Advanced cardiac organoid model for studying doxorubicin-induced cardiotoxicity

心脏毒性 类有机物 阿霉素 医学 药理学 内科学 生物 毒性 细胞生物学 化疗
作者
Xian Wu,Savanna Williams,Jacques Robidoux,Srinivas Sriramula,Abdel-Rahman Abdel
出处
期刊:Toxicological Sciences [Oxford University Press]
卷期号:208 (1): 95-103 被引量:2
标识
DOI:10.1093/toxsci/kfaf115
摘要

Cardiac organoids provide an in vitro platform for studying heart disease mechanisms and drug responses. However, a major limitation is the immaturity of cardiomyocytes, restricting their ability to mimic adult cardiac physiology. Additionally, the inadequacy of commonly used extracellular matrices (ECMs), which fail to replicate the biochemical and mechanical properties of natural heart tissue, poses significant challenges. Consequently, structural integrity in cardiac organoids is impaired. Moreover, scalability remains an obstacle, as conventional ECM substitutes hinder mass production of organoids for high-throughput toxicology screening. To overcome these challenges, we developed an advanced model promoting fibroblast-driven ECM self-secretion, enabling physiologically relevant tissue architecture and function. Using the ECM-free, mature cardiomyocyte-integrated organoid model, we investigated the cardiotoxicity of doxorubicin, a widely used chemotherapeutic agent known to impair cardiac function. Cardiomyocytes derived from induced pluripotent stem cells were characterized for maturity by immunostaining for cardiac troponin T and myosin regulatory light chain 2 alongside gene expression analysis. Organoids treated with doxorubicin showed reduced size and increased collagen deposition. These structural changes correlated with functional impairments, including decreased beating rate and disrupted synchronous beating. In 2D culture, exposure to doxorubicin induced fibroblast activation, promoted early molecular signatures of endothelial-to-mesenchymal transition in endothelial cells, and triggered cytotoxic effects in cardiomyocytes. This study highlights the importance of ECM remodeling in advancing cardiac organoid models and demonstrates its potential for more accurate cardiotoxicity assessment. Addressing these limitations enhances the physiological relevance of cardiac organoid systems for drug safety assessment and cardiac disease modeling.
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