Literature DB >> 17087856

On the hypothesis that the failing heart is energy starved: lessons learned from the metabolism of ATP and creatine.

Joanne S Ingwall1.   

Abstract

Adenosine triphosphate (ATP) and phosphocreatine fall in the failing heart. New insights into the control of ATP synthesis, supply, and utilization, and how this changes in the failing heart, have emerged. In this article, we address four questions: What are the mechanisms explaining loss of ATP and creatine from the failing heart? What are the consequences of these changes? Can metabolism be manipulated to restore a normal ATP supply? Does increasing energy supply have physiologic consequences (ie, does it lead to improved contractile performance)? In part 1 we focus on ATP, in part 2 on creatine, and in part 3 on the relationship between creatine and purine metabolism and purine nucleotide signaling.

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Year:  2006        PMID: 17087856     DOI: 10.1007/s11906-006-0023-x

Source DB:  PubMed          Journal:  Curr Hypertens Rep        ISSN: 1522-6417            Impact factor:   5.369


  47 in total

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Journal:  Ann N Y Acad Sci       Date:  2005-06       Impact factor: 5.691

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3.  The fall in creatine levels and creatine kinase isozyme changes in the failing heart are reversible: complex post-transcriptional regulation of the components of the CK system.

Authors:  Weiqun Shen; Matthias Spindler; Marnie A Higgins; Najia Jin; Robert M Gill; Laura J Bloem; Timothy P Ryan; Joanne S Ingwall
Journal:  J Mol Cell Cardiol       Date:  2005-09       Impact factor: 5.000

Review 4.  Biochemical and clinical characteristics of creatine deficiency syndromes.

Authors:  Jolanta Sykut-Cegielska; Wanda Gradowska; Saadet Mercimek-Mahmutoglu; Sylvia Stöckler-Ipsiroglu
Journal:  Acta Biochim Pol       Date:  2004       Impact factor: 2.149

5.  Stimulation of the creatine transporter SLC6A8 by the protein kinases SGK1 and SGK3.

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Journal:  Biochem Biophys Res Commun       Date:  2005-09-02       Impact factor: 3.575

6.  Paradoxical downregulation of the glucose oxidation pathway despite enhanced flux in severe heart failure.

Authors:  Biao Lei; Vincenzo Lionetti; Martin E Young; Margaret P Chandler; Chiara d'Agostino; Elaine Kang; Martin Altarejos; Ken Matsuo; Thomas H Hintze; William C Stanley; Fabio A Recchia
Journal:  J Mol Cell Cardiol       Date:  2004-04       Impact factor: 5.000

Review 7.  Energy metabolism in heart failure.

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Journal:  J Physiol       Date:  2003-12-05       Impact factor: 5.182

8.  The creatine kinase system in normal and diseased human myocardium.

Authors:  J S Ingwall; M F Kramer; M A Fifer; B H Lorell; R Shemin; W Grossman; P D Allen
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9.  Stimulation of the creatine transporter SLC6A8 by the protein kinase mTOR.

Authors:  Manzar Shojaiefard; David L Christie; Florian Lang
Journal:  Biochem Biophys Res Commun       Date:  2006-01-23       Impact factor: 3.575

10.  Reduced inotropic reserve and increased susceptibility to cardiac ischemia/reperfusion injury in phosphocreatine-deficient guanidinoacetate-N-methyltransferase-knockout mice.

Authors:  Michiel ten Hove; Craig A Lygate; Alexandra Fischer; Jürgen E Schneider; A Elisabeth Sang; Karen Hulbert; Liam Sebag-Montefiore; Hugh Watkins; Kieran Clarke; Dirk Isbrandt; Julie Wallis; Stefan Neubauer
Journal:  Circulation       Date:  2005-05-09       Impact factor: 29.690
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  14 in total

1.  Regulation of metabolism in individual mitochondria during excitation-contraction coupling.

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2.  DNA methylation reprograms cardiac metabolic gene expression in end-stage human heart failure.

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Journal:  Am J Physiol Heart Circ Physiol       Date:  2019-07-12       Impact factor: 4.733

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Journal:  Circ Heart Fail       Date:  2014-09-18       Impact factor: 8.790

Review 4.  Myocardial Fatigue: a Mechano-energetic Concept in Heart Failure.

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Journal:  Curr Cardiol Rep       Date:  2022-03-30       Impact factor: 3.955

Review 5.  Application of the principles of systems biology and Wiener's cybernetics for analysis of regulation of energy fluxes in muscle cells in vivo.

Authors:  Rita Guzun; Valdur Saks
Journal:  Int J Mol Sci       Date:  2010-03-08       Impact factor: 6.208

6.  Improved energy supply regulation in chronic hypoxic mouse counteracts hypoxia-induced altered cardiac energetics.

Authors:  Guillaume Calmettes; Véronique Deschodt-Arsac; Gilles Gouspillou; Sylvain Miraux; Bernard Muller; Jean-Michel Franconi; Eric Thiaudiere; Philippe Diolez
Journal:  PLoS One       Date:  2010-02-18       Impact factor: 3.240

Review 7.  Perturbations in the gene regulatory pathways controlling mitochondrial energy production in the failing heart.

Authors:  Gregory Aubert; Rick B Vega; Daniel P Kelly
Journal:  Biochim Biophys Acta       Date:  2012-08-31

8.  Metabolic remodeling in moderate synchronous versus dyssynchronous pacing-induced heart failure: integrated metabolomics and proteomics study.

Authors:  Junko Shibayama; Tatiana N Yuzyuk; James Cox; Aman Makaju; Mickey Miller; Justin Lichter; Hui Li; Jane D Leavy; Sarah Franklin; Alexey V Zaitsev
Journal:  PLoS One       Date:  2015-03-19       Impact factor: 3.240

9.  Reconciling depressed Ca2+ sparks occurrence with enhanced RyR2 activity in failing mice cardiomyocytes.

Authors:  Gema Ruiz-Hurtado; Linwei Li; María Fernández-Velasco; Angélica Rueda; Florence Lefebvre; Yueyi Wang; Philippe Mateo; Cécile Cassan; Barnabas Gellen; Jean Pierre Benitah; Ana María Gómez
Journal:  J Gen Physiol       Date:  2015-09-14       Impact factor: 4.086

Review 10.  Modular organization of cardiac energy metabolism: energy conversion, transfer and feedback regulation.

Authors:  R Guzun; T Kaambre; R Bagur; A Grichine; Y Usson; M Varikmaa; T Anmann; K Tepp; N Timohhina; I Shevchuk; V Chekulayev; F Boucher; P Dos Santos; U Schlattner; T Wallimann; A V Kuznetsov; P Dzeja; M Aliev; V Saks
Journal:  Acta Physiol (Oxf)       Date:  2014-04-18       Impact factor: 6.311
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