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. 2024 Sep 21;120(11):1295-1311.
doi: 10.1093/cvr/cvae118.

Transient stabilization of human cardiovascular progenitor cells from human pluripotent stem cells in vitro reflects stage-specific heart development in vivo

Emiliano Bolesani  1 Dorothee Bornhorst  2   3 Lavanya M Iyer  4   5 Dorota Zawada  6 Nina Friese  1 Michael Morgan  7 Lucas Lange  7 David M Gonzalez  8 Nadine Schrode  8 Andreas Leffler  9 Julian Wunder  9 Annika Franke  1 Lika Drakhlis  1 Robert Sebra  8 Axel Schambach  7 Alexander Goedel  6 Nicole C Dubois  8 Gergana Dobreva  10 Alessandra Moretti  6   11 Laura C Zelaráyan  4 Salim Abdelilah-Seyfried  2   3 Robert Zweigerdt  1
Affiliations

Transient stabilization of human cardiovascular progenitor cells from human pluripotent stem cells in vitro reflects stage-specific heart development in vivo

Emiliano Bolesani et al. Cardiovasc Res. .

Erratum in

Abstract

Aims: Understanding the molecular identity of human pluripotent stem cell (hPSC)-derived cardiac progenitors and mechanisms controlling their proliferation and differentiation is valuable for developmental biology and regenerative medicine.

Methods and results: Here, we show that chemical modulation of histone acetyl transferases (by IQ-1) and WNT (by CHIR99021) synergistically enables the transient and reversible block of directed cardiac differentiation progression on hPSCs. The resulting stabilized cardiovascular progenitors (SCPs) are characterized by ISL1pos/KI-67pos/NKX2-5neg expression. In the presence of the chemical inhibitors, SCPs maintain a proliferation quiescent state. Upon small molecules, removal SCPs resume proliferation and concomitant NKX2-5 up-regulation triggers cell-autonomous differentiation into cardiomyocytes. Directed differentiation of SCPs into the endothelial and smooth muscle lineages confirms their full developmental potential typical of bona fide cardiovascular progenitors. Single-cell RNA-sequencing-based transcriptional profiling of our in vitro generated human SCPs notably reflects the dynamic cellular composition of E8.25-E9.25 posterior second heart field of mouse hearts, hallmarked by nuclear receptor sub-family 2 group F member 2 expression. Investigating molecular mechanisms of SCP stabilization, we found that the cell-autonomously regulated retinoic acid and BMP signalling is governing SCP transition from quiescence towards proliferation and cell-autonomous differentiation, reminiscent of a niche-like behaviour.

Conclusion: The chemically defined and reversible nature of our stabilization approach provides an unprecedented opportunity to dissect mechanisms of cardiovascular progenitors' specification and reveal their cellular and molecular properties.

Keywords: Histone acetyl transferases; Second heart field; Small molecules; WNT pathway; hPSC-derived cardiovascular progenitors.

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Conflict of interest statement

Conflict of interest: none declared.

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