Literature DB >> 35176223

MBNL1 drives dynamic transitions between fibroblasts and myofibroblasts in cardiac wound healing.

Darrian Bugg1, Logan R J Bailey2, Ross C Bretherton3, Kylie E Beach1, Isabella M Reichardt3, Kalen Z Robeson3, Anna C Reese1, Jagadambika Gunaje1, Galina Flint3, Cole A DeForest4, April Stempien-Otero5, Jennifer Davis6.   

Abstract

Dynamic fibroblast to myofibroblast state transitions underlie the heart's fibrotic response. Because transcriptome maturation by muscleblind-like 1 (MBNL1) promotes differentiated cell states, this study investigated whether tactical control of MBNL1 activity could alter myofibroblast activity and fibrotic outcomes. In healthy mice, cardiac fibroblast-specific overexpression of MBNL1 transitioned the fibroblast transcriptome to that of a myofibroblast and after injury promoted myocyte remodeling and scar maturation. Both fibroblast- and myofibroblast-specific loss of MBNL1 limited scar production and stabilization, which was ascribed to negligible myofibroblast activity. The combination of MBNL1 deletion and injury caused quiescent fibroblasts to expand and adopt features of cardiac mesenchymal stem cells, whereas transgenic MBNL1 expression blocked fibroblast proliferation and drove the population into a mature myofibroblast state. These data suggest MBNL1 is a post-transcriptional switch, controlling fibroblast state plasticity during cardiac wound healing.
Copyright © 2022 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  RNA binding proteins; cardiac remodeling; fibroblast; fibroblast heterogeneity; fibrosis; myofibroblast; wound healing

Mesh:

Substances:

Year:  2022        PMID: 35176223      PMCID: PMC8929295          DOI: 10.1016/j.stem.2022.01.012

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   25.269


  78 in total

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Authors:  Joy Lincoln; Ralf Kist; Gerd Scherer; Katherine E Yutzey
Journal:  Dev Biol       Date:  2007-02-07       Impact factor: 3.582

6.  Calcineurin/NFAT coupling participates in pathological, but not physiological, cardiac hypertrophy.

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Review 7.  Controlling cardiac fibrosis through fibroblast state space modulation.

Authors:  Isabella M Reichardt; Kalen Z Robeson; Michael Regnier; Jennifer Davis
Journal:  Cell Signal       Date:  2020-12-16       Impact factor: 4.315

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Authors:  Curtis T Rueden; Johannes Schindelin; Mark C Hiner; Barry E DeZonia; Alison E Walter; Ellen T Arena; Kevin W Eliceiri
Journal:  BMC Bioinformatics       Date:  2017-11-29       Impact factor: 3.169

9.  The Galaxy platform for accessible, reproducible and collaborative biomedical analyses: 2018 update.

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Journal:  Nucleic Acids Res       Date:  2018-07-02       Impact factor: 16.971

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Authors:  Sonia Chothani; Sebastian Schäfer; Eleonora Adami; Sivakumar Viswanathan; Anissa A Widjaja; Sarah R Langley; Jessie Tan; Mao Wang; Nicholas M Quaife; Chee Jian Pua; Giuseppe D'Agostino; Shamini Guna Shekeran; Benjamin L George; Stella Lim; Elaine Yiqun Cao; Sebastiaan van Heesch; Franziska Witte; Leanne E Felkin; Eleni G Christodoulou; Jinrui Dong; Susanne Blachut; Giannino Patone; Paul J R Barton; Norbert Hubner; Stuart A Cook; Owen J L Rackham
Journal:  Circulation       Date:  2019-07-09       Impact factor: 29.690
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Journal:  Nature       Date:  2022-08-10       Impact factor: 69.504

Review 2.  Wound healing, fibroblast heterogeneity, and fibrosis.

Authors:  Heather E Talbott; Shamik Mascharak; Michelle Griffin; Derrick C Wan; Michael T Longaker
Journal:  Cell Stem Cell       Date:  2022-08-04       Impact factor: 25.269

3.  Interference with connective tissue growth factor attenuated fibroblast-to-myofibroblast transition and pulmonary fibrosis.

Authors:  Zhizhou Yang; Mengmeng Wang; Liping Cao; Rui Liu; Yi Ren; Liang Li; Yuhao Zhang; Chao Liu; Wei Zhang; Shinan Nie; Zhaorui Sun
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  5 in total

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