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Optimization of culture conditions to generate vascularized multi-lineage liver organoids with structural complexity and functionality

类有机物 材料科学 谱系(遗传) 计算机科学 纳米技术 计算生物学 生物 细胞生物学 遗传学 基因
作者
Kyun Yoo,Gyeongmin Kim,Hyo Jin Kim,Hyemin Kim,Seongyea Jo,Jihun Lee,Youngseok Lee,Heeseok Yoon,Seung-Hyun Cho,Jeongjun Kim,Jeongjun Kim,Jin-Seok Lee,Gyu‐Bum Yeon,Dae‐Sung Kim,Han‐Jin Park,Gyu-Bum Yeon,Dae-Sung Kim,Dae‐Sung Kim,Han‐Jin Park,Jong‐Hoon Kim
出处
期刊:Biomaterials [Elsevier BV]
卷期号:314: 122898-122898 被引量:16
标识
DOI:10.1016/j.biomaterials.2024.122898
摘要

Hepatic organoids (HOs), primarily composed of hepatobiliary cells, do not represent the pathogenesis of liver diseases due to the lack of non-parenchymal cells. Multi-lineage liver organoids (mLOs) containing various cell types found in the liver offer a promising in vitro disease model. However, their structural complexity remains challenging to achieve due to the difficulty in optimizing culture conditions that meet the growth need of all component cell types. Here, we demonstrate that cystic HOs generated from hPSCs can be expanded long-term and serve as a continuous source for generating complex mLOs. Assembling cystic HOs with hPSC-derived endothelial and hepatic stellate cell-like cells under conventional HO culture conditions failed to support the development of multiple cell types within mLOs, resulting in biased differentiation towards specific cell types. In contrast, modulating the cAMP/Wnt/Hippo signaling pathways with small molecules during assembly and differentiation phases efficiently generate mLOs containing both hepatic parenchymal and non-parenchymal cells. These mLOs exhibited structural complexity and functional maturity, including vascular network formation between parenchymal lobular structures, cell polarity for bile secretion, and the capacity to respond to fibrotic stimuli. Our study underscores the importance of modulating signaling pathways to enhance mLO structural complexity for applications in modeling liver pathologies.
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