Redifferentiated cardiomyocytes retain residual dedifferentiation signatures and are protected against ischemic injury

Publication date

2023-04

Authors

Shakked, Avraham
Petrover, Zachary
Aharonov, Alla
Ghiringhelli, Matteo
Umansky, Kfir Baruch
Kain, David
Elkahal, Jacob
Divinsky, Yalin
Nguyen, Phong D
Miyara, Shoval

Editors

Advisors

Supervisors

Document Type

Article

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License

taverne

Abstract

Cardiomyocyte proliferation and dedifferentiation have fueled the field of regenerative cardiology in recent years, whereas the reverse process of redifferentiation remains largely unexplored. Redifferentiation is characterized by the restoration of function lost during dedifferentiation. Previously, we showed that ERBB2-mediated heart regeneration has these two distinct phases: transient dedifferentiation and redifferentiation. Here we survey the temporal transcriptomic and proteomic landscape of dedifferentiation–redifferentiation in adult mouse hearts and reveal that well-characterized dedifferentiation features largely return to normal, although elements of residual dedifferentiation remain, even after the contractile function is restored. These hearts appear rejuvenated and show robust resistance to ischemic injury, even 5 months after redifferentiation initiation. Cardiomyocyte redifferentiation is driven by negative feedback signaling and requires LATS1/2 Hippo pathway activity. Our data reveal the importance of cardiomyocyte redifferentiation in functional restoration during regeneration but also protection against future insult, in what could lead to a potential prophylactic treatment against ischemic heart disease for at-risk patients.

Keywords

Taverne, Biochemistry, Genetics and Molecular Biology (miscellaneous), Cell Biology, Medicine (miscellaneous), Cardiology and Cardiovascular Medicine

Citation

Shakked, A, Petrover, Z, Aharonov, A, Ghiringhelli, M, Umansky, K B, Kain, D, Elkahal, J, Divinsky, Y, Nguyen, P D, Miyara, S, Friedlander, G, Savidor, A, Zhang, L, Perez, D E, Sarig, R, Lendengolts, D, Bueno-Levy, H, Kastan, N, Levin, Y, Bakkers, J, Gepstein, L & Tzahor, E 2023, 'Redifferentiated cardiomyocytes retain residual dedifferentiation signatures and are protected against ischemic injury', Nature Cardiovascular Research, vol. 2, no. 4, pp. 383-398. https://doi.org/10.1038/s44161-023-00250-w