Comparison of Engineered Liver 3D Models and the Role of Oxygenation for Patient‐Derived Tumor Cells and Immortalized Cell Lines Cocultured with Tumor Stroma in the Detection of Hepatotoxins

In metabolically active tumors, responses of cells to drugs are heavily influenced by oxygen availability via the surrounding vasculature alongside the extracellular matrix signaling. The objective of this study is to investigate hepatotoxicity by replicating critical features of hepatocellular carc...

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Published in:Advanced biology 2024-02, Vol.8 (2), p.e2300386-n/a
Main Authors: Mansouri, Mona, Lamichhane, Astha, Das, Dola, Aucejo, Federico, Tavana, Hossein, Leipzig, Nic D.
Format: Article
Language:English
Subjects:
apoptosis pathways
Carcinoma, Hepatocellular - metabolism
Carcinoma, Hepatocellular - pathology
Cell Line
Coculture Techniques
drug screening
Drug-Related Side Effects and Adverse Reactions
Humans
Liver Neoplasms - metabolism
Liver Neoplasms - pathology
modeling liver tumors
oxygenation
polymeric microparticles
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Summary:In metabolically active tumors, responses of cells to drugs are heavily influenced by oxygen availability via the surrounding vasculature alongside the extracellular matrix signaling. The objective of this study is to investigate hepatotoxicity by replicating critical features of hepatocellular carcinoma (HCC). This includes replicating 3D structures, metabolic activities, and tumor‐specific markers. The internal environment of spheroids comprised of cancerous human patient‐derived hepatocytes using microparticles is modulated to enhance the oxygenation state and recreate cell‐extracellular matrix interactions. Furthermore, the role of hepatic stellate cells in maintaining hepatocyte survival and function is explored and hepatocytes from two cellular sources (immortalized and patient‐derived) to create four formulations with and without microparticles are utilized. To investigate drug‐induced changes in metabolism and apoptosis in liver cells, coculture spheroids with and without microparticles are exposed to three hepatotoxic drugs. The use of microparticles increases levels of apoptotic markers in both liver models under drug treatments. This coincides with reduced levels of anti‐apoptotic proteins and increased levels of pro‐apoptotic proteins. Moreover, cells from different origins undergo apoptosis through distinct apoptotic pathways in response to identical drugs. This 3D microphysiological system offers a viable tool for liver cancer research to investigate mechanisms of apoptosis under different microenvironmental conditions. Here, solid liver tumors are modeled using varied coculture spheroids combined with extracellular matrix presenting oxygenating microparticles. This shows that microparticles boost tumor cell function in 3D cultures, while increasing sensitivity to hepatotoxic drugs. Additionally, it highlights that varying cell origins triggers unique apoptotic pathways in response to identical drugs, highlighting the importance of the microenvironment in accurate cancer therapy modeling.
ISSN:2701-0198
2701-0198
DOI:10.1002/adbi.202300386