Affiliation:
1. Department of Chemical and Biomolecular Engineering, University of California Irvine 1 , Irvine, California 92697, USA
2. Sue & Bill Gross Stem Cell Research Center, University of California Irvine 2 , Irvine, California 92697, USA
Abstract
The development of physiologically relevant in vitro systems for simulating disease onset and progression and predicting drug metabolism holds tremendous value in reducing drug discovery time and cost. However, many of these platforms lack accuracy in replicating the tissue architecture and multicellular interactions. By leveraging three-dimensional cell culture, biomimetic soft hydrogels, and engineered stimuli, in vitro models have continued to progress. Nonetheless, the incorporation of the microvasculature has been met with many challenges, specifically with the addition of parenchymal cell types. Here, a systematic approach to investigating the initial seeding density of endothelial cells and its effects on interconnected networks was taken and combined with hepatic spheroids to form a liver-on-a-chip model. Leveraging this system, nicotine's effects on microvasculature and hepatic function were investigated. The findings indicated that nicotine led to interrupted adherens junctions, decreased guanosine triphosphate cyclohydrolase 1 expression, impaired angiogenesis, and lowered barrier function, all key factors in endothelial dysfunction. With the combination of the optimized microvascular networks, a vascularized liver-on-a-chip was formed, providing functional xenobiotic metabolism and synthesis of both albumin and urea. This system provides insight into potential hepatotoxicity caused by various drugs and allows for assessing vascular dysfunction in a high throughput manner.
Funder
Howard Hughes Medical Institute
National Institutes of Health
Subject
Condensed Matter Physics,General Materials Science,Fluid Flow and Transfer Processes,Colloid and Surface Chemistry,Biomedical Engineering
Cited by
6 articles.
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