Literature DB >> 30130706

Investigation of the effect of hepatic metabolism on off-target cardiotoxicity in a multi-organ human-on-a-chip system.

Carlota Oleaga1, Anne Riu2, Sandra Rothemund1, Andrea Lavado1, Christopher W McAleer3, Christopher J Long3, Keisha Persaud1, Narasimhan Sriram Narasimhan4, My Tran4, Jeffry Roles1, Carlos A Carmona-Moran1, Trevor Sasserath4, Daniel H Elbrecht3, Lee Kumanchik1, L Richard Bridges4, Candace Martin1, Mark T Schnepper1, Gail Ekman1, Max Jackson1, Ying I Wang5, Reine Note2, Jessica Langer6, Silvia Teissier2, James J Hickman7.   

Abstract

Regulation of cosmetic testing and poor predictivity of preclinical drug studies has spurred efforts to develop new methods for systemic toxicity. Current in vitro assays do not fully represent physiology, often lacking xenobiotic metabolism. Functional human multi-organ systems containing iPSC derived cardiomyocytes and primary hepatocytes were maintained under flow using a low-volume pumpless system in a serum-free medium. The functional readouts for contractile force and electrical conductivity enabled the non-invasive study of cardiac function. The presence of the hepatocytes in the system induced cardiotoxic effects from cyclophosphamide and reduced them for terfenadine due to drug metabolism, as expected from each compound's pharmacology. A computational fluid dynamics simulation enabled the prediction of terfenadine-fexofenadine pharmacokinetics, which was validated by HPLC-MS. This in vitro platform recapitulates primary aspects of the in vivo crosstalk between heart and liver and enables pharmacological studies, involving both organs in a single in vitro platform. The system enables non-invasive readouts of cardiotoxicity of drugs and their metabolites. Hepatotoxicity can also be evaluated by biomarker analysis and change in metabolic function. Integration of metabolic function in toxicology models can improve adverse effects prediction in preclinical studies and this system could also be used for chronic studies as well.
Copyright © 2018 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Cardiotoxicity; Functional readouts; Human-on-a-chip; Metabolism; Non-invasive

Mesh:

Substances:

Year:  2018        PMID: 30130706      PMCID: PMC6126670          DOI: 10.1016/j.biomaterials.2018.07.062

Source DB:  PubMed          Journal:  Biomaterials        ISSN: 0142-9612            Impact factor:   12.479


  94 in total

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