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Literature DB >> 32619518

Wnt Activation and Reduced Cell-Cell Contact Synergistically Induce Massive Expansion of Functional Human iPSC-Derived Cardiomyocytes.

Jan W Buikema¹, Soah Lee², William R Goodyer³, Renee G Maas⁴, Orlando Chirikian², Guang Li², Yi Miao⁵, Sharon L Paige³, Daniel Lee², Haodi Wu², David T Paik², Siyeon Rhee⁶, Lei Tian², Francisco X Galdos², Nazan Puluca², Benjamin Beyersdorf², James Hu², Aimee Beck², Sneha Venkamatran², Srilatha Swami⁷, Paul Wijnker⁸, Maike Schuldt⁸, Larissa M Dorsch⁸, Alain van Mil⁴, Kristy Red-Horse⁹, Joy Y Wu⁷, Caroline Geisen¹⁰, Michael Hesse¹⁰, Vahid Serpooshan¹¹, Stefan Jovinge¹², Bernd K Fleischmann¹⁰, Pieter A Doevendans¹³, Jolanda van der Velden⁸, K Christopher Garcia⁵, Joseph C Wu¹⁴, Joost P G Sluijter⁴, Sean M Wu¹⁵.

Abstract

Modulating signaling pathways including Wnt and Hippo can induce cardiomyocyte proliferation in vivo. Applying these signaling modulators to human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) in vitro can expand CMs modestly (<5-fold). Here, we demonstrate massive expansion of hiPSC-CMs in vitro (i.e., 100- to 250-fold) by glycogen synthase kinase-3β (GSK-3β) inhibition using CHIR99021 and concurrent removal of cell-cell contact. We show that GSK-3β inhibition suppresses CM maturation, while contact removal prevents CMs from cell cycle exit. Remarkably, contact removal enabled 10 to 25 times greater expansion beyond GSK-3β inhibition alone. Mechanistically, persistent CM proliferation required both LEF/TCF activity and AKT phosphorylation but was independent from yes-associated protein (YAP) signaling. Engineered heart tissues from expanded hiPSC-CMs showed comparable contractility to those from unexpanded hiPSC-CMs, demonstrating uncompromised cellular functionality after expansion. In summary, we uncovered a molecular interplay that enables massive hiPSC-CM expansion for large-scale drug screening and tissue engineering applications.

Entities: CellLine Chemical Disease Gene Species

Keywords: GSK3; Wnt signaling; cardiomyocytes; expansion; induced pluripotent stem cells; maturation; proliferation

Mesh：

Substances：

Year: 2020 PMID： 32619518 PMCID： PMC7334437 DOI： 10.1016/j.stem.2020.06.001

Source DB: PubMed Journal: Cell Stem Cell ISSN： 1875-9777 Impact factor: 24.633

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