica Einav; Fabian Erdel; Barak Akabayov; Debra Toiber
Journal:  Elife       Date:  2020-01-29       Impact factor: 8.140

4.  The 2021 FASEB science research conference on NAD metabolism and signaling.

Authors:  Vera Gorbunova; Marcus Buschbeck; Xiaolu A Cambronne; Karthikeyani Chellappa; Daniela Corda; Juan Du; Marc Freichel; Jonathan Gigas; Alexander E Green; Feng Gu; Iva Guberovic; Aravinthkumar Jayabalan; Imrankhan Khansahib; Sarmistha Mukherjee; Andrei Seluanov; Matthew A Simon; Lars J Sverkeli; Nora Kory; Daniel C Levine; Ivan Matic; Andrey Nikiforov; Johannes G M Rack; Shin-Ichiro Imai; David A Sinclair; Debra Toiber; Yongjuan Zhao; Raul Mostoslavsky; Lee Kraus; Andreas H Guse
Journal:  Aging (Albany NY)       Date:  2021-12-09       Impact factor: 5.682

Review 5.  Emerging Roles of Sirtuin 6 in Alzheimer's Disease.

Authors:  Nurul Fatihah Mohamad Nasir; Azalina Zainuddin; Shaharum Shamsuddin
Journal:  J Mol Neurosci       Date:  2017-12-19       Impact factor: 3.444

Review 6.  Metabolic aspects of neuronal degeneration: From a NAD+ point of view.

Authors:  Yo Sasaki
Journal:  Neurosci Res       Date:  2018-07-10       Impact factor: 3.304

7.  Sirtuin Acetylation and Deacetylation: a Complex Paradigm in Neurodegenerative Disease.

Authors:  Heena Khan; Palak Tiwari; Amarjot Kaur; Thakur Gurjeet Singh
Journal:  Mol Neurobiol       Date:  2021-04-20       Impact factor: 5.590

Review 8.  Emerging roles of SIRT6 in human diseases and its modulators.

Authors:  Gang Liu; Haiying Chen; Hua Liu; Wenbo Zhang; Jia Zhou
Journal:  Med Res Rev       Date:  2020-12-16       Impact factor: 12.944

Review 9.  Sirtuin 6: linking longevity with genome and epigenome stability.

Authors:  Anatoly Korotkov; Andrei Seluanov; Vera Gorbunova
Journal:  Trends Cell Biol       Date:  2021-07-17       Impact factor: 20.808

Review 10.  Breast cancer type 1 and neurodegeneration: consequences of deficient DNA repair.

Authors:  Emily Leung; Lili-Naz Hazrati
Journal:  Brain Commun       Date:  2021-05-27
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