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Cost-Effective Mechanical Aggregation of Cardiac Progenitors and Encapsulation in Matrigel Support Self-Organization in a Dynamic Culture Environment. | LitMetric

AI Article Synopsis

  • Human iPSC-derived cardiac tissues can enhance disease modeling and drug screening by improving test accuracy and reducing costs, but current methods are limited by static culture conditions and the need for specialized equipment.
  • This study presents a new approach that combines manual aggregation, Matrigel encapsulation, and dynamic culture to promote better cardiac differentiation and organization, achieving high levels of functional aggregates.
  • The integration of factors like VEGF significantly boosts cell development and the formation of microvessel-like structures, suggesting that optimized culture conditions can lead to more effective models for drug testing and understanding heart diseases.

Article Abstract

Human iPSC-derived self-organized cardiac tissues can be valuable for the development of platforms for disease modeling and drug screening, enhancing test accuracy and reducing pharmaceutical industry financial burden. However, current differentiation systems still rely on static culture conditions and specialized commercial microwells for aggregation, which hinders the full potential of hiPSC-derived cardiac tissues. Herein, we integrate cost-effective and reproducible manual aggregation of hiPSC-derived cardiac progenitors with Matrigel encapsulation and a dynamic culture to support hiPSC cardiac differentiation and self-organization. Manual aggregation at day 7 of cardiac differentiation resulted in 97% of beating aggregates with 78% of cTnT-positive cells. Matrigel encapsulation conjugated with a dynamic culture promoted cell migration and the creation of organized structures, with observed cell polarization and the creation of lumens. In addition, encapsulation increased buoyancy and decreased coalescence of the hiPSC-derived cardiac aggregates. Moreover, VEGF supplementation increased over two-fold the percentage of CD31-positive cells resulting in the emergence of microvessel-like structures. Thus, this study shows that the explored culture parameters support the self-organization of hiPSC-derived cardiac microtissues containing multiple cardiac cell types. Additional stimuli (e.g., BMP) in long-term scalable and fully automatized cultures can further potentiate highly structured and mature hiPSC-derived cardiac models, contributing to the development of reliable platforms for high-throughput drug screening and disease modeling.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9779514PMC
http://dx.doi.org/10.3390/ijms232415785DOI Listing

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