生物
器官发生
形态发生
间充质
间质细胞
类有机物
细胞外基质
细胞生物学
再生(生物学)
干细胞
活体细胞成像
计算生物学
间充质干细胞
细胞
遗传学
基因
癌症研究
作者
Gat Rauner,Nicole Traugh,Colin J. Trepicchio,Meadow E. Parrish,Kenan Mushayandebvu,Charlotte Kuperwasser
出处
期刊:Development
[The Company of Biologists]
日期:2025-08-06
卷期号:152 (20)
被引量:4
摘要
Current breast organoid models, primarily based on self-assembly, face limitations in accurately mimicking the complex stages of tissue development, notably in replicating detailed tissue architectures and cellular diversity. Here, we demonstrate that a solitary human breast stem cell can, within a controlled hydrogel extracellular matrix environment, autonomously generate niche signals that drive directed organogenesis, producing organoids with mesenchymal and parenchymal components. This system surpasses traditional models by forming complex, heterogeneous ductal-lobular structures akin to those in native human breast tissue with the emergence of mesenchyme-like stroma. Using long-term, high-resolution live imaging, we quantitatively analyze the dynamic tissue development and morphogenesis, capturing cellular behaviors crucial for understanding both development and disease. The inclusion of patient-derived cells from diverse biological backgrounds, including pre- and post-menopausal donors, significantly enhances the applicability of the model. Our findings underscore that this controlled organogenesis approach represents a major leap over existing methods, offering a robust platform for probing the intricacies of human breast tissue development and its responses to environmental cues.
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