Literature DB >> 26431212

Molecular switches under TGFβ signalling during progression from cardiac hypertrophy to heart failure.

J Heger1, R Schulz1, G Euler1.   

Abstract

Cardiac hypertrophy is a mechanism to compensate for increased cardiac work load, that is, after myocardial infarction or upon pressure overload. However, in the long run cardiac hypertrophy is a prevailing risk factor for the development of heart failure. During pathological remodelling processes leading to heart failure, decompensated hypertrophy, death of cardiomyocytes by apoptosis or necroptosis and fibrosis as well as a progressive dysfunction of cardiomyocytes are apparent. Interestingly, the induction of hypertrophy, cell death or fibrosis is mediated by similar signalling pathways. Therefore, tiny changes in the signalling cascade are able to switch physiological cardiac remodelling to the development of heart failure. In the present review, we will describe examples of these molecular switches that change compensated hypertrophy to the development of heart failure and will focus on the importance of the signalling cascades of the TGFβ superfamily in this process. In this context, potential therapeutic targets for pharmacological interventions that could attenuate the progression of heart failure will be discussed.
© 2015 The British Pharmacological Society.

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Year:  2015        PMID: 26431212      PMCID: PMC4813390          DOI: 10.1111/bph.13344

Source DB:  PubMed          Journal:  Br J Pharmacol        ISSN: 0007-1188            Impact factor:   8.739


  89 in total

1.  Targeted disruption of Smad4 in cardiomyocytes results in cardiac hypertrophy and heart failure.

Authors:  Jian Wang; Ning Xu; Xinheng Feng; Ning Hou; JiShuai Zhang; Xuan Cheng; Yeguang Chen; Youyi Zhang; Xiao Yang
Journal:  Circ Res       Date:  2005-09-08       Impact factor: 17.367

2.  TGF-beta-induced apoptosis in endothelial cells mediated by M6P/IGFII-R and mini-plasminogen.

Authors:  Vladimír Leksa; Samuel Godar; Herbert B Schiller; Elke Fuertbauer; Arshad Muhammad; Katarina Slezakova; Vaclav Horejsi; Peter Steinlein; Ulrich H Weidle; Bernd R Binder; Hannes Stockinger
Journal:  J Cell Sci       Date:  2005-10-01       Impact factor: 5.285

3.  Activation of the cardiac proteasome during pressure overload promotes ventricular hypertrophy.

Authors:  Christophe Depre; Qian Wang; Lin Yan; Nadia Hedhli; Pallavi Peter; Li Chen; Chull Hong; Luc Hittinger; Bijan Ghaleh; Junichi Sadoshima; Dorothy E Vatner; Stephen F Vatner; Kiran Madura
Journal:  Circulation       Date:  2006-10-16       Impact factor: 29.690

Review 4.  Role of microRNAs in cardiac remodeling and heart failure.

Authors:  Veli K Topkara; Douglas L Mann
Journal:  Cardiovasc Drugs Ther       Date:  2011-04       Impact factor: 3.727

Review 5.  Right ventricular adaptation and failure in pulmonary arterial hypertension.

Authors:  John J Ryan; Jessica Huston; Shelby Kutty; Nathan D Hatton; Lindsay Bowman; Lian Tian; Julia E Herr; Amer M Johri; Stephen L Archer
Journal:  Can J Cardiol       Date:  2015-01-29       Impact factor: 5.223

Review 6.  Post-translational regulation of TGF-β receptor and Smad signaling.

Authors:  Pinglong Xu; Jianming Liu; Rik Derynck
Journal:  FEBS Lett       Date:  2012-05-19       Impact factor: 4.124

Review 7.  Glucose metabolism and cardiac hypertrophy.

Authors:  Stephen C Kolwicz; Rong Tian
Journal:  Cardiovasc Res       Date:  2011-05-01       Impact factor: 10.787

8.  Up-regulation of Bcl-2 through hyperbaric pressure transfection of TGF-beta1 ameliorates ischemia-reperfusion injury in rat cardiac allografts.

Authors:  Jürg Grünenfelder; Douglas N Miniati; Seiichiro Murata; Volkmar Falk; E Grant Hoyt; Robert C Robbins
Journal:  J Heart Lung Transplant       Date:  2002-02       Impact factor: 10.247

9.  Myostatin regulates energy homeostasis in the heart and prevents heart failure.

Authors:  Nadine Biesemann; Luca Mendler; Astrid Wietelmann; Sven Hermann; Michael Schäfers; Marcus Krüger; Thomas Boettger; Thilo Borchardt; Thomas Braun
Journal:  Circ Res       Date:  2014-05-07       Impact factor: 17.367

10.  MicroRNA-21 contributes to myocardial disease by stimulating MAP kinase signalling in fibroblasts.

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Journal:  Nature       Date:  2008-11-30       Impact factor: 49.962
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  12 in total

Review 1.  Molecular switches under TGFβ signalling during progression from cardiac hypertrophy to heart failure.

Authors:  J Heger; R Schulz; G Euler
Journal:  Br J Pharmacol       Date:  2015-11-16       Impact factor: 8.739

Review 2.  Redefining the role of biomarkers in heart failure trials: expert consensus document.

Authors:  Frank Kramer; Hani N Sabbah; James J Januzzi; Faiez Zannad; J Peter van Tintelen; Erik B Schelbert; Raymond J Kim; Hendrik Milting; Richardus Vonk; Brien Neudeck; Richard Clark; Klaus Witte; Wilfried Dinh; Burkert Pieske; Javed Butler; Mihai Gheorghiade
Journal:  Heart Fail Rev       Date:  2017-05       Impact factor: 4.214

3.  Brain-Derived Neurotrophic Factor Attenuates Septic Myocardial Dysfunction via eNOS/NO Pathway in Rats.

Authors:  Ni Zeng; Junmei Xu; Weifeng Yao; Suobei Li; Wei Ruan; Feng Xiao
Journal:  Oxid Med Cell Longev       Date:  2017-07-09       Impact factor: 6.543

4.  ZYZ-168 alleviates cardiac fibrosis after myocardial infarction through inhibition of ERK1/2-dependent ROCK1 activation.

Authors:  Shanshan Luo; Tran Ba Hieu; Fenfen Ma; Ying Yu; Zhonglian Cao; Minjun Wang; Weijun Wu; Yicheng Mao; Peter Rose; Betty Yuen-Kwan Law; Yi Zhun Zhu
Journal:  Sci Rep       Date:  2017-03-07       Impact factor: 4.379

5.  Caspase-1 regulate AngII-induced cardiomyocyte hypertrophy via upregulation of IL-1β.

Authors:  Yunlong Bai; Xi Sun; Qun Chu; Anqi Li; Ying Qin; Yanyao Li; Er Yue; Hui Wang; GuiYang Li; Syeda Madiha Zahra; Chaorun Dong; Yanan Jiang
Journal:  Biosci Rep       Date:  2018-02-12       Impact factor: 3.840

6.  Differential expression of microRNA in serum fractions and association of Argonaute 1 microRNAs with heart failure.

Authors:  Eti Meiri; Natalia Volinsky; Nir Dromi; Sharon Kredo-Russo; Hila Benjamin; Sarit Tabak; Hagai Marmor; Maria Motin; Danit Lebanony; Gila Lithwick-Yanai; Etti Kadosh; Carol Kreader; Liza Grosman-Rimon; Offer Amir
Journal:  J Cell Mol Med       Date:  2020-05-13       Impact factor: 5.310

7.  Transcriptomic Validation of the Protective Effects of Aqueous Bark Extract of Terminalia arjuna (Roxb.) on Isoproterenol-Induced Cardiac Hypertrophy in Rats.

Authors:  Gaurav Kumar; Nikhat Saleem; Santosh Kumar; Subir K Maulik; Sayeed Ahmad; Manish Sharma; Shyamal K Goswami
Journal:  Front Pharmacol       Date:  2019-12-10       Impact factor: 5.810

8.  NLRP3-mediated pyroptosis aggravates pressure overload-induced cardiac hypertrophy, fibrosis, and dysfunction in mice: cardioprotective role of irisin.

Authors:  Rongchuan Yue; Zaiyong Zheng; Yu Luo; Xiaobo Wang; Mingming Lv; Dan Qin; Qingqing Tan; Yulong Zhang; Tao Wang; Houxiang Hu
Journal:  Cell Death Discov       Date:  2021-03-15

Review 9.  Exploring Functional Differences between the Right and Left Ventricles to Better Understand Right Ventricular Dysfunction.

Authors:  Judith Bernal-Ramirez; Magda C Díaz-Vesga; Matias Talamilla; Andrea Méndez; Clara Quiroga; Javier A Garza-Cervantes; Anay Lázaro-Alfaro; Carlos Jerjes-Sanchez; Mauricio Henríquez; Gerardo García-Rivas; Zully Pedrozo
Journal:  Oxid Med Cell Longev       Date:  2021-08-28       Impact factor: 6.543

Review 10.  Pyroptosis: A New Regulating Mechanism in Cardiovascular Disease.

Authors:  Nan Ji; Zhongwen Qi; Yueyao Wang; Xiaoya Yang; Zhipeng Yan; Meng Li; Qihui Ge; Junping Zhang
Journal:  J Inflamm Res       Date:  2021-06-22
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