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. 2018 Jan;24(1):62-72.
doi: 10.1038/nm.4452. Epub 2017 Dec 11.

A proteolytic fragment of histone deacetylase 4 protects the heart from failure by regulating the hexosamine biosynthetic pathway

Lorenz H Lehmann  1   2   3 Zegeye H Jebessa  1   2 Michael M Kreusser  1   2   3 Axel Horsch  1   2 Tao He  1   2 Mariya Kronlage  1   2   3 Matthias Dewenter  1   2 Viviana Sramek  1   2 Ulrike Oehl  1   2 Jutta Krebs-Haupenthal  1   2 Albert H von der Lieth  1   2 Andrea Schmidt  1   2 Qiang Sun  1   2 Julia Ritterhoff  2   3 Daniel Finke  1   2   3 Mirko Völkers  2   3 Andreas Jungmann  2   3 Sven W Sauer  4 Christian Thiel  4 Alexander Nickel  5 Michael Kohlhaas  5 Michaela Schäfer  2   6 Carsten Sticht  7 Christoph Maack  5 Norbert Gretz  7 Michael Wagner  8 Ali El-Armouche  8 Lars S Maier  9 Juan E Camacho Londoño  2   10 Benjamin Meder  2   3 Marc Freichel  2   10 Hermann-Josef Gröne  11 Patrick Most  2   3 Oliver J Müller  2   3 Stephan Herzig  2   6 Eileen E M Furlong  2   12 Hugo A Katus  2   3 Johannes Backs  1   2
Affiliations

A proteolytic fragment of histone deacetylase 4 protects the heart from failure by regulating the hexosamine biosynthetic pathway

Lorenz H Lehmann et al. Nat Med. 2018 Jan.

Abstract

The stress-responsive epigenetic repressor histone deacetylase 4 (HDAC4) regulates cardiac gene expression. Here we show that the levels of an N-terminal proteolytically derived fragment of HDAC4, termed HDAC4-NT, are lower in failing mouse hearts than in healthy control hearts. Virus-mediated transfer of the portion of the Hdac4 gene encoding HDAC4-NT into the mouse myocardium protected the heart from remodeling and failure; this was associated with decreased expression of Nr4a1, which encodes a nuclear orphan receptor, and decreased NR4A1-dependent activation of the hexosamine biosynthetic pathway (HBP). Conversely, exercise enhanced HDAC4-NT levels, and mice with a cardiomyocyte-specific deletion of Hdac4 show reduced exercise capacity, which was characterized by cardiac fatigue and increased expression of Nr4a1. Mechanistically, we found that NR4A1 negatively regulated contractile function in a manner that depended on the HBP and the calcium sensor STIM1. Our work describes a new regulatory axis in which epigenetic regulation of a metabolic pathway affects calcium handling. Activation of this axis during intermittent physiological stress promotes cardiac function, whereas its impairment in sustained pathological cardiac stress leads to heart failure.

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