Development of a biomimetic liver tumor-on-a-chip model based on decellularized liver matrix for toxicity testing

Cancer poses a great health threat to both developed and developing countries, and anti-cancer drugs are of important interest for improved clinical outcomes. Although tumor-on-a-chip technologies offer a feasible approach to screening drug toxicity, their capability to mimic the native tumor microe...

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Bibliographic Details
Published in:Lab on a chip 2018-11, Vol.18 (22), p.3379-3392
Main Authors: Lu, Siming, Cuzzucoli, Fabio, Jiang, Jing, Liang, Li-Guo, Wang, Yimin, Kong, Mengqi, Zhao, Xin, Cui, Wenguo, Li, Jun, Wang, ShuQi
Format: Article
Language:English
Subjects:
Animals
Biocompatibility
Biomimetics
Biomimetics - instrumentation
Cancer
Cell Survival - drug effects
Developing countries
Drug Screening Assays, Antitumor - instrumentation
Extracellular Matrix - pathology
Gelatin
Growth factors
Hep G2 Cells
Humans
Hydrogels - chemistry
In vivo methods and tests
Lab-On-A-Chip Devices
LDCs
Liver
Liver Neoplasms - pathology
Microfluidics
Mimicry
Pharmacology
Proteins
Rats
Rats, Sprague-Dawley
Shear stress
Stiffness
Toxicity testing
Tumors
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Summary:Cancer poses a great health threat to both developed and developing countries, and anti-cancer drugs are of important interest for improved clinical outcomes. Although tumor-on-a-chip technologies offer a feasible approach to screening drug toxicity, their capability to mimic the native tumor microenvironment (TME) is still limited. For better mimicry of the TME, we developed a biomimetic three-dimensional (3D) liver tumor-on-a-chip with the integration of essential components derived from decellularized liver matrix (DLM) with gelatin methacryloyl (GelMA) in a microfluidics-based 3D dynamic cell culture system. The biomimetic liver tumor-on-a-chip based on the integration of DLM components with GelMA, as opposed to GelMA only, had an increased capability to maintain cell viability and to enhance hepatocyte functions under flow conditions. The improved performance of the DLM-GelMA-based tumor-on-a-chip may be attributed to the provision of biochemical factors ( e.g. , growth factors), the preservation of scaffold proteins, and the reestablishment of biophysical cues ( e.g. , stiffness and shear stress) for better recapitulation of the 3D liver TME. Furthermore, this DLM-GelMA-based tumor-on-a-chip exhibited linear dose-dependent drug responses to the toxicity of acetaminophen and sorafenib. Taken together, our study demonstrates that the DLM-GelMA-based biomimetic liver tumor-on-a-chip better mimics the in vivo TME and holds great promise for a breadth of pathological and pharmacological studies. A tumor-on-a-chip platform with integration of decellularized liver matrix offers better biomimicry of tumor microenvironment and enhanced toxicity testing.
ISSN:1473-0197
1473-0189
DOI:10.1039/c8lc00852c