Literature DB >> 26608708

Computational modeling of cardiac fibroblasts and fibrosis.

Angela C Zeigler1, William J Richardson2, Jeffrey W Holmes3, Jeffrey J Saucerman4.   

Abstract

Altered fibroblast behavior can lead to pathologic changes in the heart such as arrhythmia, diastolic dysfunction, and systolic dysfunction. Computational models are increasingly used as a tool to identify potential mechanisms driving a phenotype or potential therapeutic targets against an unwanted phenotype. Here we review how computational models incorporating cardiac fibroblasts have clarified the role for these cells in electrical conduction and tissue remodeling in the heart. Models of fibroblast signaling networks have primarily focused on fibroblast cell lines or fibroblasts from other tissues rather than cardiac fibroblasts, specifically, but they are useful for understanding how fundamental signaling pathways control fibroblast phenotype. In the future, modeling cardiac fibroblast signaling, incorporating -omics and drug-interaction data into signaling network models, and utilizing multi-scale models will improve the ability of in silico studies to predict potential therapeutic targets against adverse cardiac fibroblast activity.
Copyright © 2015 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Cardiac fibroblast; Computational modeling; Fibrosis; Systems biology

Mesh:

Year:  2015        PMID: 26608708      PMCID: PMC4846515          DOI: 10.1016/j.yjmcc.2015.11.020

Source DB:  PubMed          Journal:  J Mol Cell Cardiol        ISSN: 0022-2828            Impact factor:   5.000


  106 in total

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2.  Improved prediction of the collagen fiber architecture in the aortic heart valve.

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3.  Electrotonic myofibroblast-to-myocyte coupling increases propensity to reentrant arrhythmias in two-dimensional cardiac monolayers.

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4.  Functional implications of myocardial scar structure.

Authors:  J W Holmes; J A Nuñez; J W Covell
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5.  Long-range force transmission in fibrous matrices enabled by tension-driven alignment of fibers.

Authors:  Hailong Wang; A S Abhilash; Christopher S Chen; Rebecca G Wells; Vivek B Shenoy
Journal:  Biophys J       Date:  2014-12-02       Impact factor: 4.033

6.  Mixed-effects model of epithelial-mesenchymal transition reveals rewiring of signaling networks.

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Journal:  Cell Signal       Date:  2015-04-08       Impact factor: 4.315

7.  Computer model of action potential of mouse ventricular myocytes.

Authors:  Vladimir E Bondarenko; Gyula P Szigeti; Glenna C L Bett; Song-Jung Kim; Randall L Rasmusson
Journal:  Am J Physiol Heart Circ Physiol       Date:  2004-05-13       Impact factor: 4.733

Review 8.  Monocyte and macrophage contributions to cardiac remodeling.

Authors:  Maarten Hulsmans; Flora Sam; Matthias Nahrendorf
Journal:  J Mol Cell Cardiol       Date:  2015-11-21       Impact factor: 5.000

Review 9.  Multiscale computational models of complex biological systems.

Authors:  Joseph Walpole; Jason A Papin; Shayn M Peirce
Journal:  Annu Rev Biomed Eng       Date:  2013-04-29       Impact factor: 9.590

10.  Reversible and irreversible differentiation of cardiac fibroblasts.

Authors:  Ronald B Driesen; Chandan K Nagaraju; Joëlle Abi-Char; Tamara Coenen; Paul J Lijnen; Robert H Fagard; Karin R Sipido; Victor V Petrov
Journal:  Cardiovasc Res       Date:  2013-12-23       Impact factor: 10.787
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  24 in total

Review 1.  Matrix metalloproteinases as input and output signals for post-myocardial infarction remodeling.

Authors:  Merry L Lindsey; Rugmani Padmanabhan Iyer; Mira Jung; Kristine Y DeLeon-Pennell; Yonggang Ma
Journal:  J Mol Cell Cardiol       Date:  2015-12-23       Impact factor: 5.000

2.  Fibroblasts: Diverse Cells Critical to Biomaterials Integration.

Authors:  Riley T Hannan; Shayn M Peirce; Thomas H Barker
Journal:  ACS Biomater Sci Eng       Date:  2017-06-13

3.  A computational model of cardiac fibroblast signaling predicts context-dependent drivers of myofibroblast differentiation.

Authors:  A C Zeigler; W J Richardson; J W Holmes; J J Saucerman
Journal:  J Mol Cell Cardiol       Date:  2016-03-23       Impact factor: 5.000

Review 4.  Biomechanics of infarcted left ventricle: a review of modelling.

Authors:  Wenguang Li
Journal:  Biomed Eng Lett       Date:  2020-06-10

Review 5.  Cardiac Fibroblast Activation Post-Myocardial Infarction: Current Knowledge Gaps.

Authors:  Yonggang Ma; Rugmani Padmanabhan Iyer; Mira Jung; Michael P Czubryt; Merry L Lindsey
Journal:  Trends Pharmacol Sci       Date:  2017-03-29       Impact factor: 14.819

6.  MicroRNA-98 inhibits TGF-β1-induced differentiation and collagen production of cardiac fibroblasts by targeting TGFBR1.

Authors:  Ranran Cheng; Ruiying Dang; Yan Zhou; Min Ding; Huikun Hua
Journal:  Hum Cell       Date:  2017-03-01       Impact factor: 4.174

7.  Crossing Into the Next Frontier of Cardiac Extracellular Matrix Research.

Authors:  Francis G Spinale; Nikolaos G Frangogiannis; Boris Hinz; Jeffrey W Holmes; Zamaneh Kassiri; Merry L Lindsey
Journal:  Circ Res       Date:  2016-10-28       Impact factor: 17.367

8.  Stretch-activated current in human atrial myocytes and Na+ current and mechano-gated channels' current in myofibroblasts alter myocyte mechanical behavior: a computational study.

Authors:  Heqing Zhan; Jingtao Zhang; Anquan Jiao; Qin Wang
Journal:  Biomed Eng Online       Date:  2019-10-25       Impact factor: 2.819

Review 9.  Mechanical regulation of gene expression in cardiac myocytes and fibroblasts.

Authors:  Jeffrey J Saucerman; Philip M Tan; Kyle S Buchholz; Andrew D McCulloch; Jeffrey H Omens
Journal:  Nat Rev Cardiol       Date:  2019-06       Impact factor: 32.419

Review 10.  Fibroblast-myocyte coupling in the heart: Potential relevance for therapeutic interventions.

Authors:  Emily Ongstad; Peter Kohl
Journal:  J Mol Cell Cardiol       Date:  2016-01-14       Impact factor: 5.000
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