ZebraReg—a novel platform for discovering regulators of cardiac regeneration using zebrafish
ZebraReg—a novel platform for discovering regulators of cardiac regeneration using zebrafish
Cardiovascular disease is the leading cause of death worldwide with myocardial infarction being the most prevalent. Currently, no cure is available to either prevent or revert the massive death of cardiomyocytes that occurs after a myocardial infarction. Adult mammalian hearts display a limited regeneration capacity, but it is insufficient to allow complete myocardial recovery. In contrast, the injured zebrafish heart muscle regenerates efficiently through robust proliferation of pre-existing myocardial cells. Thus, zebrafish allows its exploitation for studying the genetic programs behind cardiac regeneration, which may be present, albeit dormant, in the adult human heart. To this end, we have established ZebraReg, a novel and versatile automated platform for studying heart regeneration kinetics after the specific ablation of cardiomyocytes in zebrafish larvae. In combination with automated heart imaging, the platform can be integrated with genetic or pharmacological approaches and used for medium-throughput screening of presumed modulators of heart regeneration. We demonstrate the versatility of the platform by identifying both anti- and pro-regenerative effects of genes and drugs. In conclusion, we present a tool which may be utilised to streamline the process of target validation of novel gene regulators of regeneration, and the discovery of new drug therapies to regenerate the heart after myocardial infarction.
Apolínová, Kateřina
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Pérez, Ferran Arqué
03514874-802d-4822-9cec-13a98d82515c
Dyballa, Sylvia
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Coppe, Benedetta
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Huber, Nadia Mercader
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Terriente, Javier
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Donato, Vincenzo Di
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10 May 2024
Apolínová, Kateřina
66e03933-39d2-44ba-9175-51b88473f896
Pérez, Ferran Arqué
03514874-802d-4822-9cec-13a98d82515c
Dyballa, Sylvia
32583980-d5bb-4f12-9ab4-0d6f2ca296a4
Coppe, Benedetta
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Huber, Nadia Mercader
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Terriente, Javier
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Donato, Vincenzo Di
4f8fa4d1-ea88-4c3d-bd59-a3c396056c6e
Apolínová, Kateřina, Pérez, Ferran Arqué, Dyballa, Sylvia, Coppe, Benedetta, Huber, Nadia Mercader, Terriente, Javier and Donato, Vincenzo Di
(2024)
ZebraReg—a novel platform for discovering regulators of cardiac regeneration using zebrafish.
Frontiers in Cell and Developmental Biology, 12, [1384423].
(doi:10.3389/fcell.2024.1384423).
Abstract
Cardiovascular disease is the leading cause of death worldwide with myocardial infarction being the most prevalent. Currently, no cure is available to either prevent or revert the massive death of cardiomyocytes that occurs after a myocardial infarction. Adult mammalian hearts display a limited regeneration capacity, but it is insufficient to allow complete myocardial recovery. In contrast, the injured zebrafish heart muscle regenerates efficiently through robust proliferation of pre-existing myocardial cells. Thus, zebrafish allows its exploitation for studying the genetic programs behind cardiac regeneration, which may be present, albeit dormant, in the adult human heart. To this end, we have established ZebraReg, a novel and versatile automated platform for studying heart regeneration kinetics after the specific ablation of cardiomyocytes in zebrafish larvae. In combination with automated heart imaging, the platform can be integrated with genetic or pharmacological approaches and used for medium-throughput screening of presumed modulators of heart regeneration. We demonstrate the versatility of the platform by identifying both anti- and pro-regenerative effects of genes and drugs. In conclusion, we present a tool which may be utilised to streamline the process of target validation of novel gene regulators of regeneration, and the discovery of new drug therapies to regenerate the heart after myocardial infarction.
Text
fcell-12-1384423 (1)
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Accepted/In Press date: 25 April 2024
Published date: 10 May 2024
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Local EPrints ID: 500539
URI: http://eprints.soton.ac.uk/id/eprint/500539
ISSN: 2296-634X
PURE UUID: a57de1dd-c4d6-4d5e-bba9-a99d7236d0c0
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Date deposited: 02 May 2025 17:17
Last modified: 22 Aug 2025 02:47
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Contributors
Author:
Kateřina Apolínová
Author:
Ferran Arqué Pérez
Author:
Sylvia Dyballa
Author:
Benedetta Coppe
Author:
Nadia Mercader Huber
Author:
Javier Terriente
Author:
Vincenzo Di Donato
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