类有机物
自愈水凝胶
细胞生物学
纤维蛋白
化学
生物
免疫学
有机化学
作者
Manon d’Arco,Nathan Provin,Pierre Maminirina,Olivier Baron,Carole Guillonneau,Laurent David,Matthieu Giraud
摘要
Generation of a functional and self-tolerant T cell repertoire is a complex process dependent on the thymic microenvironment and, primarily, on the properties of its extracellular matrix (ECM). Thymic epithelial cells (TECs) are crucial in thymopoiesis, nurturing and selecting developing T cells by filtering self-reactive clones. TECs have been empirically demonstrated to be particularly sensitive to physical and chemical clues supplied by the ECM and classical monolayer cell culture leads to a quick loss of functionality until their death. Because of this delicate maintenance combined with relative rarity, and despite the high stakes in modeling thymus biology in vitro, models able to faithfully mimic the TEC niche at scale and over time are still lacking. Here, we describe the formation of a multicellular human thymic organoid model, in which the TEC compartment is derived from human induced pluripotent stem cells (iPSC) and reaggregated with primary early thymocyte progenitors in a three-dimensional (3D) fibrin-based hydrogel. This model answers current needs for a scalable culture system that reproduces the thymic microenvironment ex vivo and demonstrates functionality, i.e., the ability to produce T cells and to support thymus organoid growth over several weeks. Thus, we propose a practical in vitro model of thymus functionality through iPSC-derived organoids that would benefit research on TEC biology and T cell generation ex vivo.
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