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Cardiac Fibrosis and Heart Failure: Cause or Effect?

  • Book
  • © 2015

Overview

Editors:
  1. Ian M.C. Dixon

    1. Institute of Cardiovascular Sciences St. Boniface Hospital Research Centre Department of Physiology and Pathophysiology, University of Manitoba, Winnipeg, Canada

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  2. Jeffrey T. Wigle

    1. Institute of Cardiovascular Sciences St. Boniface Hospital Research Centre Department of Biochemistry and Medical Genetics, University of Manitoba, Winnipeg, Canada

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  • Focuses on autophagy and endoplasmic reticular stress as mechanisms to regulate cardiac fibrosis
  • Highlights the role of alterations in the extracellular matrix during the development of heart failure
  • A crucial tool for the understanding of cardiac fibrosis

Part of the book series: Advances in Biochemistry in Health and Disease (ABHD, volume 13)

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Table of contents (21 chapters)

  1. Front Matter

    Pages i-xv
    Download chapter PDF

  2. Cardiac Fibrosis and Heart Failure—Cause or Effect?

    • Ian M.C. Dixon, Ryan H. Cunnington, Sunil G. Rattan, Jeffrey T. Wigle
    Pages 1-4

  3. Fibroblast Activation in the Infarcted Myocardium

    • Amit Saxena, Nikolaos G. Frangogiannis
    Pages 5-22

  4. Mechanical and Matrix Regulation of Valvular Fibrosis

    • Mark C. Blaser, Craig A. Simmons
    Pages 23-53

  5. Bone Marrow-Derived Progenitor Cells, micro-RNA, and Fibrosis

    • Alison L. Müller, Darren H. Freed
    Pages 55-69

  6. The Stressful Life of Cardiac Myofibroblasts

    • Elena Zimina, Boris Hinz
    Pages 71-92

  7. Pathogenic Origins of Fibrosis in the Hypertensive Heart Disease that Accompanies Aldosteronism

    • R. Justin McCullough, Yao Sun, Kevin P. Newman, Kodangudi B. Ramanathan, Ramareddy V. Guntaka, Karl T. Weber
    Pages 93-107

  8. Embryological Origin of Valve Progenitor Cells

    • Michel Pucéat, Thomas Moore-Morris
    Pages 109-123

  9. Diverse Cellular Origins of Cardiac Fibroblasts

    • Fahmida Jahan, Jeffrey T. Wigle
    Pages 125-145

  10. Non-Canonical Regulation of TGF-β1 Signaling: A Role for Ski/Sno and YAP/TAZ

    • Matthew R. Zeglinski, Natalie M. Landry, Ian M. C. Dixon
    Pages 147-165

  11. Molecular Mechanisms of Smooth Muscle and Fibroblast Phenotype Conversions in the Failing Heart

    • Christina Pagiatakis, John C. McDermott
    Pages 167-179

  12. Current and Future Strategies for the Diagnosis and Treatment of Cardiac Fibrosis

    • Patricia L. Roche, Michael P. Czubryt
    Pages 181-217

  13. Remodelling of the Cardiac Extracellular Matrix: Role of Collagen Degradation and Accumulation in Pathogenesis of Heart Failure

    • Abhijit Takawale, Mengcheng Shen, Dong Fan, Zamaneh Kassiri
    Pages 219-235

  14. Matrix Metalloproteinase 9 (MMP-9)

    • Fouad A. Zouein, Ashley DeCoux, Yuan Tian, Jared A. White, Yu-Fang Jin, Merry L. Lindsey
    Pages 237-259

  15. Collagen Processing and its Role in Fibrosis

    • Christopher A. McCulloch, Nuno M. Coelho
    Pages 261-278

  16. Mechanisms of Cardiac Fibrosis and Heart Failure

    • Keith Dadson, Vera Kovacevic, Gary Sweeney
    Pages 279-297

  17. Mathematical Simulations of Sphingosine-1-Phosphate Actions on Mammalian Ventricular Myofibroblasts and Myocytes

    • K. A. MacCannell, L. Chilton, G. L. Smith, W. R. Giles
    Pages 299-322

  18. Extracellular Matrix and Cardiac Disease: Surgical and Scientific Perspectives

    • Holly E. M. Mewhort, Paul W. M. Fedak
    Pages 323-346

  19. The Role of Neurohumoral Activation in Cardiac Fibrosis and Heart Failure

    • Nirmal Parajuli, Tharmarajan Ramprasath, Pavel Zhabyeyev, Vaibhav B. Patel, Gavin Y. Oudit
    Pages 347-381

  20. Natriuretic Peptides: Critical Regulators of Cardiac Fibroblasts and the Extracellular Matrix in the Heart

    • Hailey J. Jansen, Robert A. Rose
    Pages 383-404
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Keywords

About this book

The unique biology of cardiac fibroblasts and related cells, such as cardiac myofibroblasts and valvular interstitial cells, distinguish them from other fibroblastic cells, a concept that is only beginning to be widely appreciated. Further, the natural signals that stimulate and inhibit cardiac fibrosis within these cells are not well understood. This volume compiles articles that address the molecular mechanisms that control the synthesis and secretion of the cardiac ECM. The book showcases chapters that highlight discussion of role of Transforming Growth Factor β (TGFβ), an important fibrogenic cytokine and its downstream effectors SMAD in many cardiac diseases. Further, the contributions highlight information to discuss endogenous inhibitors of cardiac fibrosis, as well as advances in tissue engineering specific to matrix in the heart. Finally, discussions of unifying mechanisms of matrix remodeling in valves and myocardium are presented.

The mechanisms involved in the stimulation of cardiac fibrosis are not fully understood. In most cases the marginal attenuation of cardiac fibrosis as a result of a given therapy is a beneficial side-effect linked to other primary effects on other cells, especially cardiomyocytes. Very few drugs or agents are known to affect the function and dysfunction of cardiac fibroblasts and myofibroblasts alone. The book helps to translate the information gathered within to allow us to alter the course of fibrogenic events that are typical of cardiac fibrosis, and thereby reduce their burden on the patient and on society itself.

Editors and Affiliations

  • Institute of Cardiovascular Sciences St. Boniface Hospital Research Centre Department of Physiology and Pathophysiology, University of Manitoba, Winnipeg, Canada

    Ian M.C. Dixon

  • Institute of Cardiovascular Sciences St. Boniface Hospital Research Centre Department of Biochemistry and Medical Genetics, University of Manitoba, Winnipeg, Canada

    Jeffrey T. Wigle

About the editors

Dr. Jeffrey Wigle is an Associate Professor at the University of Manitoba, Winnipeg, Canada. His research focuses on the transcriptional pathways involved in regulating the growth and development of the cardiovascular system. He has characterized a number of transcription factors that are critical for the development of the lymphatic vasculature and the phenoconversion of fibroblasts to myofibroblasts. He is currently studying the transcriptional feedback loops that determine the fibroblastic phenotype.

Dr. Ian M.C. Dixon is a Professor of Physiology and Pathophysiology at the University of Manitoba, Winnipeg, Canada.  His research addresses heart failure following myocardial infarction and the contributing role of dysfunctional extracellular matrix in these hearts. He is also interested in mechanisms of fibroblast phenotype regulation, cardiac fibroblast SMAD protein signaling as well as other signaling proteins that may oppose the fibrogenic influence of TGF-b1 in health and disease. He has been engaged over the past 24 years in multidisciplinary research in cardiovascular matrix biology. 

Bibliographic Information

  • Book Title: Cardiac Fibrosis and Heart Failure: Cause or Effect?

  • Editors: Ian M.C. Dixon, Jeffrey T. Wigle

  • Series Title: Advances in Biochemistry in Health and Disease

  • DOI: https://doi.org/10.1007/978-3-319-17437-2

  • Publisher: Springer Cham

  • eBook Packages: Biomedical and Life Sciences, Biomedical and Life Sciences (R0)

  • Copyright Information: Springer International Publishing Switzerland 2015

  • Hardcover ISBN: 978-3-319-17436-5Published: 09 July 2015

  • Softcover ISBN: 978-3-319-37995-1Published: 22 October 2016

  • eBook ISBN: 978-3-319-17437-2Published: 29 June 2015

  • Series ISSN: 2512-2142

  • Series E-ISSN: 2512-2150

  • Edition Number: 1

  • Number of Pages: XV, 436

  • Number of Illustrations: 14 b/w illustrations, 59 illustrations in colour

  • Topics: Cell Biology, Cardiology, Molecular Medicine

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