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Multicellular Human Cardiac Organoids Transcriptomically Model Distinct Tissue-Level Features of Adult Myocardium

Charles M. Kerr, Dylan Richards, Donald R. Menick, Kristine Y. DeLeon‐Pennell, Ying Mei

2021International Journal of Molecular Sciences30 citationsDOIOpen Access PDF

Abstract

Human-induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) have been widely used for disease modeling and drug cardiotoxicity screening. To this end, we recently developed human cardiac organoids (hCOs) for modeling human myocardium. Here, we perform a transcriptomic analysis of various in vitro hiPSC-CM platforms (2D iPSC-CM, 3D iPSC-CM and hCOs) to deduce the strengths and limitations of these in vitro models. We further compared iPSC-CM models to human myocardium samples. Our data show that the 3D in vitro environment of 3D hiPSC-CMs and hCOs stimulates the expression of genes associated with tissue formation. The hCOs demonstrated diverse physiologically relevant cellular functions compared to the hiPSC-CM only models. Including other cardiac cell types within hCOs led to more transcriptomic similarities to adult myocardium. hCOs lack matured cardiomyocytes and immune cells, which limits a complete replication of human adult myocardium. In conclusion, 3D hCOs are transcriptomically similar to myocardium, and future developments of engineered 3D cardiac models would benefit from diversifying cell populations, especially immune cells.

Topics & Concepts

Multicellular organismInduced pluripotent stem cellOrganoidTranscriptomeIn vitroCell biologyBiologyComputational biologyImmune systemNeuroscienceCellGeneGene expressionImmunologyEmbryonic stem cellGeneticsPluripotent Stem Cells Research3D Printing in Biomedical ResearchCardiac Fibrosis and Remodeling