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From Spheroids to Organoids: The Next Generation of Model Systems of Human Cardiac Regeneration in a Dish

Journal

Publisher

MDPI
DOI: 10.3390/ijms222413180

Keywords

organoid; pluripotent stem cell; adult stem cell; cardiac stem cell; cardioid; heart regeneration

Funding

  1. Ministry of Education, University and Research [PRIN2017 2017NKB2N4_005, PON03PE00009_2-iCARE]

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Organoids are tiny, self-organized, three-dimensional tissue cultures derived from stem cell differentiation, mimicking specific tissue structures in vitro with great potential for a variety of applications. By exploiting the ability of cells to re-aggregate and reconstruct original organ architecture, organoids have the ability to overcome limitations of traditional 2D cell cultures, showing high promise in cardiovascular research.
Organoids are tiny, self-organized, three-dimensional tissue cultures that are derived from the differentiation of stem cells. The growing interest in the use of organoids arises from their ability to mimic the biology and physiology of specific tissue structures in vitro. Organoids indeed represent promising systems for the in vitro modeling of tissue morphogenesis and organogenesis, regenerative medicine and tissue engineering, drug therapy testing, toxicology screening, and disease modeling. Although 2D cell cultures have been used for more than 50 years, even for their simplicity and low-cost maintenance, recent years have witnessed a steep rise in the availability of organoid model systems. Exploiting the ability of cells to re-aggregate and reconstruct the original architecture of an organ makes it possible to overcome many limitations of 2D cell culture systems. In vitro replication of the cellular micro-environment of a specific tissue leads to reproducing the molecular, biochemical, and biomechanical mechanisms that directly influence cell behavior and fate within that specific tissue. Lineage-specific self-organizing organoids have now been generated for many organs. Currently, growing cardiac organoid (cardioids) from pluripotent stem cells and cardiac stem/progenitor cells remains an open challenge due to the complexity of the spreading, differentiation, and migration of cardiac muscle and vascular layers. Here, we summarize the evolution of biological model systems from the generation of 2D spheroids to 3D organoids by focusing on the generation of cardioids based on the currently available laboratory technologies and outline their high potential for cardiovascular research.

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