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RGD density along with substrate stiffness regulate hPSC hepatocyte functionality through YAP signalling

Human pluripotent stem cell-derived hepatocytes (hPSC-Heps) may be suitable for treating liver diseases, but differentiation protocols often fail to yield adult-like cells. We hypothesised that replicating healthy liver niche biochemical and biophysical cues would produce hepatocytes with desired me...

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Published in:	Biomaterials 2023-02, Vol.293, p.121982-121982, Article 121982
Main Authors:	Blackford, Samuel J.I., Yu, Tracy T.L., Norman, Michael D.A., Syanda, Adam M., Manolakakis, Michail, Lachowski, Dariusz, Yan, Ziqian, Guo, Yunzhe, Garitta, Elena, Riccio, Federica, Jowett, Geraldine M., Ng, Soon Seng, Vernia, Santiago, del Río Hernández, Armando E., Gentleman, Eileen, Rashid, S. Tamir
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Language:	English
Subjects:	Cell Differentiation Colforsin - metabolism Colforsin - pharmacology Cytochrome P-450 Enzyme System - metabolism Cytochrome P-450 Enzyme System - pharmacology Hepatocyte Hepatocytes Humans Hydrogel Hydrogels - chemistry Induced pluripotent stem cell Mechanosensing Oligopeptides - metabolism Oligopeptides - pharmacology YAP
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creator	Blackford, Samuel J.I. Yu, Tracy T.L. Norman, Michael D.A. Syanda, Adam M. Manolakakis, Michail Lachowski, Dariusz Yan, Ziqian Guo, Yunzhe Garitta, Elena Riccio, Federica Jowett, Geraldine M. Ng, Soon Seng Vernia, Santiago del Río Hernández, Armando E. Gentleman, Eileen Rashid, S. Tamir
description	Human pluripotent stem cell-derived hepatocytes (hPSC-Heps) may be suitable for treating liver diseases, but differentiation protocols often fail to yield adult-like cells. We hypothesised that replicating healthy liver niche biochemical and biophysical cues would produce hepatocytes with desired metabolic functionality. Using 2D synthetic hydrogels which independently control mechanical properties and biochemical cues, we found that culturing hPSC-Heps on surfaces matching the stiffness of fibrotic liver tissue upregulated expression of genes for RGD-binding integrins, and increased expression of YAP/TAZ and their transcriptional targets. Alternatively, culture on soft, healthy liver-like substrates drove increases in cytochrome p450 activity and ureagenesis. Knockdown of ITGB1 or reducing RGD-motif-containing peptide concentration in stiff hydrogels reduced YAP activity and improved metabolic functionality; however, on soft substrates, reducing RGD concentration had the opposite effect. Furthermore, targeting YAP activity with verteporfin or forskolin increased cytochrome p450 activity, with forskolin dramatically enhancing urea synthesis. hPSC-Heps could also be successfully encapsulated within RGD peptide-containing hydrogels without negatively impacting hepatic functionality, and compared to 2D cultures, 3D cultured hPSC-Heps secreted significantly less fetal liver-associated alpha-fetoprotein, suggesting furthered differentiation. Our platform overcomes technical hurdles in replicating the liver niche, and allowed us to identify a role for YAP/TAZ-mediated mechanosensing in hPSC-Hep differentiation.
doi_str_mv	10.1016/j.biomaterials.2022.121982
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Tamir</creator><creatorcontrib>Blackford, Samuel J.I. ; Yu, Tracy T.L. ; Norman, Michael D.A. ; Syanda, Adam M. ; Manolakakis, Michail ; Lachowski, Dariusz ; Yan, Ziqian ; Guo, Yunzhe ; Garitta, Elena ; Riccio, Federica ; Jowett, Geraldine M. ; Ng, Soon Seng ; Vernia, Santiago ; del Río Hernández, Armando E. ; Gentleman, Eileen ; Rashid, S. Tamir</creatorcontrib><description>Human pluripotent stem cell-derived hepatocytes (hPSC-Heps) may be suitable for treating liver diseases, but differentiation protocols often fail to yield adult-like cells. We hypothesised that replicating healthy liver niche biochemical and biophysical cues would produce hepatocytes with desired metabolic functionality. 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Tamir</creatorcontrib><title>RGD density along with substrate stiffness regulate hPSC hepatocyte functionality through YAP signalling</title><title>Biomaterials</title><addtitle>Biomaterials</addtitle><description>Human pluripotent stem cell-derived hepatocytes (hPSC-Heps) may be suitable for treating liver diseases, but differentiation protocols often fail to yield adult-like cells. We hypothesised that replicating healthy liver niche biochemical and biophysical cues would produce hepatocytes with desired metabolic functionality. Using 2D synthetic hydrogels which independently control mechanical properties and biochemical cues, we found that culturing hPSC-Heps on surfaces matching the stiffness of fibrotic liver tissue upregulated expression of genes for RGD-binding integrins, and increased expression of YAP/TAZ and their transcriptional targets. Alternatively, culture on soft, healthy liver-like substrates drove increases in cytochrome p450 activity and ureagenesis. 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Tamir</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>RGD density along with substrate stiffness regulate hPSC hepatocyte functionality through YAP signalling</atitle><jtitle>Biomaterials</jtitle><addtitle>Biomaterials</addtitle><date>2023-02</date><risdate>2023</risdate><volume>293</volume><spage>121982</spage><epage>121982</epage><pages>121982-121982</pages><artnum>121982</artnum><issn>0142-9612</issn><eissn>1878-5905</eissn><abstract>Human pluripotent stem cell-derived hepatocytes (hPSC-Heps) may be suitable for treating liver diseases, but differentiation protocols often fail to yield adult-like cells. We hypothesised that replicating healthy liver niche biochemical and biophysical cues would produce hepatocytes with desired metabolic functionality. 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Furthermore, targeting YAP activity with verteporfin or forskolin increased cytochrome p450 activity, with forskolin dramatically enhancing urea synthesis. hPSC-Heps could also be successfully encapsulated within RGD peptide-containing hydrogels without negatively impacting hepatic functionality, and compared to 2D cultures, 3D cultured hPSC-Heps secreted significantly less fetal liver-associated alpha-fetoprotein, suggesting furthered differentiation. 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subjects	Cell Differentiation Colforsin - metabolism Colforsin - pharmacology Cytochrome P-450 Enzyme System - metabolism Cytochrome P-450 Enzyme System - pharmacology Hepatocyte Hepatocytes Humans Hydrogel Hydrogels - chemistry Induced pluripotent stem cell Mechanosensing Oligopeptides - metabolism Oligopeptides - pharmacology YAP
title	RGD density along with substrate stiffness regulate hPSC hepatocyte functionality through YAP signalling
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