Preclinical evidence for the therapeutic value of TBX5 normalization in arrhythmia control

2020 | journal article; research paper. A publication with affiliation to the University of Göttingen.

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​Preclinical evidence for the therapeutic value of TBX5 normalization in arrhythmia control​
Rathjens, F. S. ; Blenkle, A.; Iyer, L. M. ; Renger, A.; Syeda, F.; Noack, C.   & Jungmann, A. et al.​ (2020) 
Cardiovascular Research,.​ DOI: https://doi.org/10.1093/cvr/cvaa239 

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Authors
Rathjens, Franziska S. ; Blenkle, Alica; Iyer, Lavanya M. ; Renger, Anke; Syeda, Fahima; Noack, Claudia ; Jungmann, Andreas; Dewenter, Matthias ; Toischer, Karl ; Zafeiriou, Maria Patapia 
Abstract
Abstract Aims  Arrhythmias and sudden cardiac death (SCD) occur commonly in patients with heart failure. We found T-box 5 (TBX5) dysregulated in ventricular myocardium from heart failure patients and thus we hypothesized that TBX5 reduction contributes to arrhythmia development in these patients. To understand the underlying mechanisms, we aimed to reveal the ventricular TBX5-dependent transcriptional network and further test the therapeutic potential of TBX5 level normalization in mice with documented arrhythmias. Methods and results  We used a mouse model of TBX5 conditional deletion in ventricular cardiomyocytes. Ventricular (v) TBX5 loss in mice resulted in mild cardiac dysfunction and arrhythmias and was associated with a high mortality rate (60%) due to SCD. Upon angiotensin stimulation, vTbx5KO mice showed exacerbated cardiac remodelling and dysfunction suggesting a cardioprotective role of TBX5. RNA-sequencing of a ventricular-specific TBX5KO mouse and TBX5 chromatin immunoprecipitation was used to dissect TBX5 transcriptional network in cardiac ventricular tissue. Overall, we identified 47 transcripts expressed under the control of TBX5, which may have contributed to the fatal arrhythmias in vTbx5KO mice. These included transcripts encoding for proteins implicated in cardiac conduction and contraction (Gja1, Kcnj5, Kcng2, Cacna1g, Chrm2), in cytoskeleton organization (Fstl4, Pdlim4, Emilin2, Cmya5), and cardiac protection upon stress (Fhl2, Gpr22, Fgf16). Interestingly, after TBX5 loss and arrhythmia development in vTbx5KO mice, TBX5 protein-level normalization by systemic adeno-associated-virus (AAV) 9 application, re-established TBX5-dependent transcriptome. Consequently, cardiac dysfunction was ameliorated and the propensity of arrhythmia occurrence was reduced. Conclusions  This study uncovers a novel cardioprotective role of TBX5 in the adult heart and provides preclinical evidence for the therapeutic value of TBX5 protein normalization in the control of arrhythmia.
Issue Date
2020
Journal
Cardiovascular Research 
Project
EXC 2067: Multiscale Bioimaging 
SFB 1002: Modulatorische Einheiten bei Herzinsuffizienz 
SFB 1002 | C04: Fibroblasten-Kardiomyozyten Interaktion im gesunden und erkrankten Herzen: Mechanismen und therapeutische Interventionen bei Kardiofibroblastopathien 
SFB 1002 | C07: Kardiomyozyten Wnt/β-catenin Komplex Aktivität im pathologischen Herz-Remodeling - als gewebespezifischer therapeutischer Ansatz 
SFB 1002 | S01: In vivo und in vitro Krankheitsmodelle 
Working Group
RG Zafeiriou (3D Electrically Excitable Cell Networks – Brain and Heart) 
RG Zelarayán-Behrend (Developmental Pharmacology) 
RG Zimmermann (Engineered Human Myocardium) 
RG El-Armouche 
RG Toischer (Kardiales Remodeling) 
External URL
https://mbexc.uni-goettingen.de/literature/publications/211
https://sfb1002.med.uni-goettingen.de/production/literature/publications/380
ISSN
0008-6363
eISSN
1755-3245
Language
English

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