TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation

Andrea Grund; Malgorzata Szaroszyk; Mortimer Korf-Klingebiel; Mona Malek Mohammadi; Felix A. Trogisch; Ulrike Schrameck; Anna Gigina; Christopher Tiedje; Matthias Gaestel; Theresia Kraft; Jan Hegermann; Sandor Batkai; Thomas Thum; Andreas Perrot; Cris dos Remedios; Eva Riechert; Mirko Völkers; Shirin Doroudgar; Andreas Jungmann; Ralf Bauer; Xiaoke Yin; Manuel Mayr; Kai C. Wollert; Andreas Pich; Hua Xiao; Hugo A. Katus; Johann Bauersachs; Oliver J. Müller; Joerg Heineke

doi:10.15252/emmm.201810018

TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation

Andrea Grund
, Malgorzata Szaroszyk
, Mortimer Korf-Klingebiel
, Mona Malek Mohammadi
, Felix A. Trogisch
, Ulrike Schrameck
, Anna Gigina
, Christopher Tiedje
, Matthias Gaestel
, Theresia Kraft
, Jan Hegermann
, Sandor Batkai
, Thomas Thum
, Andreas Perrot
, Cris dos Remedios
, Eva Riechert
, Mirko Völkers
, Shirin Doroudgar
, Andreas Jungmann
, Ralf Bauer

Xiaoke Yin, Manuel Mayr, Kai C. Wollert, Andreas Pich, Hua Xiao, Hugo A. Katus, Johann Bauersachs, Oliver J. Müller, Joerg Heineke

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Pathological cardiac overload induces myocardial protein synthesis and hypertrophy, which predisposes to heart failure. To inhibit hypertrophy therapeutically, the identification of negative regulators of cardiomyocyte protein synthesis is needed. Here, we identified the tumor suppressor protein TIP30 as novel inhibitor of cardiac hypertrophy and dysfunction. Reduced TIP30 levels in mice entailed exaggerated cardiac growth during experimental pressure overload, which was associated with cardiomyocyte cellular hypertrophy, increased myocardial protein synthesis, reduced capillary density, and left ventricular dysfunction. Pharmacological inhibition of protein synthesis improved these defects. Our results are relevant for human disease, since we found diminished cardiac TIP30 levels in samples from patients suffering from end-stage heart failure or hypertrophic cardiomyopathy. Importantly, therapeutic overexpression of TIP30 in mouse hearts inhibited cardiac hypertrophy and improved left ventricular function during pressure overload and in cardiomyopathic mdx mice. Mechanistically, we identified a previously unknown anti-hypertrophic mechanism, whereby TIP30 binds the eukaryotic elongation factor 1A (eEF1A) to prevent the interaction with its essential co-factor eEF1B2 and translational elongation. Therefore, TIP30 could be a therapeutic target to counteract cardiac hypertrophy.

Original language	English (US)
Article number	e10018
Journal	EMBO Molecular Medicine
Volume	11
Issue number	10
DOIs	https://doi.org/10.15252/emmm.201810018
State	Published - Oct 1 2019
Externally published	Yes

Keywords

cardiac hypertrophy
cardiomyopathy
heart failure
protein synthesis
translational elongation

ASJC Scopus subject areas

Molecular Medicine

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10.15252/emmm.201810018

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Grund, A., Szaroszyk, M., Korf-Klingebiel, M., Malek Mohammadi, M., Trogisch, F. A., Schrameck, U., Gigina, A., Tiedje, C., Gaestel, M., Kraft, T., Hegermann, J., Batkai, S., Thum, T., Perrot, A., Remedios, C. D., Riechert, E., Völkers, M., Doroudgar, S., Jungmann, A., ... Heineke, J. (2019). TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation. EMBO Molecular Medicine, 11(10), Article e10018. https://doi.org/10.15252/emmm.201810018

Grund, A, Szaroszyk, M, Korf-Klingebiel, M, Malek Mohammadi, M, Trogisch, FA, Schrameck, U, Gigina, A, Tiedje, C, Gaestel, M, Kraft, T, Hegermann, J, Batkai, S, Thum, T, Perrot, A, Remedios, CD, Riechert, E, Völkers, M, Doroudgar, S, Jungmann, A, Bauer, R, Yin, X, Mayr, M, Wollert, KC, Pich, A, Xiao, H, Katus, HA, Bauersachs, J, Müller, OJ & Heineke, J 2019, 'TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation', EMBO Molecular Medicine, vol. 11, no. 10, e10018. https://doi.org/10.15252/emmm.201810018

@article{3fd527a1a82f4ccb8de0f1e99d62abfe,

title = "TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation",

abstract = "Pathological cardiac overload induces myocardial protein synthesis and hypertrophy, which predisposes to heart failure. To inhibit hypertrophy therapeutically, the identification of negative regulators of cardiomyocyte protein synthesis is needed. Here, we identified the tumor suppressor protein TIP30 as novel inhibitor of cardiac hypertrophy and dysfunction. Reduced TIP30 levels in mice entailed exaggerated cardiac growth during experimental pressure overload, which was associated with cardiomyocyte cellular hypertrophy, increased myocardial protein synthesis, reduced capillary density, and left ventricular dysfunction. Pharmacological inhibition of protein synthesis improved these defects. Our results are relevant for human disease, since we found diminished cardiac TIP30 levels in samples from patients suffering from end-stage heart failure or hypertrophic cardiomyopathy. Importantly, therapeutic overexpression of TIP30 in mouse hearts inhibited cardiac hypertrophy and improved left ventricular function during pressure overload and in cardiomyopathic mdx mice. Mechanistically, we identified a previously unknown anti-hypertrophic mechanism, whereby TIP30 binds the eukaryotic elongation factor 1A (eEF1A) to prevent the interaction with its essential co-factor eEF1B2 and translational elongation. Therefore, TIP30 could be a therapeutic target to counteract cardiac hypertrophy.",

keywords = "cardiac hypertrophy, cardiomyopathy, heart failure, protein synthesis, translational elongation",

author = "Andrea Grund and Malgorzata Szaroszyk and Mortimer Korf-Klingebiel and \{Malek Mohammadi\}, Mona and Trogisch, \{Felix A.\} and Ulrike Schrameck and Anna Gigina and Christopher Tiedje and Matthias Gaestel and Theresia Kraft and Jan Hegermann and Sandor Batkai and Thomas Thum and Andreas Perrot and Remedios, \{Cris dos\} and Eva Riechert and Mirko V{\"o}lkers and Shirin Doroudgar and Andreas Jungmann and Ralf Bauer and Xiaoke Yin and Manuel Mayr and Wollert, \{Kai C.\} and Andreas Pich and Hua Xiao and Katus, \{Hugo A.\} and Johann Bauersachs and M{\"u}ller, \{Oliver J.\} and Joerg Heineke",

note = "Publisher Copyright: {\textcopyright} 2019 The Authors. Published under the terms of the CC BY 4.0 license",

year = "2019",

month = oct,

day = "1",

doi = "10.15252/emmm.201810018",

language = "English (US)",

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T1 - TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation

AU - Grund, Andrea

AU - Szaroszyk, Malgorzata

AU - Korf-Klingebiel, Mortimer

AU - Malek Mohammadi, Mona

AU - Trogisch, Felix A.

AU - Schrameck, Ulrike

AU - Gigina, Anna

AU - Tiedje, Christopher

AU - Gaestel, Matthias

AU - Kraft, Theresia

AU - Hegermann, Jan

AU - Batkai, Sandor

AU - Thum, Thomas

AU - Perrot, Andreas

AU - Remedios, Cris dos

AU - Riechert, Eva

AU - Völkers, Mirko

AU - Doroudgar, Shirin

AU - Jungmann, Andreas

AU - Bauer, Ralf

AU - Yin, Xiaoke

AU - Mayr, Manuel

AU - Wollert, Kai C.

AU - Pich, Andreas

AU - Xiao, Hua

AU - Katus, Hugo A.

AU - Bauersachs, Johann

AU - Müller, Oliver J.

AU - Heineke, Joerg

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Pathological cardiac overload induces myocardial protein synthesis and hypertrophy, which predisposes to heart failure. To inhibit hypertrophy therapeutically, the identification of negative regulators of cardiomyocyte protein synthesis is needed. Here, we identified the tumor suppressor protein TIP30 as novel inhibitor of cardiac hypertrophy and dysfunction. Reduced TIP30 levels in mice entailed exaggerated cardiac growth during experimental pressure overload, which was associated with cardiomyocyte cellular hypertrophy, increased myocardial protein synthesis, reduced capillary density, and left ventricular dysfunction. Pharmacological inhibition of protein synthesis improved these defects. Our results are relevant for human disease, since we found diminished cardiac TIP30 levels in samples from patients suffering from end-stage heart failure or hypertrophic cardiomyopathy. Importantly, therapeutic overexpression of TIP30 in mouse hearts inhibited cardiac hypertrophy and improved left ventricular function during pressure overload and in cardiomyopathic mdx mice. Mechanistically, we identified a previously unknown anti-hypertrophic mechanism, whereby TIP30 binds the eukaryotic elongation factor 1A (eEF1A) to prevent the interaction with its essential co-factor eEF1B2 and translational elongation. Therefore, TIP30 could be a therapeutic target to counteract cardiac hypertrophy.

AB - Pathological cardiac overload induces myocardial protein synthesis and hypertrophy, which predisposes to heart failure. To inhibit hypertrophy therapeutically, the identification of negative regulators of cardiomyocyte protein synthesis is needed. Here, we identified the tumor suppressor protein TIP30 as novel inhibitor of cardiac hypertrophy and dysfunction. Reduced TIP30 levels in mice entailed exaggerated cardiac growth during experimental pressure overload, which was associated with cardiomyocyte cellular hypertrophy, increased myocardial protein synthesis, reduced capillary density, and left ventricular dysfunction. Pharmacological inhibition of protein synthesis improved these defects. Our results are relevant for human disease, since we found diminished cardiac TIP30 levels in samples from patients suffering from end-stage heart failure or hypertrophic cardiomyopathy. Importantly, therapeutic overexpression of TIP30 in mouse hearts inhibited cardiac hypertrophy and improved left ventricular function during pressure overload and in cardiomyopathic mdx mice. Mechanistically, we identified a previously unknown anti-hypertrophic mechanism, whereby TIP30 binds the eukaryotic elongation factor 1A (eEF1A) to prevent the interaction with its essential co-factor eEF1B2 and translational elongation. Therefore, TIP30 could be a therapeutic target to counteract cardiac hypertrophy.

KW - cardiac hypertrophy

KW - cardiomyopathy

KW - heart failure

KW - protein synthesis

KW - translational elongation

UR - https://www.scopus.com/pages/publications/85071361131

UR - https://www.scopus.com/pages/publications/85071361131#tab=citedBy

U2 - 10.15252/emmm.201810018

DO - 10.15252/emmm.201810018

M3 - Article

C2 - 31468715

AN - SCOPUS:85071361131

SN - 1757-4676

VL - 11

JO - EMBO Molecular Medicine

JF - EMBO Molecular Medicine

IS - 10

M1 - e10018

ER -

TIP30 counteracts cardiac hypertrophy and failure by inhibiting translational elongation

Abstract

Keywords

ASJC Scopus subject areas

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