Combining Extracellular miRNA Determination with Microfluidic 3D Cell Cultures for the Assessment of Nephrotoxicity: a Proof of Concept Study
Publication year
2018Source
Aaps Journal, 20, 5, (2018), pp. 86, article 86ISSN
Publication type
Article / Letter to editor
![https://hdl.handle.net/2066/196747](/themes/Mirage2//images/copy.png)
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Organization
Pharmacology-Toxicology
Radboudumc Extern
Journal title
Aaps Journal
Volume
vol. 20
Issue
iss. 5
Page start
p. 86
Subject
Radboudumc 11: Renal disorders RIMLS: Radboud Institute for Molecular Life Sciences; Pharmacology-Toxicology - Radboud University Medical CenterAbstract
Drug-induced kidney injury is often observed in the clinics and can lead to long-term organ failure. In this work, we evaluated a novel in vitro system that aims at detecting whether compounds can cause renal proximal tubule damage in man. For this, we implemented organotypic cultures of human conditionally immortalized proximal tubule epithelial cells overexpressing the organic anion transporter 1 (ciPTEC-OAT1) in a three-channel OrganoPlate under microfluidic conditions. Cells were exposed to four known nephrotoxicants (cisplatin, tenofovir, cyclosporine A, and tobramycin). The effect on cell viability and NAG release into the medium was determined. A novel panel of four miRNAs (mir-21, mir-29a, mir-34a, and mir-192) was selected as potential biomarkers of proximal tubule damage. After nephrotoxicant treatment, miRNA levels in culture medium were earlier indicators than cell viability (WST-8 assay) and outperformed NAG for proximal tubule damage. In particular, mir-29a, mir-34a, and mir-192 were highly reproducible between experiments and across compounds, whereas mir-21 showed more variability. Moreover, similar data were obtained in two different laboratories, underlining the reproducibility and technical transferability of the results, a key requirement for the implementation of novel biomarkers. In conclusion, the selected miRNAs behaved like sensitive biomarkers of damage to tubular epithelial cells caused by several nephrotoxicity mechanisms. This biomarker panel, in combination with the 3D cultures of ciPTEC-OAT1 in the OrganoPlate, represents a novel tool for in vitro nephrotoxicity detection. These results pave the way for the application of miRNAs in longitudinal, time-course in vitro toxicity studies.
This item appears in the following Collection(s)
- Academic publications [248380]
- Electronic publications [135728]
- Faculty of Medical Sciences [94201]
- Open Access publications [108995]
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