肾
多细胞生物
体内
体外
生物
肾脏疾病
细胞生物学
永生化细胞系
计算生物学
细胞
病理
细胞培养
医学
内分泌学
生物化学
遗传学
作者
Linda Gijzen,Fjodor A. Yousef Yengej,Frans Schutgens,Marianne K. Vormann,Carola M. E. Ammerlaan,Arnaud Nicolas,Dorota Kurek,Paul Vulto,Maarten B. Rookmaaker,Henriëtte L. Lanz,Marianne C. Verhaar,Hans Clevers
出处
期刊:Nature Protocols
[Springer Nature]
日期:2021-03-05
卷期号:16 (4): 2023-2050
被引量:52
标识
DOI:10.1038/s41596-020-00479-w
摘要
Advanced in vitro kidney models are of great importance to the study of renal physiology and disease. Kidney tubuloids can be established from primary cells derived from adult kidney tissue or urine. Tubuloids are three-dimensional multicellular structures that recapitulate tubular function and have been used to study infectious, malignant, metabolic, and genetic diseases. For tubuloids to more closely represent the in vivo kidney, they can be integrated into an organ-on-a-chip system that has a more physiological tubular architecture and allows flow and interaction with vasculature or epithelial and mesenchymal cells from other organs. Here, we describe a detailed protocol for establishing tubuloid cultures from tissue and urine (1-3 weeks), as well as for generating and characterizing tubuloid cell-derived three-dimensional tubular structures in a perfused microfluidic multi-chip platform (7 d). The combination of the two systems yields a powerful in vitro tool that better recapitulates the complexity of the kidney tubule with donor-specific properties.
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