Ephrin-B1 blocks adult cardiomyocyte proliferation and heart regeneration

  1. Marie Cauquil
  2. Céline Mias
  3. Céline Guilbeau-Frugier
  4. Clément Karsenty
  5. Marie-Hélène Seguelas
  6. Gaël Genet
  7. Edith Renaud-Gabardos
  8. Anne-Catherine Prats
  9. Véronique Pons
  10. Maxime Branchereau
  11. Christophe Heymes
  12. Denis Calise
  13. Olivier Lairez
  14. Danièle Daviaud
  15. Benjamin Honton
  16. Céline Frongia
  17. Bernard Ducommun
  18. Marie-Bernadette Delisle
  19. Dina N. Arvanitis
  20. Atul Pathak
  21. Jean-Michel Sénard
  22. Céline Galés

Reviewed by

Read the full article

Listed in

Log in to save this article

Abstract

Aims

Deciphering the innate mechanisms governing the blockade of proliferation in adult cardiomyocytes (CMs) is challenging for mammalian heart regeneration. Despite the exit of CMs from the cell cycle during the postnatal maturation period coincides with their morphological switch to a typical adult rod-shape, whether these two processes are connected is unknown. Here, we examined the role of ephrin-B1, a CM rod-shape stabilizer, in adult CM proliferation and cardiac regeneration.

Methods and results

Transgenic- or AAV9-based ephrin-B1 repression in adult mouse heart led to substantial proliferation of resident CMs and tissue regeneration to compensate for apex resection, myocardial infarction (MI) and senescence. Interestingly, in the resting state, CMs lacking ephrin-B1 did not constitutively proliferate, indicative of no major cardiac defects. However, they exhibited proliferation-competent signature, as indicated by higher mononucleated state and a dramatic decrease of miR-195 mitotic blocker, which can be mobilized under neuregulin-1 stimulation in vitro and in vivo . Mechanistically, the post-mitotic state of the adult CM relies on ephrin-B1 sequestering of inactive phospho-Yap1, the effector of the Hippo-pathway, at the lateral membrane. Hence, ephrin-B1 repression leads to phospho-Yap1 release in the cytosol but CM quiescence at resting state. Upon cardiac stresses (apectomy, MI, senescence), Yap1 could be activated and translocated to the nucleus to induce proliferation-gene expression and consequent CM proliferation

Conclusions

Our results identified ephrin-B1 as a new natural locker of adult CM proliferation and emphasize that targeting ephrin-B1 may prove a future promising approach in cardiac regenerative medicine for HF treatment.

Significance

The mammalian adult heart is unable to regenerate due to the inability of cardiomyocytes (CMs) to proliferate and replace cardiac tissue lost. Exploiting CM-specific transgenic mice or AAV9-based gene therapy, this works identifies ephrin-B1, a specific rod-shape stabilizer of the adult CM, as a natural padlock of adult CM proliferation for compensatory adaptation to different cardiac stresses (apectomy, MI, senescence), thus emphasizing a new link between the adult CM morphology and their proliferation potential. Moreover, the study demonstrates proof-of-concept that targeting ephrin-B1 may be an innovative therapeutic approach for ischemic heart failure.

Article activity feed

  2. Version published to 10.1101/735571v1 on bioRxiv