Literature DB >> 31271750

Context-Specific Transcription Factor Functions Regulate Epigenomic and Transcriptional Dynamics during Cardiac Reprogramming.

Nicole R Stone1, Casey A Gifford2, Reuben Thomas3, Karishma J B Pratt3, Kaitlen Samse-Knapp3, Tamer M A Mohamed2, Ethan M Radzinsky3, Amelia Schricker3, Lin Ye3, Pengzhi Yu2, Joke G van Bemmel3, Kathryn N Ivey4, Katherine S Pollard5, Deepak Srivastava6.   

Abstract

Ectopic expression of combinations of transcription factors (TFs) can drive direct lineage conversion, thereby reprogramming a somatic cell's identity. To determine the molecular mechanisms by which Gata4, Mef2c, and Tbx5 (GMT) induce conversion from a cardiac fibroblast toward an induced cardiomyocyte, we performed comprehensive transcriptomic, DNA-occupancy, and epigenomic interrogation throughout the reprogramming process. Integration of these datasets identified new TFs involved in cardiac reprogramming and revealed context-specific roles for GMT, including the ability of Mef2c and Tbx5 to independently promote chromatin remodeling at previously inaccessible sites. We also find evidence for cooperative facilitation and refinement of each TF's binding profile in a combinatorial setting. A reporter assay employing newly defined regulatory elements confirmed that binding of a single TF can be sufficient for gene activation, suggesting that co-binding events do not necessarily reflect synergy. These results shed light on fundamental mechanisms by which combinations of TFs direct lineage conversion.
Copyright © 2019 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  ATAC-seq; ChIP-seq; cardiac fibroblast; cardiomyocyte; reprogramming; single-cell RNA-seq; transcription factor

Mesh:

Substances:

Year:  2019        PMID: 31271750      PMCID: PMC6632093          DOI: 10.1016/j.stem.2019.06.012

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   24.633


  78 in total

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6.  Inhibition of EZH2 primes the cardiac gene activation via removal of epigenetic repression during human direct cardiac reprogramming.

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Review 8.  Taking Data Science to Heart: Next Scale of Gene Regulation.

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Review 10.  Cardiac regeneration by direct reprogramming in this decade and beyond.

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