Single-Cell Transcriptomic Analysis of Cardiac Differentiation from Human PSCs Reveals HOPX-Dependent Cardiomyocyte Maturation.

PMID:30290179

IF: 25.269

Cited by: 191

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Abstract

Cardiac differentiation of human pluripotent stem cells (hPSCs) requires orchestration of dynamic gene regulatory networks during stepwise fate transitions but often generates immature cell types that do not fully recapitulate properties of their adult counterparts, suggesting incomplete activation of key transcriptional networks. We performed extensive single-cell transcriptomic analyses to map fate choices and gene expression programs during cardiac differentiation of hPSCs and identified strategies to improve in vitro cardiomyocyte differentiation. Utilizing genetic gain- and loss-of-function approaches, we found that hypertrophic signaling is not effectively activated during monolayer-based cardiac differentiation, thereby preventing expression of HOPX and its activation of downstream genes that govern late stages of cardiomyocyte maturation. This study therefore provides a key transcriptional roadmap of in vitro cardiac differentiation at single-cell resolution, revealing fundamental mechanisms underlying heart development and differentiation of hPSC-derived cardiomyocytes.

Keywords

Cellular Genomics

Gene Expression

CRISPRi

HOPX

cardiomyocytes

development

heart

human pluripotent stem cells

hypertrophy

in silico lineage tracing

scdiff

single-cell RNA-seq

MeSH terms

Animals

Cell Differentiation

Cells, Cultured

Female

Homeodomain Proteins

Humans

Male

Mice

Mice, Inbred C3H

Mice, Inbred C57BL

Mice, Inbred NOD

Mice, Knockout

Mice, Transgenic

Myocytes, Cardiac

Pluripotent Stem Cells

Single-Cell Analysis

Transcriptome

Tumor Suppressor Proteins

Authors

Friedman, Clayton E

Nguyen, Quan

Lukowski, Samuel W

Helfer, Abbigail

Chiu, Han Sheng

Miklas, Jason

Levy, Shiri

Suo, Shengbao

Han, Jing-Dong Jackie

Osteil, Pierre

Peng, Guangdun

Jing, Naihe

Baillie, Greg J

Senabouth, Anne

Christ, Angelika N

Bruxner, Timothy J

Murry, Charles E

Wong, Emily S

Ding, Jun

Wang, Yuliang

Hudson, James

Ruohola-Baker, Hannele

Bar-Joseph, Ziv

Tam, Patrick P L

Powell, Joseph E

Palpant, Nathan J

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