Human Stem Cell-Derived Endothelial-Hepatic Platform for Efficacy Testing of Vascular-Protective Metabolites from Nutraceuticals

Author:

Narmada Balakrishnan Chakrapani1,Goh Yeek Teck1,Li Huan2,Sinha Sanjay34,Yu Hanry2567,Cheung Christine18

Affiliation:

1. a Institute of Molecular and Cell Biology, Proteos, Singapore

2. b Institute of Bioengineering and Nanotechnology, Nanos, Singapore

3. c The Anne McLaren Laboratory of Regenerative Medicine, Wellcome Trust-Medical Research Council Cambridge Stem Cell Institute, University of Cambridge, Cambridge, United Kingdom

4. d Division of Cardiovascular Medicine, Addenbrooke's Hospital, University of Cambridge, Cambridge, United Kingdom

5. e Department of Physiology, Yong Loo Lin School of Medicine, National University of Singapore, Singapore

6. f Mechanobiology Institute, Singapore

7. g Singapore-MIT Alliance for Research and Technology, BioSyM, Singapore

8. h Lee Kong Chian School of Medicine, Nanyang Technological University, Singapore

Abstract

Abstract Atherosclerosis underlies many cardiovascular and cerebrovascular diseases. Nutraceuticals are emerging as a therapeutic moiety for restoring vascular health. Unlike small-molecule drugs, the complexity of ingredients in nutraceuticals often confounds evaluation of their efficacy in preclinical evaluation. It is recognized that the liver is a vital organ in processing complex compounds into bioactive metabolites. In this work, we developed a coculture system of human pluripotent stem cell-derived endothelial cells (hPSC-ECs) and human pluripotent stem cell-derived hepatocytes (hPSC-HEPs) for predicting vascular-protective effects of nutraceuticals. To validate our model, two compounds (quercetin and genistein), known to have anti-inflammatory effects on vasculatures, were selected. We found that both quercetin and genistein were ineffective at suppressing inflammatory activation by interleukin-1β owing to limited metabolic activity of hPSC-ECs. Conversely, hPSC-HEPs demonstrated metabolic capacity to break down both nutraceuticals into primary and secondary metabolites. When hPSC-HEPs were cocultured with hPSC-ECs to permit paracrine interactions, the continuous turnover of metabolites mitigated interleukin-1β stimulation on hPSC-ECs. We observed significant reductions in inflammatory gene expressions, nuclear translocation of nuclear factor κB, and interleukin-8 production. Thus, integration of hPSC-HEPs could accurately reproduce systemic effects involved in drug metabolism in vivo to unravel beneficial constituents in nutraceuticals. This physiologically relevant endothelial-hepatic platform would be a great resource in predicting the efficacy of complex nutraceuticals and mechanistic interrogation of vascular-targeting candidate compounds.

Publisher

Oxford University Press (OUP)

Subject

Cell Biology,Developmental Biology,General Medicine

Reference75 articles.

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