Literature DB >> 27768893

MOF Acetyl Transferase Regulates Transcription and Respiration in Mitochondria.

Aindrila Chatterjee1, Janine Seyfferth2, Jacopo Lucci2, Ralf Gilsbach3, Sebastian Preissl3, Lena Böttinger4, Christoph U Mårtensson5, Amol Panhale1, Thomas Stehle2, Oliver Kretz6, Abdullah H Sahyoun2, Sergiy Avilov2, Stefan Eimer7, Lutz Hein8, Nikolaus Pfanner9, Thomas Becker9, Asifa Akhtar10.   

Abstract

A functional crosstalk between epigenetic regulators and metabolic control could provide a mechanism to adapt cellular responses to environmental cues. We report that the well-known nuclear MYST family acetyl transferase MOF and a subset of its non-specific lethal complex partners reside in mitochondria. MOF regulates oxidative phosphorylation by controlling expression of respiratory genes from both nuclear and mtDNA in aerobically respiring cells. MOF binds mtDNA, and this binding is dependent on KANSL3. The mitochondrial pool of MOF, but not a catalytically deficient mutant, rescues respiratory and mtDNA transcriptional defects triggered by the absence of MOF. Mof conditional knockout has catastrophic consequences for tissues with high-energy consumption, triggering hypertrophic cardiomyopathy and cardiac failure in murine hearts; cardiomyocytes show severe mitochondrial degeneration and deregulation of mitochondrial nutrient metabolism and oxidative phosphorylation pathways. Thus, MOF is a dual-transcriptional regulator of nuclear and mitochondrial genomes connecting epigenetics and metabolism.
Copyright © 2016 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  HAT; KANSL1; KANSL2; KANSL3; KAT; KAT8; KIAA1267; MOF; MSL1v1; MYST1; OXPHOS; acetylation; epigenetics; heart; mitochondria; mtDNA; respiration; transcription

Mesh:

Substances:

Year:  2016        PMID: 27768893     DOI: 10.1016/j.cell.2016.09.052

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  48 in total

1.  O-Linked N-acetylglucosamine transferase 1 regulates global histone H4 acetylation via stabilization of the nonspecific lethal protein NSL3.

Authors:  Donglu Wu; Linhong Zhao; Zhitong Feng; Chao Yu; Jian Ding; Lingyao Wang; Fei Wang; Da Liu; Huihui Zhu; Feiyang Xing; Joan W Conaway; Ronald C Conaway; Yong Cai; Jingji Jin
Journal:  J Biol Chem       Date:  2017-04-27       Impact factor: 5.157

Review 2.  Histone Acetyltransferase MOF Orchestrates Outcomes at the Crossroad of Oncogenesis, DNA Damage Response, Proliferation, and Stem Cell Development.

Authors:  Mayank Singh; Albino Bacolla; Shilpi Chaudhary; Clayton R Hunt; Shruti Pandita; Ravi Chauhan; Ashna Gupta; John A Tainer; Tej K Pandita
Journal:  Mol Cell Biol       Date:  2020-08-28       Impact factor: 4.272

Review 3.  Nuclear metabolism and the regulation of the epigenome.

Authors:  Ruben Boon; Giorgia G Silveira; Raul Mostoslavsky
Journal:  Nat Metab       Date:  2020-10-12

Review 4.  The epigenetic landscape related to reactive oxygen species formation in the cardiovascular system.

Authors:  Thomas Kietzmann; Andreas Petry; Antonina Shvetsova; Joachim M Gerhold; Agnes Görlach
Journal:  Br J Pharmacol       Date:  2017-05-10       Impact factor: 8.739

Review 5.  Mechanisms of mammalian mitochondrial transcription.

Authors:  Emilie Bouda; Anthony Stapon; Miguel Garcia-Diaz
Journal:  Protein Sci       Date:  2019-07-31       Impact factor: 6.725

6.  TNF-α regulates diabetic macrophage function through the histone acetyltransferase MOF.

Authors:  Aaron D denDekker; Frank M Davis; Amrita D Joshi; Sonya J Wolf; Ronald Allen; Jay Lipinski; Brenda Nguyen; Joseph Kirma; Dylan Nycz; Jennifer Bermick; Bethany B Moore; Johann E Gudjonsson; Steven L Kunkel; Katherine A Gallagher
Journal:  JCI Insight       Date:  2020-03-12

7.  Lysine acetyltransferase 8 is involved in cerebral development and syndromic intellectual disability.

Authors:  Lin Li; Mohammad Ghorbani; Monika Weisz-Hubshman; Justine Rousseau; Isabelle Thiffault; Rhonda E Schnur; Catherine Breen; Renske Oegema; Marjan Mm Weiss; Quinten Waisfisz; Sara Welner; Helen Kingston; Jordan A Hills; Elles Mj Boon; Lina Basel-Salmon; Osnat Konen; Hadassa Goldberg-Stern; Lily Bazak; Shay Tzur; Jianliang Jin; Xiuli Bi; Michael Bruccoleri; Kirsty McWalter; Megan T Cho; Maria Scarano; G Bradley Schaefer; Susan S Brooks; Susan Starling Hughes; K L I van Gassen; Johanna M van Hagen; Tej K Pandita; Pankaj B Agrawal; Philippe M Campeau; Xiang-Jiao Yang
Journal:  J Clin Invest       Date:  2020-03-02       Impact factor: 14.808

8.  De novo mutations in MSL3 cause an X-linked syndrome marked by impaired histone H4 lysine 16 acetylation.

Authors:  M Felicia Basilicata; Ange-Line Bruel; Giuseppe Semplicio; Claudia Isabelle Keller Valsecchi; Tuğçe Aktaş; Yannis Duffourd; Tobias Rumpf; Jenny Morton; Iben Bache; Witold G Szymanski; Christian Gilissen; Olivier Vanakker; Katrin Õunap; Gerhard Mittler; Ineke van der Burgt; Salima El Chehadeh; Megan T Cho; Rolph Pfundt; Tiong Yang Tan; Maria Kirchhoff; Björn Menten; Sarah Vergult; Kristin Lindstrom; André Reis; Diana S Johnson; Alan Fryer; Victoria McKay; Richard B Fisher; Christel Thauvin-Robinet; David Francis; Tony Roscioli; Sander Pajusalu; Kelly Radtke; Jaya Ganesh; Han G Brunner; Meredith Wilson; Laurence Faivre; Vera M Kalscheuer; Julien Thevenon; Asifa Akhtar
Journal:  Nat Genet       Date:  2018-09-17       Impact factor: 38.330

9.  Histone Acetyltransferase MOF Blocks Acquisition of Quiescence in Ground-State ESCs through Activating Fatty Acid Oxidation.

Authors:  Le Tran Phuc Khoa; Yao-Chang Tsan; Fengbiao Mao; Daniel M Kremer; Peter Sajjakulnukit; Li Zhang; Bo Zhou; Xin Tong; Natarajan V Bhanu; Chunaram Choudhary; Benjamin A Garcia; Lei Yin; Gary D Smith; Thomas L Saunders; Stephanie L Bielas; Costas A Lyssiotis; Yali Dou
Journal:  Cell Stem Cell       Date:  2020-06-30       Impact factor: 24.633

Review 10.  Catalysis by protein acetyltransferase Gcn5.

Authors:  Brittany N Albaugh; John M Denu
Journal:  Biochim Biophys Acta Gene Regul Mech       Date:  2020-08-22       Impact factor: 4.490
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