Haaker Maya W, Chang Jung-Chin, Chung Brian K, Pieper Tobias S, Noé Falko, Wang Tongtong, Geijsen Niels, Houweling Martin, Wolfrum Christian, Vaandrager Arie B, Melum Espen, Spee Bart, Helms J Bernd
Department of Biomolecular Health Sciences, Faculty of Veterinary Medicine, Utrecht University, The Netherlands.
Norwegian PSC Research Center, Department of Transplantation Medicine, Division of Surgery and Specialized Medicine, eDivision of Surgery and Specialized Medicine, Oslo University Hospital Rikshospitalet, Oslo, Norway; Institute of Clinical Medicine, Faculty of Medicine, University of Oslo, Oslo, Norway; Research Institute of Internal Medicine, Oslo University Hospital, Rikshospitalet, Oslo, Norway.
Cell Mol Gastroenterol Hepatol. 2025;19(5):101472. doi: 10.1016/j.jcmgh.2025.101472. Epub 2025 Jan 30.
BACKGROUND & AIMS: Following liver damage, ductular reaction often coincides with liver fibrosis. Proliferation of hepatic progenitor cells is observed in ductular reaction, whereas activated hepatic stellate cells (HSCs) are the main drivers of liver fibrosis. These observations may suggest a functional interaction between these 2 cell types. Here, we report on an in vitro co-culture system to examine these interactions and validate their co-expression in human liver explants.
In a 3D organoid co-culture system, we combined freshly isolated quiescent mouse HSCs and fluorescently labeled progenitor cells (undifferentiated intrahepatic cholangiocyte organoids), permitting real-time observation of cell morphology and behavior. After 7 days, cells were sorted based on the fluorescent label and analyzed for changes in gene expression.
In the 3D co-culture system, the proliferation of progenitor cells is enhanced, and HSCs are activated, recapitulating the cellular events observed in the patient liver. Both effects in 3D co-culture require close contact between the 2 different cell types. HSC activation during 3D co-culture differs from quiescent (3D mono-cultured) HSCs and activated HSCs on plastic (2D mono-culture). Upregulation of a cluster of genes containing Aldh1a2, Cthrc1, and several genes related to frizzled binding/Wnt signaling were exclusively observed in 3D co-cultured HSCs. The localized co-expression of specific genes was confirmed by spatial transcriptomics in human liver explants.
An in vitro 3D co-culture system provides evidence for direct interactions between HSCs and progenitor cells, which are sufficient to drive responses that are similar to those seen during ductular reaction and fibrosis. This model paves the way for further research into the cellular basis of liver pathology.
肝损伤后,小胆管反应常与肝纤维化同时出现。在小胆管反应中可观察到肝祖细胞的增殖,而活化的肝星状细胞(HSC)是肝纤维化的主要驱动因素。这些观察结果可能提示这两种细胞类型之间存在功能相互作用。在此,我们报告一种体外共培养系统,用于研究这些相互作用并验证它们在人肝外植体中的共表达。
在三维类器官共培养系统中,我们将新鲜分离的静止小鼠HSC与荧光标记的祖细胞(未分化的肝内胆管类器官)相结合,从而能够实时观察细胞形态和行为。7天后,根据荧光标记对细胞进行分选,并分析基因表达的变化。
在三维共培养系统中,祖细胞的增殖增强,HSC被激活,重现了在患者肝脏中观察到的细胞事件。三维共培养中的这两种效应都需要两种不同细胞类型之间的紧密接触。三维共培养期间的HSC激活不同于静止的(三维单培养)HSC和在塑料上的活化HSC(二维单培养)。仅在三维共培养的HSC中观察到包含Aldh1a2、Cthrc1和几个与卷曲蛋白结合/Wnt信号相关的基因簇的上调。通过空间转录组学在人肝外植体中证实了特定基因的局部共表达。
体外三维共培养系统为HSC与祖细胞之间的直接相互作用提供了证据,这种相互作用足以驱动类似于小胆管反应和纤维化期间所见的反应。该模型为进一步研究肝脏病理学的细胞基础铺平了道路。
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