Prrx1b restricts fibrosis and promotes Nrg1-dependent cardiomyocyte proliferation during zebrafish heart regeneration

Publication date

2021-10

Authors

de Bakker, Dennis E.M.
Bouwman, Mara
Dronkers, Esther
Simões, Filipa C.
Riley, Paul R.
Goumans, Marie José
Smits, Anke M.
Bakkers, JeroenISNI 0000000387784276

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Advisors

Supervisors

Document Type

Article

Collections

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License

cc_by

Abstract

Fibroblasts are activated to repair the heart following injury. Fibroblast activation in the mammalian heart leads to a permanent fibrotic scar that impairs cardiac function. In other organisms, such as zebrafish, cardiac injury is followed by transient fibrosis and scar-free regeneration. The mechanisms that drive scarring versus scar-free regeneration are not well understood. Here, we show that the homeobox-containing transcription factor Prrx1b is required for scar-free regeneration of the zebrafish heart as the loss of Prrx1b results in excessive fibrosis and impaired cardiomyocyte proliferation. Through lineage tracing and single-cell RNA sequencing, we find that Prrx1b is activated in epicardial-derived cells where it restricts TGFβ ligand expression and collagen production. Furthermore, through combined in vitro experiments in human fetal epicardial-derived cells and in vivo rescue experiments in zebrafish, we conclude that Prrx1 stimulates Nrg1 expression and promotes cardiomyocyte proliferation. Collectively, these results indicate that Prrx1 is a key transcription factor that balances fibrosis and regeneration in the injured zebrafish heart.

Keywords

Fibroblasts, Fibrosis, Heart regeneration, Neuregulin, Prrx1, Zebrafish, Molecular Biology, Developmental Biology

Citation

de Bakker, D E M, Bouwman, M, Dronkers, E, Simões, F C, Riley, P R, Goumans, M J, Smits, A M & Bakkers, J 2021, 'Prrx1b restricts fibrosis and promotes Nrg1-dependent cardiomyocyte proliferation during zebrafish heart regeneration', Development (Cambridge), vol. 148, no. 19, dev198937, pp. 1-13. https://doi.org/10.1242/DEV.198937