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1. Oxygen Plasma Substrate and Specific Nanopattern Promote Early Differentiation of HepaRG Progenitors

Author

Katie Morgan, Steven D. Morley, Leonard J Nelson, Kay Samuel, Peter C. Hayes, John N. Plevris, Joanna Brzeszczynska, Anna Bryans, Filip Brzeszczyński, Nikolaj Gadegaard, and Philipp Treskes

Subjects
Plasma Gases, 0206 medical engineering, Biomedical Engineering, Cell Culture Techniques, Bioengineering, 02 engineering and technology, Biochemistry, Cell Line, Biomaterials, 03 medical and health sciences, Tissue culture, chemistry.chemical_compound, Humans, Progenitor cell, 030304 developmental biology, Progenitor, 0303 health sciences, Chemistry, Dimethyl sulfoxide, Substrate (chemistry), Cell Differentiation, 020601 biomedical engineering, Cell biology, Oxygen, Cell culture, Hepatic stellate cell, Hepatocytes, Function (biology)
Abstract

Fully differentiated HepaRG™ cells are the hepatic cell line of choice for in vitro study in toxicology and drug trials. They are derived from a hepatoblast-like progenitor (HepaRG-P) that differentiates into a coculture of hepatocyte-like and cholangiocyte-like cells. This process that requires 2 weeks of proliferation followed by 2 weeks of differentiation using dimethyl sulfoxide (DMSO) can be time consuming and costly. Identifying a method to accelerate HepaRG-Ps toward a mature lineage would save both time and money. The ability to do this in the absence of DMSO would remove the possibility of confounding toxicology results caused by DMSO induction of CYP pathways. It has been shown that tissue culture substrates play an important role in the development and maturity of a cell line, and this is particularly important for progenitor cells, which retain some form of plasticity. Oxygen plasma treatment is used extensively to modify cell culture substrates. There is also evidence that patterned rather than planar surfaces have a positive effect on proliferation and differentiation. In this study, we compared the effect of standard tissue culture plastic (TCP), oxygen plasma coated (OPC), and nanopatterned substrates (NPS) on early differentiation and function of HepaRG-P cells. Since NPS were OPC we initially compared the effect of TCP and OPC to enable comparison between all three culture surfaces using OPC as control to asses if patterning further enhanced early differentiation and functionality. The results show that HepaRG-P's grown on OPC substrate exhibited earlier differentiation, proliferation, and function compared with TCP. Culturing HepaRG-P's on OPC with the addition of NPS did not confer any additional advantage. In conclusion, OPC surface appeared to enhance hepatic differentiation and functionality and could replace traditional methods of differentiating HepaRG-P cells into fully differentiated and functional HepaRGs earlier than standard methods. Impact statement We show significantly earlier differentiation and function of HepaRG progenitor cells when grown in dimethyl sulfoxide-free medium on oxygen plasma substrates versus standard tissue culture plastic. Further investigation showed that nanopatterning of oxygen plasma substrates did not confer any additional advantage over smooth oxygen plasma, although one pattern (DSQ120) showed comparable early differentiation and function.

Published
2020

2. HepaRG-Progenitor Cell Derived Hepatocytes Cultured in Bioartificial Livers Are Protected from Healthy- and Acute Liver Failure-Plasma Induced Toxicity

Author

Ronald P.J. Oude Elferink, Thomas M. van Gulik, Vincent A. van der Mark, Philipp Treskes, Robert A. F. M. Chamuleau, Martien van Wenum, Aziza A. A. Adam, Aldo Jongejan, Ruurdtje Hoekstra, Perry D. Moerland, Graduate School, Gastroenterology and Hepatology, AGEM - Endocrinology, metabolism and nutrition, Epidemiology and Data Science, APH - Methodology, Surgery, AGEM - Re-generation and cancer of the digestive system, Tytgat Institute for Liver and Intestinal Research, and APH - Personalized Medicine

Subjects
Male, 3D culture, 0301 basic medicine, Swine, Physiology, Cell, Cell Culture Techniques, Pharmacology, lcsh:Physiology, lcsh:Biochemistry, Plasma, 03 medical and health sciences, medicine, Animals, Cytochrome P-450 CYP3A, Humans, lcsh:QD415-436, Glycolysis, Progenitor cell, Cell damage, Membrane Potential, Mitochondrial, Arginase, lcsh:QP1-981, CYP3A4, Chemistry, Stem Cells, Liver failure, Albumin, Cell Differentiation, Liver Failure, Acute, medicine.disease, Liver, Artificial, Culture Media, Up-Regulation, Plasma toxicity, 030104 developmental biology, medicine.anatomical_structure, Bioartifcial liver, Toxicity, Hepatocytes, Hepatic stellate cell, Female, Dedifferentiation, HepaRG
Abstract

Background/Aims: For applicability of cell-based therapies aimed at the treatment of liver failure, such as bioartificial livers (BALs) and hepatocyte transplantation, it is essential that the applied hepatocytes tolerate exposure to the patient plasma. However, plasma from both healthy donors and acute liver failure (ALF) patients is detrimental to hepatocytes and hepatic cell lines, such as HepaRG. We aimed to elucidate the underlying mechanisms of plasma-induced toxicity against HepaRG cells in order to ultimately develop methods to reduce this toxicity and render HepaRG-BAL treatment more effective. Methods: Differentiated HepaRG cells cultured in monolayers and laboratory-scale BALs were exposed to culture medium, healthy human plasma, healthy porcine plasma and ALF porcine plasma. Healthy human plasma was fractionated based on size- and polarity, albumin depleted and heat treated to characterize the toxic fraction. The cells were assessed for viability by total protein content and trypan blue staining. Their hepatic differentiation was assessed on transcript level through qRT-PCR and microarray analysis, and on functional level for Cytochrome P450 3A4 activity and ammonia elimination. Mitochondrial damage was assessed by JC-1 staining and mitochondrial gene transcription. Results: Sixteen hours of healthy human plasma exposure did not affect viability, however, hepatic gene-transcript levels decreased dramatically and dose-dependently within four hours of exposure. These changes were associated with early NF-kB signaling and a shift from mitochondrial energy metabolism towards glycolysis. Healthy human plasma-toxicity was associated with the dose-dependent presence of heat-resistant, albumin-bound and (partly) hydrophobic toxic compound(s). HepaRG cells cultured in BALs were partially protected from plasma-toxicity, which was mainly attributable to medium perfusion and/or 3D configuration applied during BAL culturing. The detrimental human plasma effects were reversible in BAL-cultured cells. Porcine ALF-plasma elicited mitotoxicity additional to the basal detrimental effect of porcine healthy plasma, which were only partially reversible. Conclusion: A specific fraction of human plasma reduces hepatic differentiation of HepaRG cultures, in association with early NF-κB activation. In addition, ALF-plasma elicits mitotoxic effects. These findings allow for a targeted approach in preventing plasma-induced cell damage.

Published
2018

3. Noninvasive in Vivo Tracking of Mesenchymal Stem Cells and Evaluation of Cell Therapeutic Effects in a Murine Model Using a Clinical 3.0 T MRI

Author

H. Bovenschulte, Oliver J. Liakopoulos, Birgit Ewert, Christof Stamm, F. Drey, Thorsten Wittwer, Meike Brenkmann, Klaus Neef, Philipp Treskes, Thorsten Wahlers, Yeong-Hoon Choi, and A. Tenbrock

Subjects
Cardiac function curve, Pathology, medicine.medical_specialty, Time Factors, Cellular differentiation, Cell, Myocardial Infarction, Biomedical Engineering, Contrast Media, lcsh:Medicine, Mesenchymal Stem Cell Transplantation, Ferric Compounds, Mice, Osteogenesis, In vivo, medicine, Animals, Transplantation, Homologous, Magnetite Nanoparticles, Transplantation, medicine.diagnostic_test, business.industry, Myocardium, lcsh:R, Mesenchymal stem cell, Cell Differentiation, Heart, Mesenchymal Stem Cells, Magnetic resonance imaging, Cell Biology, medicine.disease, Magnetic Resonance Imaging, Mice, Inbred C57BL, Radiography, Disease Models, Animal, medicine.anatomical_structure, Cell Tracking, Heart failure, business, Chondrogenesis
Abstract

Cardiac cell therapy with mesenchymal stem cells (MSCs) represents a promising treatment approach for endstage heart failure. However, little is known about the underlying mechanisms and the fate of the transplanted cells. The objective of the presented work is to determine the feasibility of magnetic resonance imaging (MRI) and in vivo monitoring after transplantation into infarcted mouse hearts using a clinical 3.0 T MRI device. The labeling procedure of bone marrow-derived MSCs with micron-sized paramagnetic iron oxide particles (MPIOs) did not affect the viability of the cells and their cell type-defining properties when compared to unlabeled cells. Using a clinical 3.0 T MRI scanner equipped with a dedicated small animal solenoid coil, 105 labeled MSCs could be detected and localized in the mouse hearts for up to 4 weeks after intramyocardial transplantation. Weekly ECG-gated scans using T1-weighted sequences were performed, and left ventricular function was assessed. Histological analysis of hearts confirmed the survival of labeled MSCs in the target area up to 4 weeks after transplantation. In conclusion, in vivo tracking of labeled MSCs using a clinical 3.0 T MRI scanner is feasible. In combination with assessment of heart function, this technology allows the monitoring of the therapeutic efficacy of regenerative therapies in a small animal model.

Published
2013

4. Towards non-invasive 3D hepatotoxicity assays with optical coherence phase microscopy

Author

Andreas Koulovasilopoulos, Pierre Bagnaninchi, John N. Plevris, Peter C. Hayes, Philipp Treskes, and Leonard J Nelson

Subjects
Programmed cell death, medicine.diagnostic_test, Chemistry, business.industry, Hepatotoxin, Tissue culture, Optics, Optical coherence tomography, Cell culture, Microscopy, Toxicity, medicine, Viability assay, business, Biomedical engineering
Abstract

Three-dimensional tissue-engineered models are increasingly recognised as more physiologically-relevant than standard 2D cell culture for pre-clinical drug toxicity testing. However, many types of conventional toxicity assays are incompatible with dense 3D tissues. This study investigated the use of optical coherence phase microscopy (OCPM) as a novel approach to assess cell death in 3D tissue culture. For 3D micro-spheroid formation Human hepatic C3A cells were encapsulated in hyaluronic acid gels and cultured in 100μl MEME/10%FBS in 96-well plates. After spheroid formation the 3D liver constructs were exposed to acetaminophen on culture day 8. Acetaminophen hepatotoxicity in 3D cultures was evaluated using standard biochemical assays. An inverted OCPM in common path configuration was developed with a Callisto OCT engine (Thorlabs), centred at 930nm and a custom scanning head. Intensity data were used to perform in-depth microstructural imaging. In addition, phase fluctuations were measured by collecting several successive B scans at the same location, and statistics on the first time derivative of the phase, i.e. time fluctuations, were analysed over the acquisition time interval to retrieve overall cell viability. OCPM intensity (cell cluster size) and phase fluctuation statistics were directly compared with biochemical assays. In this study, we investigated optical coherence phase tomography to assess cell death in a 3d liver model after exposure to a prototypical hepatotoxin, acetaminophen. We showed that OCPM has the potential to assess noninvasively and label-free drug toxicity in 3D tissue models.

Published
2015

5. Preconditioning of skeletal myoblast-based engineered tissue constructs enables functional coupling to myocardium in vivo

Author

Navid Madershahian, Christof Stamm, Klaus Neef, Thorsten Wahlers, Marcel Halbach, Maximilian Scherner, Douglas B. Cowan, Sureshkumar Perumal Srinivasan, Jürgen Hescheler, Thorsten Wittwer, Yeong-Hoon Choi, and Philipp Treskes

Subjects
Pulmonary and Respiratory Medicine, Time Factors, Cell Survival, Myoblasts, Skeletal, Cell Culture Techniques, Connexin, Action Potentials, Cell Communication, Article, Cell therapy, chemistry.chemical_compound, Tissue engineering, Y Chromosome, medicine, Animals, Myocytes, Cardiac, DAPI, Cells, Cultured, Excitation Contraction Coupling, Tissue Engineering, Myogenesis, business.industry, Skeletal muscle, Anatomy, Chromosomes, Mammalian, Myocardial Contraction, Cell biology, Transplantation, Mice, Inbred C57BL, medicine.anatomical_structure, chemistry, Cell culture, Connexin 43, Surgery, Female, Stress, Mechanical, Cardiology and Cardiovascular Medicine, business, Biomarkers
Abstract

Skeletal myoblasts fuse to form functional syncytial myotubes as an integral part of the skeletal muscle. During this differentiation process, expression of proteins for mechanical and electrical integration is seized, which is a major drawback for the application of skeletal myoblasts in cardiac regenerative cell therapy, because global heart function depends on intercellular communication.Mechanically preconditioned engineered tissue constructs containing neonatal mouse skeletal myoblasts were transplanted epicardially. A Y-chromosomal specific polymerase chain reaction (PCR) was undertaken up to 10 weeks after transplantation to confirm the presence of grafted cells. Histologic and electrophysiologic analyses were carried out 1 week after transplantation.Cells within the grafted construct expressed connexin 43 at the interface to the host myocardium, indicating electrical coupling, confirmed by sharp electrode recordings. Analyses of the maximum stimulation frequency (5.65 ± 0.37 Hz), conduction velocity (0.087 ± 0.011 m/s) and sensitivity for pharmacologic conduction block (0.736 ± 0.080 mM 1-heptanol) revealed effective electrophysiologic coupling between graft and host cells, although significantly less robust than in native myocardial tissue (maximum stimulation frequency, 11.616 ± 0.238 Hz, P .001; conduction velocity, 0.300 ± 0.057 m/s, P .01; conduction block, 1.983 ± 0.077 mM 1-heptanol, P .001).Although untreated skeletal myoblasts cannot couple to cardiomyocytes, we confirm that mechanical preconditioning enables transplanted skeletal myoblasts to functionally interact with cardiomyocytes in vivo and, thus, reinvigorate the concept of skeletal myoblast-based cardiac cell therapy.

Published
2014

8. Profiling the impact of medium formulation on morphology and functionality of primary hepatocytes in vitro

Author

Leonard J Nelson, Philipp Treskes, John N. Plevris, Peter C. Hayes, A. Forbes Howie, and S W Walker

Subjects
Organelles, Multidisciplinary, Cell Survival, Swine, Cell Culture Techniques, Galactose, Reproducibility of Results, Biology, In vitro, Article, Cell biology, Culture Media, Biochemistry, Cytochrome P-450 Enzyme System, Cell culture, Hepatocytes, Animals, Humans, Urea, Cell survival, Cells, Cultured, Serum Albumin
Abstract

The characterization of fully-defined in vitro hepatic culture systems requires testing of functional and morphological variables to obtain the optimal trophic support, particularly for cell therapeutics including bioartificial liver systems (BALs). Using serum-free fully-defined culture medium formulations, we measured synthetic, detoxification and metabolic variables of primary porcine hepatocytes (PPHs) - integrated these datasets using a defined scoring system and correlated this hepatocyte biological activity index (HBAI) with morphological parameters. Hepatic-specific functions exceeded those of both primary human hepatocytes (PHHs) and HepaRG cells, whilst retaining biotransformation potential and in vivo-like ultrastructural morphology, suggesting PPHs as a potential surrogate for PHHs in various biotech applications. The HBAI permits assessment of global functional capacity allowing the rational choice of optimal trophic support for a defined operational task (including BALs, hepatocellular transplantation, and cytochrome P450 (CYP450) drug metabolism studies), mitigates risk associated with sub-optimal culture systems, and reduces time and cost of research and therapeutic applications.

Published
2013

9. ELEctrophysiological coupling OF skeletal myoblast based engineered tissue constructs IN VIVO

Author

S Kumar, Klaus Neef, Thorsten Wittwer, Philipp Treskes, OJ Liakopoulos, Yeong-Hoon Choi, Navid Madershahian, Markus Khalil, and Thorsten Wahlers

Subjects
Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, Skeletal Myoblasts, business.industry, Coupling (electronics), Electrophysiology, In vivo, Biophysics, Medicine, Surgery, Cardiology and Cardiovascular Medicine, business, Engineered tissue
Published
2013

11. Effects of Healthy- and Acute Liver Failure Plasma on Differentiated Human Heparg Progenitor Cells in Monolayers and Bioartificial Livers

Author

Ruurdtje Hoekstra, Perry D. Moerland, M. Van Wenum, S. Meisner, Aldo Jongejan, Philipp Treskes, R.A.F.M. Chamuleau, T.M. van Gulik, and Erik J. Hendriks

Subjects
0301 basic medicine, 03 medical and health sciences, Pathology, medicine.medical_specialty, 030104 developmental biology, Hepatology, law, Chemistry, Liver failure, Bioartificial liver device, medicine, Progenitor cell, law.invention
Published
2016

12. Enrichment of cardiogenic cell populations from murine skeletal muscle

Author

Yh Choi, Christof Stamm, Klaus Neef, S Kumar, Thorsten Wittwer, Thorsten Wahlers, Oj Liakopoulos, Pb Rahmanian, and Philipp Treskes

Subjects
Pulmonary and Respiratory Medicine, Pathology, medicine.medical_specialty, medicine.anatomical_structure, business.industry, Cell, Medicine, Skeletal muscle, Surgery, Cardiology and Cardiovascular Medicine, business
Published
2012

14. Cardiogenic progenitor cells derived from skeletal muscle - A promising autologous cell source for cardiac cell therapy

Author

S Kumar, OJ Liakopoulos, Klaus Neef, Yeong-Hoon Choi, Christof Stamm, Philipp Treskes, Thorsten Wittwer, and Thorsten Wahlers

Subjects
Pulmonary and Respiratory Medicine, Autologous cell, medicine.anatomical_structure, business.industry, Cancer research, Medicine, Skeletal muscle, Surgery, Progenitor cell, Cardiology and Cardiovascular Medicine, business, Cardiac cell
Published
2011

16. P331 HUMAN HEPATIC HepaRG CELLS MAINTAIN HIGH INTRINSIC CYP450 ACTIVITY/METABOLISM AND SIGNIFICANTLY OUTPERFORM STANDARD HepG2/C3A CELLS USED IN DRUG PHARMACOLOGY APPLICATIONS

Author

John N. Plevris, Natalie Z.M. Homer, Lenny Nelson, Katie Morgan, Philipp Treskes, C. Lebled, Mary Grant, and Catherine Henderson

Subjects
Hepatology, CYP3A4, Cell, CYP1A2, Pharmacology, Biology, In vitro, medicine.anatomical_structure, Phenacetin, Cell culture, medicine, Hepatic stellate cell, Drug metabolism, medicine.drug
Abstract

Introduction: Conventional in vitro human hepatic models for drug testing are based on the use of cell lines or primary human hepatocytes (PHHs). However, limited availability, inter-donor functional variability and early phenotypic alterations of PHHs in vitro restrict their use; whilst cell lines such as HepG2/C3As lack a substantial and variable set of liver-specific functions, specifically, CYP450 activity. In this study we compared CYP450 activity/ metabolism between HepG2/C3A and human HepaRG cells as hepatic models for pre-clinical drug testing. Methods: Human hepatic cell lines [HepG2/C3A or HepaRG] were grown to >80% confluence on collagen-I-coated plates and treated (in triplicates) 24 h with prototypical inducers rifampicin (CYP3A4) and omeprazole (CYP1A2), [n=3]. 50μM testosterone or phenacetin were added and supernatant and cell samples taken after 2 hours of incubation at 37°C. CYP1A2/3A4 activity [P450-Glo™-Luminometry; Promega] was determined (Figure 1). Relative turnover of testosterone [HPLC] and phenacetin [LC-MS/MS] metabolites was also measured. Cell phenotype was assessed by light-microscopy, histology (PAS-Glycogen), CYP3A4, F-actin/phalloidin, and JC-1 fluorescent-staining. Results: Figure 1 shows HepaRG CYP1A2/3A4 activity was 40-80x fold >> HepG2/C3A cells [P

Published
2014

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