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9. Alginate microencapsulated human hepatocytes for the treatment of acute liver failure in children.

Author

Dhawan A, Chaijitraruch N, Fitzpatrick E, Bansal S, Filippi C, Lehec SC, Heaton ND, Kane P, Verma A, Hughes RD, and Mitry RR

Subjects
Animals, Cells, Cultured, Child, Child, Preschool, Feasibility Studies, Female, Humans, Infant, Infant, Newborn, Liver Regeneration, Male, Models, Animal, Rats, Tissue and Organ Procurement methods, Transplantation, Heterologous methods, Transplantation, Homologous methods, Treatment Outcome, Alginates, Cell Encapsulation methods, Hepatocytes transplantation, Liver Failure, Acute surgery, Liver Transplantation adverse effects, Liver Transplantation methods, Microspheres
Abstract

Background & Aims: Liver transplantation (LT) is the most effective treatment for patients with acute liver failure (ALF), but is limited by surgical risks and the need for life-long immunosuppression. Transplantation of microencapsulated human hepatocytes in alginate is an attractive option over whole liver replacement. The safety and efficacy of hepatocyte microbead transplantation have been shown in animal models. We report our experience of this therapy in children with ALF treated on a named-patient basis., Methods: Clinical grade human hepatocyte microbeads (HMBs) and empty microbeads were tested in immunocompetent healthy rats. Subsequently, 8 children with ALF, who were awaiting a suitable allograft for LT, received intraperitoneal transplantation of HMBs. We monitored complications of the procedure, assessing the host immune response and residual function of the retrieved HMBs, either after spontaneous native liver regeneration or at the time of LT., Results: Intraperitoneal transplantation of HMBs in healthy rats was safe and preserved synthetic and detoxification functions, without the need for immunosuppression. Subsequently, 8 children with ALF received HMBs (4 neonatal haemochromatosis, 2 viral infections and 2 children with unknown cause at time of infusion) at a median age of 14.5 days, range 1 day to 6 years. The procedure was well tolerated without complications. Of the 8 children, 4 avoided LT while 3 were successfully bridged to LT following the intervention. HMBs retrieved after infusions (at the time of LT) were structurally intact, free of host cell adherence and contained viable hepatocytes with preserved functions., Conclusion: The results demonstrate the feasibility and safety of an HMB infusion in children with ALF., Lay Summary: Acute liver failure in children is a rare but devastating condition. Liver transplantation is the most effective treatment, but it has several important limitations. Liver cell (hepatocyte) transplantation is an attractive option, as many patients only require short-term liver support while their own liver recovers. Human hepatocytes encapsulated in alginate beads can perform the functions of the liver while alginate coating protects the cells from immune attack. Herein, we demonstrated that transplantation of these beads was safe and feasible in children with acute liver failure., (Copyright © 2019. Published by Elsevier B.V.)

Published
2020
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10. Clinical application of hepatocyte transplantation: current status, applicability, limitations, and future outlook.

Author

Nguyen MP, Jain V, Iansante V, Mitry RR, Filippi C, and Dhawan A

Subjects
Cell Transplantation methods, Cells, Cultured transplantation, Humans, Liver Diseases metabolism, Liver Diseases surgery, Liver Transplantation, Cell Transplantation standards, Hepatocytes transplantation, Liver Diseases therapy
Abstract

Introduction : Hepatocyte transplantation (HT) is a promising alternative to liver transplantation for the treatment of liver-based metabolic diseases and acute liver failure (ALF). However, shortage of good-quality liver tissues, early cell loss post-infusion, reduced cell engraftment and function restricts clinical application. Areas covered : A comprehensive literature search was performed to cover pre-clinical and clinical HT studies. The review discusses the latest developments to address HT limitations: cell sources from marginal/suboptimal donors to neonatal livers, differentiating pluripotent stem cells into hepatocyte-like cells, in vitro expansion, prevention of immune response to transplanted cells by encapsulation or using innate immunity-inhibiting agents, and enhancing engraftment through partial hepatectomy or irradiation. Expert opinion : To date, published data are highly encouraging specially the alginate-encapsulated hepatocyte treatment of children with ALF. Hepatocyte functions can be further improved through co-culturing with mesenchymal stromal cells. Moreover, ex-vivo genetic correction will enable the use of autologous cells in future personalized medicine.

Published
2020
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11. Validation of Current Good Manufacturing Practice Compliant Human Pluripotent Stem Cell-Derived Hepatocytes for Cell-Based Therapy.

Author

Blackford SJI, Ng SS, Segal JM, King AJF, Austin AL, Kent D, Moore J, Sheldon M, Ilic D, Dhawan A, Mitry RR, and Rashid ST

Subjects
Animals, Cell Culture Techniques standards, Cell Differentiation physiology, Cell Line, Humans, Liver cytology, Mice, Cell- and Tissue-Based Therapy standards, Hepatocytes cytology, Pluripotent Stem Cells cytology
Abstract

Recent advancements in the production of hepatocytes from human pluripotent stem cells (hPSC-Heps) afford tremendous possibilities for treatment of patients with liver disease. Validated current good manufacturing practice (cGMP) lines are an essential prerequisite for such applications but have only recently been established. Whether such cGMP lines are capable of hepatic differentiation is not known. To address this knowledge gap, we examined the proficiency of three recently derived cGMP lines (two hiPSC and one hESC) to differentiate into hepatocytes and their suitability for therapy. hPSC-Heps generated using a chemically defined four-step hepatic differentiation protocol uniformly demonstrated highly reproducible phenotypes and functionality. Seeding into a 3D poly(ethylene glycol)-diacrylate fabricated inverted colloid crystal scaffold converted these immature progenitors into more advanced hepatic tissue structures. Hepatic constructs could also be successfully encapsulated into the immune-privileged material alginate and remained viable as well as functional upon transplantation into immune competent mice. This is the first report we are aware of demonstrating cGMP-compliant hPSCs can generate cells with advanced hepatic function potentially suitable for future therapeutic applications. Stem Cells Translational Medicine 2019;8:124&14., (© 2018 The Authors. Stem Cells Translational Medicine published by Wiley Periodicals, Inc. on behalf of AlphaMed Press.)

Published
2019
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12. A New High Throughput Screening Platform for Cell Encapsulation in Alginate Hydrogel Shows Improved Hepatocyte Functions by Mesenchymal Stromal Cells Co-encapsulation.

Author

Iansante V, Dhawan A, Masmoudi F, Lee CA, Fernandez-Dacosta R, Walker S, Fitzpatrick E, Mitry RR, and Filippi C

Abstract

Hepatocyte transplantation has emerged as an alternative to liver transplant for liver disease. Hepatocytes encapsulated in alginate microbeads have been proposed for the treatment of acute liver failure, as they are able to provide hepatic functions while the liver regenerates. Furthermore, they do not require immunosuppression, as the alginate protects the hepatocytes from the recipient's immune cells. Mesenchymal stromal cells are very attractive candidates for regenerative medicine, being able to differentiate into cells of the mesenchymal lineages and having extensive proliferative ability. When co-cultured with hepatocytes in two-dimensional cultures, they exert a trophic role, drastically improving hepatocytes survival and functions. In this study we aimed to (i) devise a high throughput system (HTS) to allow testing of a variety of different parameters for cell encapsulation and (ii) using this HTS, investigate whether mesenchymal stromal cells could have beneficial effects on the hepatocytes when co-encapsulated in alginate microbeads. Using our HTS platform, we observed some improvement of hepatocyte behavior with MSCs, subsequently confirmed in the low throughput analysis of cell function in alginate microbeads. Therefore, our study shows that mesenchymal stromal cells may be a good option to improve the function of hepatocytes microbeads. Furthermore, the platform developed may be used for HTS studies on cell encapsulation, in which several conditions (e.g., number of cells, combinations of cells, alginate modifications) could be easily compared at the same time.

Published
2018
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13. Cryopreserved neonatal hepatocytes may be a source for transplantation: Evaluation of functionality toward clinical use.

Author

Lee CA, Dhawan A, Iansante V, Lehec S, Khorsandi SE, Filippi C, Walker S, Fernandez-Dacosta R, Heaton N, Bansal S, Mitry RR, and Fitzpatrick E

Subjects
Adult, Biomarkers metabolism, Biotransformation, Blood Coagulation, Cell Adhesion, Cell Shape, Cell Survival, Cells, Cultured, Child, Preschool, Female, Hepatocytes enzymology, Hepatocytes immunology, Hepatocytes pathology, Humans, Infant, Infant, Newborn, Liver Failure, Acute blood, Liver Failure, Acute diagnosis, Liver Failure, Acute etiology, Male, Phenotype, Preliminary Data, Primary Cell Culture, Treatment Outcome, Cryopreservation, Hepatocytes transplantation, Liver Failure, Acute surgery, Liver Transplantation methods
Abstract

Neonatal livers are a potential source of good-quality hepatocytes for clinical transplantation. We compared viability and function of neonatal hepatocytes (NHs) and adult hepatocytes (AHs) and report their clinical use both intraportally and in alginate microbeads. Following isolation from donor livers, hepatocyte function was assessed using albumin, alpha-1-antitrypsin, and factor VII. Metabolic function was investigated by measuring resorufin conjugation, ammonia metabolism, uridine diphosphate glucuronosyltransferase enzyme activity, and cytochrome P450 (CYP) function following induction. Activation of the instant blood-mediated inflammatory reaction by NHs and AHs was investigated using an in vitro blood perfusion model, and tissue factor expression was analyzed using real-time polymerase chain reaction (RT-PCR). Clinical hepatocyte transplantation (HT) was undertaken using standard protocols. Hepatocytes were isolated from 14 neonatal livers, with an average viability of 89.4% ± 1.8% (mean ± standard error of the mean) and average yield of 9.3 × 10 6 ± 2.0 × 10 6 cells/g. Hepatocytes were isolated from 14 adult livers with an average viability of 78.6% ± 2.4% and yield 2.2 × 10 6 ± 0.5 × 10 5 cells/g. NHs had significantly higher viability after cryopreservation than AHs, with better attachment efficiency and less plasma membrane leakage. There were no differences in albumin, alpha-1-antitrypsin, and factor VII synthesis between NHs and AHs (P > 0.05). Neonatal cells had inducible phase 1 enzymes as assessed by CYP function and functional phase 2 enzymes, in which activity was comparable to AHs. In an in vitro blood perfusion model, AHs elicited increased thrombus formation with a greater consumption of platelets and white cells compared with NHs (28.3 × 10 9 versus 118.7 × 10 9 and 3.3 × 10 9 versus 6.6 × 10 9 ; P < 0.01). Intraportal transplantation and intraperitoneal transplantation of alginate encapsulated hepatocytes was safe, and preliminary data suggest the cells may activate the immune response to a lesser degree than adult cells. In conclusion, we have shown NHs have excellent cell viability, function, and drug metabolism making them a suitable alternative source for clinical HT. Liver Transplantation 24 394-406 2018 AASLD., (© 2018 by the American Association for the Study of Liver Diseases.)

Published
2018
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14. Human hepatocyte transplantation for liver disease: current status and future perspectives.

Author

Iansante V, Mitry RR, Filippi C, Fitzpatrick E, and Dhawan A

Subjects
Animals, Cell Proliferation, Cryopreservation, End Stage Liver Disease surgery, Humans, Immune System, Liver, Liver Failure, Acute surgery, Liver Transplantation, Metabolic Diseases, Mice, Tissue and Organ Procurement, Cell Transplantation trends, End Stage Liver Disease therapy, Hepatocytes transplantation, Liver Diseases therapy, Liver Failure, Acute therapy
Abstract

Liver transplantation is the accepted treatment for patients with acute liver failure and liver-based metabolic disorders. However, donor organ shortage and lifelong need for immunosuppression are the main limitations to liver transplantation. In addition, loss of the native liver as a target organ for future gene therapy for metabolic disorders limits the futuristic treatment options, resulting in the need for alternative therapeutic strategies. A potential alternative to liver transplantation is allogeneic hepatocyte transplantation. Over the last two decades, hepatocyte transplantation has made the transition from bench to bedside. Standardized techniques have been established for isolation, culture, and cryopreservation of human hepatocytes. Clinical hepatocyte transplantation safety and short-term efficacy have been proven; however, some major hurdles-mainly concerning shortage of donor organs, low cell engraftment, and lack of a long-lasting effect-need to be overcome to widen its clinical applications. Current research is aimed at addressing these problems, with the ultimate goal of increasing hepatocyte transplantation efficacy in clinical applications.

Published
2018
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15. Cryopreservation of Hepatocyte Microbeads for Clinical Transplantation.

Author

Jitraruch S, Dhawan A, Hughes RD, Filippi C, Lehec SC, Glover L, and Mitry RR

Subjects
Animals, Disease Models, Animal, Hepatocytes cytology, Hepatocytes metabolism, Humans, Liver Failure, Acute therapy, Male, Rats, Rats, Sprague-Dawley, Cryopreservation methods, Hepatocytes transplantation, Liver Failure, Acute surgery
Abstract

Intraperitoneal transplantation of hepatocyte microbeads is an attractive option for the management of acute liver failure. Encapsulation of hepatocytes in alginate microbeads supports their function and prevents immune attack of the cells. Establishment of banked cryopreserved hepatocyte microbeads is important for emergency use. The aim of this study was to develop an optimized protocol for cryopreservation of hepatocyte microbeads for clinical transplantation using modified freezing solutions. Four freezing solutions with potential for clinical application were investigated. Human and rat hepatocytes cryopreserved with University of Wisconsin (UW)/10% dimethyl sulfoxide (DMSO)/5% (300 mM) glucose and CryoStor CS10 showed better postthawing cell viability, attachment, and hepatocyte functions than with histidine-tryptophan-ketoglutarate/10% DMSO/5% glucose and Bambanker. The 2 freezing solutions that gave better results were studied with human and rat hepatocytes microbeads. Similar effects on cryopreserved microbead morphology (external and ultrastructural), viability, and hepatocyte-functions post thawing were observed over 7 d in culture. UW/DMSO/glucose, as a basal freezing medium, was used to investigate the additional effects of cytoprotectants: a pan-caspase inhibitor (benzyloxycarbonyl-Val-Ala-dl-Asp-fluoromethylketone [ZVAD]), an antioxidant (desferoxamine [DFO]), and a buffering and mechanical protectant (human serum albumin [HSA]) on RMBs. ZVAD (60 µM) had a beneficial effect on cell viability that was greater than with DFO (1 mM), HSA (2%), and basal freezing medium alone. Improvements in the ultrastructure of encapsulated hepatocytes and a lower degree of cell apoptosis were observed with all 3 cytoprotectants, with ZVAD tending to provide the greatest effect. Cytochrome P450 activity was significantly higher in the 3 cytoprotectant groups than with fresh microbeads. In conclusion, developing an optimized cryopreservation protocol by adding cytoprotectants such as ZVAD could improve the outcome of cryopreserved hepatocyte microbeads for future clinical use.

Published
2017
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16. Alginate Encapsulation of Human Hepatocytes and Assessment of Microbeads.

Author

Mitry RR, Jitraruch S, Iansante V, and Dhawan A

Subjects
Capsules chemistry, Cell Culture Techniques, Cell Separation methods, Cell Survival, Cell Transplantation instrumentation, Colorimetry methods, Drug Compounding instrumentation, Enzyme-Linked Immunosorbent Assay methods, Glucuronic Acid chemistry, Hepatocytes physiology, Hexuronic Acids chemistry, Humans, Liver cytology, Liver surgery, Microscopy, Microspheres, Alginates chemistry, Cell Transplantation methods, Drug Compounding methods, Hepatocytes transplantation
Abstract

Alginate encapsulation of cells is an attractive technique in which alginate becomes polymerized entrapping the cells. The structure of formed microbeads/microcapsules is semipermeable as it allows oxygen and nutrients to go in, and waste products and other materials produced by the cells to go out. Here, we describe basic protocols for alginate encapsulation of human hepatocytes and methods for assessing the microbeads produced.

Published
2017
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17. The Effect of Intraoperative N-Acetylcysteine on Hepatocellular Injury During Laparoscopic Bariatric Surgery. A Randomised Controlled Trial.

Author

Belgaumkar AP, Carswell KA, Hughes RD, Quaglia A, Dhawan A, Mitry RR, and Patel AG

Subjects
Adolescent, Adult, Aged, Bariatric Surgery methods, Body Mass Index, Comorbidity, Cytokines blood, Female, Free Radical Scavengers therapeutic use, Gastrectomy, Humans, Intraoperative Care methods, Intraoperative Complications blood, Intraoperative Complications prevention & control, Keratin-18 blood, Laparoscopy adverse effects, Liver pathology, Male, Middle Aged, Obesity, Morbid physiopathology, Postoperative Period, Single-Blind Method, Treatment Outcome, Weight Loss, Young Adult, Acetylcysteine therapeutic use, Bariatric Surgery adverse effects, Liver injuries, Obesity, Morbid surgery
Abstract

Background: The combination of pneumoperitoneum and intraoperative retraction of the left lobe of the liver leads to hepatocellular injury during laparoscopic gastric surgery. Fatty livers are more susceptible to ischaemic insults. This trial investigated whether the antioxidant N-acetylcysteine (NAC) reduced liver injury during laparoscopic sleeve gastrectomy (LSG)., Methods: Patients undergoing LSG were randomised (single blinded) to receive intraoperative NAC infusion or standard anaesthetic treatment. Blood samples were taken before and after surgery (days 0 to 4). Primary endpoints included serum aminotransferases. Secondary measures were C-reactive protein, weight cell count (WCC), cytokines (interleukin 6 and 10) and cytokeratin-18 as markers of apoptosis. Intraoperative liver biopsy samples were assessed using a locally developed injury score., Results: Twenty patients (14 females, mean age 44.5 (SEM ± 2.9) years, mean BMI 60.8 (SEM ± 2.4) kg/m(2)) were recruited (NAC n = 10, control n = 10). The trial was stopped early after a planned interim analysis. Baseline liver function was similar. The peak rise in liver enzymes was on day 1, but levels were not significantly different between the groups. Rates of complications and length of stay were not significantly different. Secondary outcome measures, including white cell count (WCC), cytokines and cytokeratin (CK)-18 fragments, were not different between groups. Liver injury scores did not differ significantly., Conclusions: NAC did not reduce intraoperative liver injury in this small number of patients. The heterogenous nature of the study population, with differences in co-morbidities, body mass index and intraabdominal anatomy, leads to a varied post-operative inflammatory response. Significant hepatocyte injury occurs through both necrosis and apoptosis.

Published
2016
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18. Changes in Bile Acid Profile After Laparoscopic Sleeve Gastrectomy are Associated with Improvements in Metabolic Profile and Fatty Liver Disease.

Author

Belgaumkar AP, Vincent RP, Carswell KA, Hughes RD, Alaghband-Zadeh J, Mitry RR, le Roux CW, and Patel AG

Subjects
Adolescent, Aged, Bile Acids and Salts blood, Biomarkers blood, Fatty Liver blood, Female, Gastrectomy methods, Humans, Laparoscopy methods, Male, Metabolic Syndrome blood, Middle Aged, Obesity, Morbid blood, Obesity, Morbid complications, Prospective Studies, Young Adult, Fatty Liver complications, Metabolic Syndrome complications, Obesity, Morbid surgery
Abstract

Background: Bile acids (BA) modulate lipid and glucose metabolism in a feedback loop through production of fibroblast growth factor (FGF) 19 in the terminal ileum. Changes in BA after bariatric surgery may lead to improvements in the metabolic syndrome, including fatty liver disease. This study investigated the relationship between BA and metabolic and inflammatory profiles after laparoscopic sleeve gastrectomy (LSG)., Methods: Patients undergoing LSG had fasting blood samples taken pre-operatively and 6 months post-surgery. Liver injury was measured using cytokeratin (CK) 18 fragments. BA were measured using liquid chromatography tandem-mass spectrometry. FGF-19 was measured using enzyme-linked immunosorbent assay., Results: The study included 18 patients (12 females), with mean age 46.3 years (SEM ± 2.9) and BMI 60.1 kg/m(2) (±2.6). After 6 months, patients lost 39.8 kg (±3.1; p < 0.001). Fourteen patients (78 %) had steatosis. FGF-19 increased from median 128.1 (IQR 89.4-210.1) to 177.1 (121.8-288.9, p = 0.045) at 6 months. Although total BA did not change, primary glycine- and taurine-conjugated BA, cholic acid decreased, and secondary BA, glycine-conjugated urodeoxycholic acid increased over the study period. These changes are associated with reduction in insulin resistance, pro-inflammatory cytokines and CK-18 levels., Conclusions: The profile of individual BA is altered after LSG. These changes occur in the presence of reductions in inflammatory cytokines and markers of liver injury. This study supports evidence from recent animal models that LSG may have an effect on fatty liver through changes in BA metabolism.

Published
2016
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19. Instant Blood-Mediated Inflammatory Reaction in Hepatocyte Transplantation: Current Status and Future Perspectives.

Author

Lee CA, Dhawan A, Smith RA, Mitry RR, and Fitzpatrick E

Subjects
Animals, Humans, Inflammation therapy, Models, Biological, Hepatocytes transplantation, Inflammation blood, Inflammation pathology, Inflammation Mediators metabolism
Abstract

Hepatocyte transplantation (HT) is emerging as a promising alternative to orthotopic liver transplantation (OLT) in patients with certain liver-based metabolic disease and acute liver failure. Hepatocytes are generally infused into the portal venous system, from which they migrate into the liver cell plates of the native organ. One of the major hurdles to the sustained success of this therapy is early cell loss, with up to 70% of hepatocytes lost immediately following infusion. This is largely thought to be due to the instant blood-mediated inflammatory reaction (IBMIR), resulting in the activation of complement and coagulation pathways. Transplanted hepatocytes produce and release tissue factor (TF), which activates the coagulation pathway, leading to the formation of thrombin and fibrin clots. Thrombin can further activate a number of complement proteins, leading to the activation of the membrane attack complex (MAC) and subsequent hepatocyte cell death. Inflammatory cells including granulocytes, monocytes, Kupffer cells, and natural killer (NK) cells have been shown to cluster around transplanted hepatocytes, leading to their rapid clearance shortly after transplantation. Current research aims to improve cell engraftment and prevent early cell loss. This has been proven successful in vitro using pharmacological interventions such as melagatran, low-molecular-weight dextran sulphate, and N-acetylcysteine (NAC). Effective inhibition of IBMIR would significantly improve hepatocyte engraftment, proliferation, and function, providing successful treatment for patients with liver-based metabolic diseases.

Published
2016
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20. Coculture with mesenchymal stem cells results in improved viability and function of human hepatocytes.

Author

Fitzpatrick E, Wu Y, Dhadda P, Hughes RD, Mitry RR, Qin H, Lehec SC, Heaton ND, and Dhawan A

Subjects
Cell Survival, Cells, Cultured, Coculture Techniques, Female, Hepatocytes cytology, Humans, Male, Mesenchymal Stem Cells cytology, Time Factors, Hepatocytes metabolism, Mesenchymal Stem Cells metabolism
Abstract

Hepatocyte transplantation is becoming an accepted therapy for acute liver failure, either as a bridge to liver regeneration or to organ transplantation. Hepatocytes provide liver function in place of the failing organ. The maintenance of sufficient viability and function of the transplanted hepatocytes is a concern. There is a lot of recent interest in mesenchymal stem cells (MSCs) for the provision of structural and trophic support to hepatocytes, but few studies currently use primary human hepatocytes. The aim of this study was to investigate if coculture of human MSCs with cryopreserved human hepatocytes may improve their function and viability, thus with potential for cellular therapy of liver disease. MSCs were isolated from human umbilical cord or adipose tissue. Hepatocytes were isolated from donor organs unsuitable for transplantation. MSCs and hepatocytes were cocultured in both direct and indirect contact. Conditioned medium (CM) from cocultured MSCs and hepatocytes was also used on hepatocytes. Viability and liver-specific function were compared between test and controls. Human hepatocytes that were cocultured directly with MSCs demonstrated improved production of albumin from day 5 to day 25 of culture. This effect was most prominent at day 15. Likewise, urea production was improved in coculture from day 5 to 25. Indirect coculture demonstrated improved albumin production by day 4 (1,107 ng/ml) versus hepatocyte monoculture (940 ng/ml). Hepatocytes in CM demonstrated a nonsignificant improvement in function. The viability of cocultured hepatocytes was superior to that of monocultured cells with up to a 16% improvement. Thus, coculture of human hepatocytes with MSCs demonstrates both improved function and viability. The effect is seen mainly with direct coculture but can also be seen in indirect culture and with CM. Such coculture conditions may convey major advantages in hepatocyte survival and function for cell transplantation.

Published
2015
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21. Alginate microencapsulated hepatocytes optimised for transplantation in acute liver failure.

Author

Jitraruch S, Dhawan A, Hughes RD, Filippi C, Soong D, Philippeos C, Lehec SC, Heaton ND, Longhi MS, and Mitry RR

Subjects
Animals, Cell Survival, Cells, Cultured, Coculture Techniques, Disease Models, Animal, Galactosamine adverse effects, Glucuronic Acid chemistry, Hexuronic Acids chemistry, Humans, Liver Failure, Acute chemically induced, Liver Failure, Acute mortality, Liver Regeneration, Male, Microspheres, Rats, Rats, Sprague-Dawley, Transplantation, Heterologous, Alginates chemistry, Hepatocytes cytology, Hepatocytes transplantation, Leukocytes, Mononuclear cytology, Liver Failure, Acute therapy
Abstract

Background and Aim: Intraperitoneal transplantation of alginate-microencapsulated human hepatocytes is an attractive option for the management of acute liver failure (ALF) providing short-term support to allow native liver regeneration. The main aim of this study was to establish an optimised protocol for production of alginate-encapsulated human hepatocytes and evaluate their suitability for clinical use., Methods: Human hepatocyte microbeads (HMBs) were prepared using sterile GMP grade materials. We determined physical stability, cell viability, and hepatocyte metabolic function of HMBs using different polymerisation times and cell densities. The immune activation of peripheral blood mononuclear cells (PBMCs) after co-culture with HMBs was studied. Rats with ALF induced by galactosamine were transplanted intraperitoneally with rat hepatocyte microbeads (RMBs) produced using a similar optimised protocol. Survival rate and biochemical profiles were determined. Retrieved microbeads were evaluated for morphology and functionality., Results: The optimised HMBs were of uniform size (583.5±3.3 µm) and mechanically stable using 15 min polymerisation time compared to 10 min and 20 min (p<0.001). 3D confocal microscopy images demonstrated that hepatocytes with similar cell viability were evenly distributed within HMBs. Cell density of 3.5×10(6) cells/ml provided the highest viability. HMBs incubated in human ascitic fluid showed better cell viability and function than controls. There was no significant activation of PBMCs co-cultured with empty or hepatocyte microbeads, compared to PBMCs alone. Intraperitoneal transplantation of RMBs was safe and significantly improved the severity of liver damage compared to control groups (empty microbeads and medium alone; p<0.01). Retrieved RMBs were intact and free of immune cell adherence and contained viable hepatocytes with preserved function., Conclusion: An optimised protocol to produce GMP grade alginate-encapsulated human hepatocytes has been established. Transplantation of microbeads provided effective metabolic function in ALF. These high quality HMBs should be suitable for use in clinical transplantation.

Published
2014
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22. Secretory leukocyte protease inhibitor: a pivotal mediator of anti-inflammatory responses in acetaminophen-induced acute liver failure.

Author

Antoniades CG, Khamri W, Abeles RD, Taams LS, Triantafyllou E, Possamai LA, Bernsmeier C, Mitry RR, O'Brien A, Gilroy D, Goldin R, Heneghan M, Heaton N, Jassem W, Bernal W, Vergani D, Ma Y, Quaglia A, Wendon J, and Thursz M

Subjects
Adolescent, Adult, Antigens, CD blood, Antigens, Differentiation, Myelomonocytic blood, Case-Control Studies, Chemical and Drug Induced Liver Injury blood, HLA-DR Antigens blood, Humans, Inflammation blood, Interleukin-6 blood, Middle Aged, NF-kappa B blood, Phenotype, Receptors, Cell Surface blood, Secretory Leukocyte Peptidase Inhibitor blood, Signal Transduction physiology, Tumor Necrosis Factor-alpha blood, Young Adult, Acetaminophen adverse effects, Chemical and Drug Induced Liver Injury physiopathology, Inflammation physiopathology, Inflammation prevention & control, Macrophages physiology, Monocytes physiology, Secretory Leukocyte Peptidase Inhibitor physiology
Abstract

Unlabelled: Acetaminophen-induced acute liver failure (AALF) is characterized both by activation of innate immune responses and susceptibility to sepsis. Circulating monocytes and hepatic macrophages are central mediators of inflammatory responses and tissue repair processes during human AALF. Secretory leukocyte protease inhibitor (SLPI) modulates monocyte/macrophage function through inhibition of nuclear factor kappa B (NF-κB) signaling. The aims of this study were to establish the role of SLPI in AALF. Circulating levels of SLPI, monocyte cluster of differentiation 163 (CD163), human leukocyte antigen-DR (HLA-DR), and lipopolysaccharide (LPS)-stimulated levels of NF-κBp65, tumor necrosis factor alpha (TNF-α) and interleukin (IL)-6 were determined in patients with AALF, chronic liver disease, and healthy controls. Immunohistochemistry and multispectral imaging of AALF explant tissue determined the cellular sources of SLPI and hepatic macrophage phenotype. The phenotype and function of monocytes and macrophages was determined following culture with recombinant human (rh)-SLPI, liver homogenates, and plasma derived from AALF patients in the presence and absence of antihuman (α)SLPI. Hepatic and circulatory concentrations of SLPI were elevated in AALF and immunohistochemistry revealed SLPI expression in biliary epithelial cells and within hepatic macrophages (h-mψ) in areas of necrosis. H-mψ and circulating monocytes in AALF exhibited an anti-inflammatory phenotype and functional characteristics; typified by reductions in NF-κBp65, TNF-α, and IL-6 and preserved IL-10 secretion following LPS challenge. Culture of healthy monocytes with AALF liver homogenates, plasma, or rhSLPI induced monocytes with strikingly similar anti-inflammatory characteristics which were reversed by inhibiting the activity of SLPI., Conclusion: SLPI is a pivotal mediator of anti-inflammatory responses in AALF through modulation of monocyte/macrophage function, which may account for the susceptibility to sepsis in AALF., (© 2014 by the American Association for the Study of Liver Diseases.)

Published
2014
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23. Ex vivo magnetic resonance imaging of transplanted hepatocytes in a rat model of acute liver failure.

Author

Puppi J, Modo M, Dhawan A, Lehec SC, Mitry RR, and Hughes RD

Subjects
Animals, Carbocyanines, Cell Survival, Cells, Cultured, Female, Hepatocytes cytology, Humans, Liver cytology, Liver pathology, Liver Failure, Acute pathology, Male, Rats, Rats, Sprague-Dawley, Cell Tracking methods, Contrast Media, Dextrans, Hepatocytes transplantation, Liver Failure, Acute surgery, Magnetic Resonance Imaging methods, Magnetite Nanoparticles
Abstract

Hepatocyte transplantation is being evaluated as an alternative to liver transplantation. However, the fate of hepatocytes after transplantation is not well defined. The aims of the study were to improve hepatocyte labeling in vitro using superparamagnetic iron oxide nanoparticles (SPIOs) and to perform in vivo experiments on tracking labeled cells by magnetic resonance imaging (MRI). Human and rat hepatocytes were labeled in vitro for 16 h with clinically approved SPIOs (12.5 µg Fe/ml) and protamine sulfate (3 µg/ml) as a transfection agent. Increased cellular iron uptake was obtained, and cell viability and function were shown not to be affected by labeling. Labeled cells (2,000/µl) could be detected on T2-weighted images in vitro using a 7T MR scanner. In a rat model of acute liver failure (ALF), female recipients received intrasplenic transplantation of 2 × 10(7) male rat hepatocytes 28-30 h after intraperitoneal injection of d-galactosamine (1.2 g/kg). There were four groups (n = 4 each): vehicle injection, injection of freshly isolated cells labeled with CM-DiI, injection of cultured cells labeled with CM-DiI, and injection of cultured cells labeled with both SPIOs and CM-DiI. Ex vivo T2*-weighted gradient-echo images at 7T MRI were acquired at day 7 post-ALF induction. Six days after transplantation, SPIOs were detected in the rat liver as a decrease in the MRI signal intensity in the surviving animals. Histologically, most of the SPIOs were located in Kupffer cells, indicating clearance of labeled hepatocytes. Furthermore, labeled cells could not be detected in the liver by the fluorescent dye or by PCR for the Y-chromosome (Sry-2 gene). In conclusion, optimum conditions to label human hepatocytes with SPIOs were established and did not affect cell viability or metabolic function and were sufficient for in vitro MRI detection. However, the clearance of hepatocytes after transplantation limits the value of MRI for assessing long-term hepatocyte engraftment.

Published
2014
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24. Character and temporal evolution of apoptosis in acetaminophen-induced acute liver failure*.

Author

Possamai LA, McPhail MJ, Quaglia A, Zingarelli V, Abeles RD, Tidswell R, Puthucheary Z, Rawal J, Karvellas CJ, Leslie EM, Hughes RD, Ma Y, Jassem W, Shawcross DL, Bernal W, Dharwan A, Heaton ND, Thursz M, Wendon JA, Mitry RR, and Antoniades CG

Subjects
APACHE, Adult, Aged, Female, Humans, Keratin-18 blood, Liver, Liver Failure, Acute physiopathology, Liver Function Tests, Male, Middle Aged, Multiple Organ Failure physiopathology, Peptide Fragments blood, Prospective Studies, Time Factors, Acetaminophen toxicity, Analgesics, Non-Narcotic toxicity, Apoptosis physiology, Chemical and Drug Induced Liver Injury physiopathology, Critical Illness
Abstract

Objective: To evaluate the role of hepatocellular and extrahepatic apoptosis during the evolution of acetaminophen-induced acute liver failure., Design and Setting: A prospective observational study in two tertiary liver transplant units., Patients: Eighty-eight patients with acetaminophen-induced acute liver failure were recruited. Control groups included patients with nonacetaminophen-induced acute liver failure (n = 13), nonhepatic multiple organ failure (n = 28), chronic liver disease (n = 19), and healthy controls (n = 11)., Measurements: Total and caspase-cleaved cytokeratin-18 (M65 and M30) measured at admission and sequentially on days 3, 7, and 10 following admission. Levels were also determined from hepatic vein, portal vein, and systemic arterial blood in seven patients undergoing transplantation. Protein arrays of liver homogenates from patients with acetaminophen-induced acute liver failure were assessed for apoptosis-associated proteins, and histological assessment of liver tissue was performed., Main Results: Admission M30 levels were significantly elevated in acetaminophen-induced acute liver failure and non-acetaminophen induced acute liver failure patients compared with multiple organ failure, chronic liver disease, and healthy controls. Admission M30 levels correlated with outcome with area under receiver operating characteristic of 0.755 (0.639-0.885, p < 0.001). Peak levels in patients with acute liver failure were seen at admission then fell significantly but did not normalize over 10 days. A negative gradient of M30 from the portal to hepatic vein was demonstrated in patients with acetaminophen-induced acute liver failure (p = 0.042) at the time of liver transplant. Analysis of protein array data demonstrated lower apoptosis-associated protein and higher catalase concentrations in acetaminophen-induced acute liver failure compared with controls (p < 0.05). Explant histological analysis revealed evidence of cellular proliferation with an absence of histological evidence of apoptosis., Conclusions: Hepatocellular apoptosis occurs in the early phases of human acetaminophen-induced acute liver failure, peaking on day 1 of hospital admission, and correlates strongly with poor outcome. Hepatic regenerative/tissue repair responses prevail during the later stages of acute liver failure where elevated levels of M30 are likely to reflect epithelial cell death in extrahepatic organs.

Published
2013
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26. Acute liver failure and the brain: a look through the crystal ball.

Author

Ryan JM, Tranah T, Mitry RR, Wendon JA, and Shawcross DL

Subjects
Brain Diseases etiology, Hepatocytes transplantation, Humans, Intracranial Hypertension therapy, Randomized Controlled Trials as Topic, Stem Cell Transplantation, Brain Diseases therapy, Liver Failure, Acute complications
Abstract

Over the past 35 years, the outlook for a patient presenting with acute liver failure (ALF) has changed beyond all recognition. A patient presenting in 1984 had an 80 % likelihood of succumbing to intracranial hypertension. Today due to dramatic improvements in intensive care in dedicated liver transplant units, this has been reduced to just 20 %. Prompt fluid resuscitation, empirical treatment for sepsis and standardised management protocols that include early intubation and high flow hemofiltration for ammonia removal, limit the numbers of patients who die from the sequelae of cerebral edema and ALF. With the evolution and development of bedside prognostic markers that will include personalised genomic, metabonomic and immune profiling, rationalisation of grafts to those who are not predicted to survive is likely to further minimise the number of grafts utilised. Furthermore, in those patients with a dismal prognosis, the use of plasmapheresis, immunomodulatory therapies, biological liver support systems and hepatocyte transplantation offer a potential bridge until the injured liver can begin to regenerate avoiding transplantation and life-long immunosuppressant therapy.

Published
2013
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27. Analysis of adipokine concentrations in paediatric non-alcoholic fatty liver disease.

Author

Fitzpatrick E, Dew TK, Quaglia A, Sherwood RA, Mitry RR, and Dhawan A

Subjects
Adolescent, Biomarkers blood, Body Mass Index, Chemokine CCL2 blood, Child, Fatty Liver pathology, Female, Humans, Insulin Resistance, Liver pathology, Liver Cirrhosis blood, Liver Cirrhosis pathology, Male, Non-alcoholic Fatty Liver Disease, Plasminogen Activator Inhibitor 1 blood, Prognosis, Resistin blood, Adipokines blood, Fatty Liver blood
Abstract

Background: Non-alcoholic fatty liver disease (NAFLD) is the most common liver disease in children. It is important to distinguish children with more severe disease or steatohepatitis (NASH) from those with the less severe simple steatosis (SS) as prognosis differs. The importance of adipokines in the evolution of NASH is well recognized., Objective: As adipokines are important in mediating inflammation, they may also be useful biomarkers of disease., Methods: Plasma from 40 children (30 boys), median age 13.4 years, with liver biopsy-proven NAFLD was analysed. Liver biopsies were scored using the NAFLD activity score and compared with adipokine concentrations., Results: Median body mass index z-score was 2.12 with a median homeostasis model of assessment- insulin resistance of 4.08. Resistin was lower in NASH than in SS (P = 0.03). Monocyte chemoattractant protein 1 (MCP-1) was also lower in NASH (P = 0.04). MCP-1 was higher in children with severe fibrosis (P = 0.008) with an area under the receiver operating characteristic curve (AUROC) of 0.76. Plasminogen activator inhibitor 1 (PAI-1) was also higher in this group (P = 0.011) with an AUROC of 0.78. There were no significant differences in leptin, adiponectin, adipsin, interleukin (IL) 6, IL10 or tumour necrosis factor α between groups., Conclusion: PAI-1 MCP-1 and resistin were differentially expressed with increasing severity of NAFLD. Though it is unlikely that this profile alone would serve as a biomarker of disease, differences found may contribute to understanding the role of these mediators in NAFLD., (© 2012 The Authors. Pediatric Obesity © 2012 International Association for the Study of Obesity.)

Published
2012
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28. Source and characterization of hepatic macrophages in acetaminophen-induced acute liver failure in humans.

Author

Antoniades CG, Quaglia A, Taams LS, Mitry RR, Hussain M, Abeles R, Possamai LA, Bruce M, McPhail M, Starling C, Wagner B, Barnardo A, Pomplun S, Auzinger G, Bernal W, Heaton N, Vergani D, Thursz MR, and Wendon J

Subjects
Adult, Analgesics, Non-Narcotic poisoning, Antigens, CD metabolism, Antigens, Differentiation, Myelomonocytic metabolism, Bone Marrow Cells immunology, Bone Marrow Cells metabolism, Chemical and Drug Induced Liver Injury immunology, Chemokine CCL2 metabolism, Chemokine CCL3 metabolism, Chemotaxis immunology, Female, Humans, Interleukin-10 metabolism, Interleukin-8 metabolism, Ki-67 Antigen metabolism, Liver Failure, Acute immunology, Macrophages immunology, Macrophages metabolism, Male, Middle Aged, Monocytes immunology, Monocytes metabolism, Monocytes pathology, Receptors, CCR2 metabolism, Transforming Growth Factor beta1 metabolism, Acetaminophen poisoning, Chemical and Drug Induced Liver Injury pathology, Liver Failure, Acute chemically induced, Liver Failure, Acute pathology, Macrophages pathology
Abstract

Unlabelled: Acetaminophen-induced acute liver failure (AALF) is associated with innate immunity activation, which contributes to the severity of hepatic injury and clinical outcome. A marked increase in hepatic macrophages (h-mφ) is observed in experimental models of AALF, but controversy exists regarding their role, implicating h-mφ in both aggravation and resolution of liver injury. The role of h-mφ in human AALF is virtually unexplored. We sought to investigate the role of chemokine (C-C motif) ligand 2 (CCL2) in the recruitment of circulating monocytes to the inflamed liver and to determine how the h-mφ infiltrate and liver microenvironment may contribute to tissue repair versus inflammation in AALF. We evaluated circulating monocytes, their chemokine (C-C motif) receptor 2 (CCR2) expression, and serum CCL2 levels in patients with AALF. Cell subsets and numbers of circulation-derived (MAC387+) or resident proliferating (CD68/Ki67+) h-mφ in hepatic immune infiltrates were determined by immunohistochemistry. Inflammatory cytokine levels were determined in whole and laser microdissected liver tissue by proteome array. In AALF, circulating monocytes were depleted, with the lowest levels observed in patients with adverse outcomes. CCL2 levels were high in AALF serum and hepatic tissue, and circulating monocyte subsets expressed CCR2, suggesting CCL2-dependent hepatic monocyte recruitment. Significant numbers of both MAC387+ and CD68+ h-mφ were found in AALF compared with control liver tissue with a high proportion expressing the proliferation marker Ki67. Levels of CCL2, CCL3, interleukin (IL)-6, IL-10, and transforming growth factor-β1 were significantly elevated in AALF liver tissue relative to chronic liver disease controls., Conclusion: In AALF, the h-mφ population is expanded in areas of necrosis, both through proliferation of resident cells and CCL2-dependent recruitment of circulating monocytes. The presence of h-mφ within an anti-inflammatory/regenerative microenvironment indicates that they are implicated in resolution of inflammation/tissue repair processes during AALF., (Copyright © 2012 American Association for the Study of Liver Diseases.)

Published
2012
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29. Hepatocyte labeling with ⁹⁹mTc-GSA: a potential non-invasive technique for tracking cell transplantation.

Author

Chouhan M, Puppi J, Solanas E, Mitry RR, Dhawan A, and Hughes RD

Subjects
Animals, Asialoglycoprotein Receptor genetics, Asialoglycoprotein Receptor metabolism, Biological Transport, Cell Survival, Cells, Cultured, Cryopreservation, Hepatocytes metabolism, Humans, Immunohistochemistry, Male, Radionuclide Imaging, Rats, Rats, Sprague-Dawley, Reverse Transcriptase Polymerase Chain Reaction, Temperature, Time Factors, Cell Tracking methods, Hepatocytes diagnostic imaging, Hepatocytes transplantation, Radiopharmaceuticals metabolism, Technetium Tc 99m Aggregated Albumin metabolism, Technetium Tc 99m Pentetate metabolism
Abstract

Background: Hepatocyte transplantation is a promising alternative to orthotopic liver transplantation, however, the fate of transplanted hepatocytes is not well defined. ⁹⁹mTc-galactosyl-serum albumin (⁹⁹mTc-GSA) is a clinical scintigraphic agent which is specifically taken up by the hepatocyte asialoglycoprotein receptor (ASGPR)., Aims: To investigate labeling of fresh and cryopreserved human hepatocytes and fresh rat hepatocytes in vitro using ⁹⁹mTc-GSA., Methods: Human and rat hepatocytes were isolated from liver tissue by collagenase perfusion. The ASGPR were characterized using immunohistochemistry and RT-PCR. Hepatocytes were incubated with ⁹⁹mTc-GSA in suspension at 4°C and 37°C. Cell viability and function was determined using cell mitochondrial dehydrogenase (MTS) and sulphorhodamine B (SRB) assays., Results: Fresh and cryopreserved human hepatocytes expressed the ASGPR. Incubation of hepatocytes in suspension with ⁹⁹mTc-GSA reduced the viability of hepatocytes, but this was similar to unlabeled control cells. Greater loss of viability was seen on incubation at 37°C compared to 4°C, but there was a significantly greater uptake of ⁹⁹mTc-GSA at the physiological temperature (6.6 ± SE 0.6-fold increase, p<0.05) consistent with ASGPR-mediated endocytosis. MTS and SRB assays were not significantly affected by labeling with ⁹⁹mTc-GSA in all three cell types. A mean of 18.5% of the radioactivity was released over 120 min when ⁹⁹mTc-GSA -labeled hepatocytes were shaken in vitro at 37°C., Conclusions: Human and rat hepatocytes can be labeled with ⁹⁹mTc-GSA, which may have potential application for in vivo imaging after hepatocyte transplantation.

Published
2012
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30. A dual role for hypoxia inducible factor-1α in the hepatitis C virus lifecycle and hepatoma migration.

Author

Wilson GK, Brimacombe CL, Rowe IA, Reynolds GM, Fletcher NF, Stamataki Z, Bhogal RH, Simões ML, Ashcroft M, Afford SC, Mitry RR, Dhawan A, Mee CJ, Hübscher SG, Balfe P, and McKeating JA

Subjects
Carcinoma, Hepatocellular pathology, Cell Line, Tumor, Cell Polarity physiology, Disease Progression, Glycoproteins physiology, Hepatitis C pathology, Hepatitis C physiopathology, Humans, Liver Neoplasms pathology, Tight Junctions physiology, Transforming Growth Factor beta physiology, Vascular Endothelial Growth Factor A physiology, Carcinoma, Hepatocellular physiopathology, Cell Movement physiology, Hepacivirus physiology, Hypoxia-Inducible Factor 1, alpha Subunit physiology, Liver Neoplasms physiopathology, Virus Replication physiology
Abstract

Background & Aims: Hepatitis C virus (HCV) causes progressive liver disease and is a major risk factor for the development of hepatocellular carcinoma (HCC). However, the role of infection in HCC pathogenesis is poorly understood. We investigated the effect(s) of HCV infection and viral glycoprotein expression on hepatoma biology to gain insights into the development of HCV associated HCC., Methods: We assessed the effect(s) of HCV and viral glycoprotein expression on hepatoma polarity, migration and invasion., Results: HCV glycoproteins perturb tight and adherens junction protein expression, and increase hepatoma migration and expression of epithelial to mesenchymal transition markers Snail and Twist via stabilizing hypoxia inducible factor-1α (HIF-1α). HIF-1α regulates many genes involved in tumor growth and metastasis, including vascular endothelial growth factor (VEGF) and transforming growth factor-beta (TGF-β). Neutralization of both growth factors shows different roles for VEGF and TGFβ in regulating hepatoma polarity and migration, respectively. Importantly, we confirmed these observations in virus infected hepatoma and primary human hepatocytes. Inhibition of HIF-1α reversed the effect(s) of infection and glycoprotein expression on hepatoma permeability and migration and significantly reduced HCV replication, demonstrating a dual role for HIF-1α in the cellular processes that are deregulated in many human cancers and in the viral life cycle., Conclusions: These data provide new insights into the cancer-promoting effects of HCV infection on HCC migration and offer new approaches for treatment., (Copyright © 2011 European Association for the Study of the Liver. Published by Elsevier B.V. All rights reserved.)

Published
2012
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31. Current status of hepatocyte transplantation.

Author

Hughes RD, Mitry RR, and Dhawan A

Subjects
Cell Transplantation methods, Cryopreservation methods, Hepatocytes cytology, Humans, Immunosuppression Therapy methods, Mesenchymal Stem Cells cytology, Tissue Donors, Cell Transplantation trends, Hepatocytes transplantation, Liver Diseases surgery, Liver Failure, Acute surgery
Abstract

Hepatocyte transplantation (HT) has been performed in patients with liver-based metabolic disease and acute liver failure as a potential alternative to liver transplantation. The results are encouraging in genetic liver conditions where HT can replace the missing enzyme or protein. However, there are limitations to the technique, which need to be overcome. Unused donor livers to isolate hepatocytes are in short supply and are often steatotic, although addition of N-acetylcysteine improves the quality of the cells obtained. Hepatocytes are cryopreserved for later use and this is detrimental to metabolic function on thawing. There are improved cryopreservation protocols, but these need further refinement. Hepatocytes are usually infused into the hepatic portal vein with many cells rapidly cleared by the innate immune system, which needs to be prevented. It is difficult to detect engraftment of donor cells in the liver, and methods to track cells labeled with iron oxide magnetic resonance imaging contrast agents are being developed. Methods to increase cell engraftment based on portal embolization or irradiation of the liver are being assessed for clinical application. Encapsulation of hepatocytes allows cells to be transplanted intraperitoneally in acute liver failure with the advantage of avoiding immunosuppression. Alternative sources of hepatocytes, which could be derived from stem cells, are needed. Mesenchymal stem cells are currently being investigated particularly for their hepatotropic effects. Other sources of cells may be better if the potential for tumor formation can be avoided. With a greater supply of hepatocytes, wider use of HT and evaluation in different liver conditions should be possible.

Published
2012
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32. BMPER protein is a negative regulator of hepcidin and is up-regulated in hypotransferrinemic mice.

Author

Patel N, Masaratana P, Diaz-Castro J, Latunde-Dada GO, Qureshi A, Lockyer P, Jacob M, Arno M, Matak P, Mitry RR, Hughes RD, Dhawan A, Patterson C, Simpson RJ, and McKie AT

Subjects
Animals, Antimicrobial Cationic Peptides genetics, Bone Morphogenetic Protein 2 antagonists & inhibitors, Bone Morphogenetic Protein 2 genetics, Bone Morphogenetic Protein 2 metabolism, Carrier Proteins genetics, Hep G2 Cells, Hepcidins, Humans, Mice, Mice, Transgenic, Peptides pharmacology, Smad Proteins genetics, Smad Proteins metabolism, Transferrin genetics, Antimicrobial Cationic Peptides blood, Carrier Proteins metabolism, Iron blood, Liver metabolism, Transferrin metabolism, Up-Regulation
Abstract

The BMP/SMAD4 pathway has major effects on liver hepcidin levels. Bone morphogenetic protein-binding endothelial cell precursor-derived regulator (Bmper), a known regulator of BMP signaling, was found to be overexpressed at the mRNA and protein levels in liver of genetically hypotransferrinemic mice (Trf(hpx/hpx)). Soluble BMPER peptide inhibited BMP2- and BMP6-dependent hepcidin promoter activity in both HepG2 and HuH7 cells. These effects correlated with reduced cellular levels of pSMAD1/5/8. Addition of BMPER peptide to primary human hepatocytes abolished the BMP2-dependent increase in hepcidin mRNA, whereas injection of Bmper peptide into mice resulted in reduced liver hepcidin and increased serum iron levels. Thus Bmper may play an important role in suppressing hepcidin production in hypotransferrinemic mice.

Published
2012
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33. In vitro primary cell culture as a physiologically relevant method for preclinical testing of human oncolytic adenovirus.

Author

Adamson RE, Frazier AA, Evans H, Chambers KF, Schenk E, Essand M, Birnie R, Mitry RR, Dhawan A, and Maitland NJ

Subjects
Animals, Cell Line, Tumor, Coxsackie and Adenovirus Receptor-Like Membrane Protein genetics, Coxsackie and Adenovirus Receptor-Like Membrane Protein metabolism, Endothelial Cells metabolism, Endothelial Cells virology, Epithelial Cells metabolism, Epithelial Cells virology, Gene Expression, Genetic Vectors, Hepatocytes metabolism, Hepatocytes virology, Humans, Male, Mice, Microscopy, Electron, Transmission, Models, Biological, Organ Specificity, Primary Cell Culture, Prostatic Neoplasms pathology, Viral Proteins biosynthesis, Virus Replication, Adenoviruses, Human, Oncolytic Virotherapy methods, Oncolytic Viruses, Prostatic Neoplasms therapy
Abstract

Ad[I/PPT-E1A] is an oncolytic adenovirus that specifically kills prostate cells via restricted replication by a prostate-specific regulatory element. Off-target replication of oncolytic adenoviruses would have serious clinical consequences. As a proposed ex vivo test, we describe the assessment of the specificity of Ad[I/PPT-E1A] viral cytotoxicity and replication in human nonprostate primary cells. Four primary nonprostate cell types were selected to mimic the effects of potential in vivo exposure to Ad[I/PPT-E1A] virus: bronchial epithelial cells, urothelial cells, vascular endothelial cells, and hepatocytes. Primary cells were analyzed for Ad[I/PPT-E1A] viral cytotoxicity in MTS assays, and viral replication was determined by hexon titer immunostaining assays to quantify viral hexon protein. The results revealed that at an extreme multiplicity of infection of 500, unlikely to be achieved in vivo, Ad[I/PPT-E1A] virus showed no significant cytotoxic effects in the nonprostate primary cell types apart from the hepatocytes. Transmission electron microscopy studies revealed high levels of Ad[I/PPT-E1A] sequestered in the cytoplasm of these cells. Adenoviral green fluorescent protein reporter studies showed no evidence for nuclear localization, suggesting that the cytotoxic effects of Ad[I/PPT-E1A] in human primary hepatocytes are related to viral sequestration. Also, hepatocytes had increased amounts of coxsackie adenovirus receptor surface protein. Active viral replication was only observed in the permissive primary prostate cells and LNCaP prostate cell line, and was not evident in any of the other nonprostate cells types tested, confirming the specificity of Ad[I/PPT-E1A]. Thus, using a relevant panel of primary human cells provides a convenient and alternative preclinical assay for examining the specificity of conditionally replicating oncolytic adenoviruses in vivo.

Published
2012
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34. Laser microdissection microscopy: application to cell culture.

Author

Mustafa A, Cenayko C, Mitry RR, and Quaglia A

Subjects
Cell Line, Tumor, Cells, Cultured, DNA isolation & purification, Hep G2 Cells, Humans, Microscopy, Confocal methods, Proteins isolation & purification, RNA isolation & purification, Cell Culture Techniques methods, Laser Capture Microdissection methods
Abstract

Laser microdissection (LMD) microscopy allows isolation of specific cell populations to target their -molecular profile. There are several different types of LMD microscopes, but they are all based on the same principle. A laser beam is used to cut out cells or tissues of interest from a histological section, cytology preparations, or live cells from tissue cultures. Live cells can be isolated using LMD and processed for downstream molecular work. RNA, DNA, and protein isolation is possible from a small number of cells and the material is suitable for further real-time PCR, ELISA, Western Blotting, and protein microarray analysis.

Published
2012
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35. Introduction to cell culture.

Author

Philippeos C, Hughes RD, Dhawan A, and Mitry RR

Subjects
Animals, Cell Culture Techniques standards, Humans, Laboratories standards, Cell Culture Techniques instrumentation, Cell Culture Techniques methods
Abstract

The basics of cell culture as applied to human cells are discussed. Biosafety when working with human tissue, which is often pathogenic, is important. The requirements for a tissue culture laboratory are described, particularly the range of equipment needed to carry out cell isolation, purification, and culture. Steps must be taken to maintain aseptic conditions to prevent contamination of cultures with micro-organisms. Basic cell-handling techniques are discussed, including choice of media, primary culture, and cryopreservation of cells so they can be stored for future use. Common assays which are used to determine cell viability and activity are considered.

Published
2012
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36. Improving the techniques for human hepatocyte transplantation: report from a consensus meeting in London.

Author

Puppi J, Strom SC, Hughes RD, Bansal S, Castell JV, Dagher I, Ellis EC, Nowak G, Ericzon BG, Fox IJ, Gómez-Lechón MJ, Guha C, Gupta S, Mitry RR, Ohashi K, Ott M, Reid LM, Roy-Chowdhury J, Sokal E, Weber A, and Dhawan A

Subjects
Cell Differentiation, Cell Proliferation, Hepatocytes metabolism, Humans, Liver Regeneration, Mesenchymal Stem Cells, Stem Cells, Transplantation, Heterologous methods, Treatment Outcome, Cell Transplantation methods, Hepatocytes transplantation, Liver Diseases therapy
Abstract

On September 6 and 7, 2009 a meeting was held in London to identify and discuss what are perceived to be current roadblocks to effective hepatocyte transplantation as it is currently practiced in the clinics and, where possible, to offer suggestions to overcome the blocks and improve the outcomes for this cellular therapy. Present were representatives of most of the active clinical hepatocyte transplant programs along with other scientists who have contributed substantial basic research to this field. Over the 2-day sessions based on the experience of the participants, numerous roadblocks or challenges were identified, including the source of cells for the transplants and problems with tracking cells following transplantation. Much of the discussion was focused on methods to improve engraftment and proliferation of donor cells posttransplantation. The group concluded that, for now, parenchymal hepatocytes isolated from donor livers remain the best cell source for transplantation. It was reported that investigations with other cell sources, including stem cells, were at the preclinical and early clinical stages. Numerous methods to modulate the immune reaction and vascular changes that accompany hepatocyte transplantation were proposed. It was agreed that, to obtain sufficient levels of repopulation of liver with donor cells in patients with metabolic liver disease, some form of liver preconditioning would likely be required to enhance the engraftment and/or proliferation of donor cells. It was reported that clinical protocols for preconditioning by hepatic irradiation, portal vein embolization, and surgical resection had been developed and that clinical studies using these protocols would be initiated in the near future. Participants concluded that sharing information between the groups, including standard information concerning the quality and function of the transplanted cells prior to transplantation, clinical information on outcomes, and standard preconditioning protocols, would help move the field forward and was encouraged.

Published
2012
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37. Use of indocyanine green for functional assessment of human hepatocytes for transplantation.

Author

Ho CM, Dhawan A, Hughes RD, Lehec SC, Puppi J, Philippeos C, Lee PH, and Mitry RR

Subjects
Adult, Aged, Albumins metabolism, Cell Survival drug effects, DNA metabolism, Female, Hep G2 Cells, Hepatocytes drug effects, Hepatocytes metabolism, Humans, Male, Middle Aged, Mitochondria, Liver metabolism, Coloring Agents pharmacokinetics, Coloring Agents pharmacology, Hepatocytes transplantation, Indocyanine Green pharmacokinetics, Indocyanine Green pharmacology
Abstract

Background/objective: Hepatocyte transplantation is a promising alternative to liver transplantation in children with liver metabolic disorders and acute liver failure. Currently, it is difficult to assess rapidly hepatocyte function before transplantation. The aim of this study was to investigate whether the uptake and release of indocyanine green (ICG) by hepatocytes could be used., Methods: Human hepatocytes (10(6) cells) isolated from unused donor livers were incubated at 37°C for 30 minutes with ICG (0-2mg/mL) in both cell suspension and on collagen-coated culture plates. Cells were then incubated in medium without ICG for 3 hours with supernatants collected at 1, 2 and 3 hours for measurement of ICG release. Cell viability was determined by trypan blue exclusion, (3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay (mitochondrial dehydrogenase activity) and sulforhodamine B (SRB) assay (cell attachment). HepG2 cells were also used., Results: ICG was taken up and secreted by hepatocytes with the release reaching a plateau level soon after 1 hour. Concentrations of ICG > 1.0mg/mL had toxic effects on hepatocytes. Hepatocytes incubated with 1.0mg/mL ICG had higher mitochondrial dehydrogenase activity compared to 0.5mg/mL ICG or control cells (0.025 ± 0.0004 OD unit vs. 0.019 ± 0.0008 OD unit or 0.020 ± 0.002 OD unit, p<0.05). Incubation of HepG2 cells with ICG reduced albumin production (98.9 ± 0.02 ng/mL, 66.6 ± 0.05 ng/mL and 39.1 ± 0.4 ng/mL for control cells, and 0.5mg/mL and 1.0mg/mL ICG, respectively), and decreased [(3)H]-thymidine incorporation in a dose-dependent manner. Addition of taurine (20mM) to plated hepatocytes gave greater release of ICG and hepatocyte attachment compared to controls, at all ICG concentrations (SRB 1.360 ± 0.083 optical density units vs. 0.908 ± 0.159 optical density units, p=0.011 at 1.0mg/mL)., Conclusion: With further refinement, ICG could be used to develop a rapid assay for assessment of the function of isolated human hepatocytes., (Copyright © 2012. Published by Elsevier B.V.)

Published
2012
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38. Hepatocyte transplantation.

Author

Mitry RR, Hughes RD, and Dhawan A

Abstract

Hepatocyte transplantation (HTx) has been developed for use in liver-based metabolic disorders and in acute liver failure. Worldwide, there are around 80 patients that have been transplanted with hepatocytes. Almost all reported studies prove feasibility and safety of the procedure with short- to medium-term success. Availability of good quality hepatocytes (HCs) is the main limiting factor, and therefore alternative sources of cells such as stem cells are being investigated. Other limiting factors include cell engraftment, survival, and function of transplanted cells. It remains to be seen if progress in HTx research can overcome these hurdles leading to the wider use of the technique as an alternative to liver transplantation in the future.

Published
2011
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39. Mixed phenotype hepatocellular carcinoma after transarterial chemoembolization and liver transplantation.

Author

Zen C, Zen Y, Mitry RR, Corbeil D, Karbanová J, O'Grady J, Karani J, Kane P, Heaton N, Portmann BC, and Quaglia A

Subjects
AC133 Antigen, Adult, Aged, Antigens, CD biosynthesis, Antigens, Neoplasm metabolism, Carcinoma, Hepatocellular etiology, Cell Adhesion Molecules metabolism, Epithelial Cell Adhesion Molecule, Female, Glycoproteins biosynthesis, Humans, Keratin-19 biosynthesis, Liver Neoplasms etiology, Liver Transplantation adverse effects, Male, Middle Aged, Neural Cell Adhesion Molecules metabolism, Peptides, Phenotype, Reverse Transcriptase Polymerase Chain Reaction methods, Treatment Outcome, Carcinoma, Hepatocellular therapy, Chemoembolization, Therapeutic methods, Liver Neoplasms therapy, Liver Transplantation methods
Abstract

We investigated the phenotype of hepatocellular carcinoma (HCC) in livers removed during transplantation after local ablation therapy by transarterial chemoembolization (TACE). This study involved 80 HCC nodules (40 treated with TACE and 40 not treated with local ablation before transplantation) observed in 64 explanted livers and included clinicopathological evaluations as well as single and double immunohistochemistry and reverse-transcription polymerase chain reaction (RT-PCR) for cytokeratin 19 (CK19), epithelial cell adhesion molecule (EpCAM), neural cell adhesion molecule (NCAM), and CD133. HCCs with complete necrosis post-TACE without viable tumors were excluded from the analysis. Cholangiolar, glandular, or spindle cell areas suggestive of a mixed hepatocholangiocellular phenotype were seen in 14 post-TACE HCCs and in none of the non-TACE HCCs (P < 0.001). According to single-epitope immunohistochemistry of post-TACE HCCs, CD133, CK19, EpCAM, and NCAM were expressed in 14 (35%), 8 (20%), 12 (30%), and 8 (20%), respectively. Only EpCAM was detected in 4 non-TACE HCC cases (10%). RT-PCR experiments using tissues obtained by laser microdissection showed that 4 of 5 investigated post-TACE HCCs expressed at least 1 of the markers, which were coexpressed in 3 of 5 tumors, whereas CD133 and EpCAM were individually expressed in 2 non-TACE HCCs. Double immunostaining showed that CD133(+) cells frequently coexpressed CK19, EpCAM, or NCAM. Interestingly, the recurrence rate for patients with CD133(+) post-TACE HCC was significantly higher than the rate for patients with CD133(-) post-TACE HCC (P = 0.025). In conclusion, HCC with the combined hepatocholangiocellular phenotype appears to be more frequent in post-TACE HCC versus untreated HCC. Further studies are needed to investigate the potential relationships between TACE and HCC subpopulations with a chemoembolization-resistant phenotype and their clinical significance., (Copyright © 2011 American Association for the Study of Liver Diseases.)

Published
2011
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40. The instant blood-mediated inflammatory reaction characterized in hepatocyte transplantation.

Author

Gustafson EK, Elgue G, Hughes RD, Mitry RR, Sanchez J, Haglund U, Meurling S, Dhawan A, Korsgren O, and Nilsson B

Subjects
ABO Blood-Group System, Blood Coagulation, Cells, Cultured, Dextran Sulfate pharmacology, Humans, Immunohistochemistry, Inflammation prevention & control, Thromboplastin physiology, Hepatocytes immunology, Hepatocytes transplantation, Inflammation etiology, Postoperative Complications etiology
Abstract

Background: Hepatocyte transplantation (HcTx) has proven to be a safe procedure, although the functional results have been unsatisfactory, probably due to insufficient engraftment or a loss of transplanted mass or function. In this study, we investigate whether hepatocytes in contact with blood induce an inflammatory reaction leading to, similar to what happens in clinical islet transplantation, an instant blood-mediated inflammatory reaction (IBMIR) resulting in an early loss of transplanted cells., Methods: By using an experimental model that mimics the portal vein blood flow, we could study different parameters reflecting the effects on the innate immunity elicited by hepatocytes in contact with ABO-matched human blood., Results: We report that all aspects of the IBMIR such as platelet and granulocyte consumption, coagulation, and complement activation were demonstrated. Addition of various specific inhibitors of coagulation allowed us to clearly delineate the various stages of the hepatocyte-triggered IBMIR and show that the reaction was triggered by tissue factor. Analysis of a case of clinical HcTx showed that hepatocyte-induced IBMIR also occurs in vivo. Both the inflammatory and the coagulation aspects were controlled by low-molecular-weight dextran sulfate., Conclusion: Isolated hepatocytes in contact with blood induce the IBMIR in vitro, and there are indications that these events are also relevant in vivo. According to these findings, HcTx would benefit from controlling a wider range of signals from the innate immune system.

Published
2011
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41. Use of a clinically approved iron oxide MRI contrast agent to label human hepatocytes.

Author

Puppi J, Mitry RR, Modo M, Dhawan A, Raja K, and Hughes RD

Subjects
Animals, Cell Survival, Cells, Cultured, Colorimetry, Contrast Media chemistry, Ferric Compounds chemistry, Hepatocytes metabolism, Hepatocytes transplantation, Humans, Liver pathology, Magnetic Resonance Imaging, Mice, Microscopy, Fluorescence, Nanoparticles chemistry, Serum Albumin metabolism, Contrast Media pharmacology, Ferric Compounds pharmacology, Hepatocytes drug effects
Abstract

Reliable noninvasive methods are needed to monitor cell engraftment and graft survival after hepatocyte transplantation. Superparamagnetic iron oxide nanoparticles (SPIOs) have been shown to accumulate in various types of cells, and are currently the labeling agent of choice for cellular magnetic resonance imaging (MRI). However, for successful clinical translation to hepatocyte transplantation, it is important that hepatocytes maintain their viability and synthetic function after labeling. In this study, primary human hepatocytes were incubated with increasing concentrations of clinical grade SPIOs for different time intervals. SPIOs uptake was confirmed by light and fluorescence microscopy, and intracellular iron content quantified by a colorimetric ferrozine-based assay. Studies were performed to determine if labeling affected cell viability and function. Intracellular iron concentrations increased in a time- and dose-dependent manner after incubation with SPIOs. Labeling had minimal short-term effects on cell attachment and mitochondrial function. However, exposure of hepatocytes to SPIOs resulted in a dose- and time-dependent reduction in protein synthesis. Cell labeling for 16 h had no significant effect on hepatocyte-specific function, but longer periods of incubation resulted in a dose-dependent decrease in albumin production. Hepatocytes incorporated SPIOs at sufficient levels for in vitro detection on a 7-T MRI imaging system, with a minimum of 2,000 SPIO-labeled cells/μl detected by a decreased T2 relaxivity compared to controls. Intrasplenic transplantation of human hepatocytes labeled with 50 μg Fe/ml of SPIOs was performed in nonobese diabetic/severe combined immune deficiency (NOD-Scid) mice. Recipient livers showed a clear decrease in signal intensity on T2*-weighted MR images when compared to controls, allowing detection of hepatocytes. With further experiments to optimize the conditions for labeling human hepatocytes, it should be possible to apply this technique to track hepatocyte transplantation in patients with liver disease.

Published
2011
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42. Human hepatocyte transplantation: current experience and future challenges.

Author

Dhawan A, Puppi J, Hughes RD, and Mitry RR

Subjects
Animals, Humans, Treatment Outcome, Cell Transplantation methods, Hepatocytes transplantation, Liver Failure surgery
Abstract

Hepatocyte transplantation has shown potential as an additional treatment modality for certain diseases of the liver. To date, patients with liver-based metabolic disorders or acute liver failure have undergone hepatocyte transplantation in several centers around the world. Results from individual patients are promising, especially for the treatment of liver-based metabolic disorders, but the lack of controlled trials makes the interpretation of the findings difficult. The current source of isolated hepatocytes is donor organs that are unused or deemed unsuitable for liver transplantation. Hence the major challenge that this field is facing is the limited supply of donor organs that can provide good quality cells. Alternative sources of cells, including stem cells, are under investigation. This Review discusses the current bench-to-bedside issues and future challenges that need to be faced to allow the wider application of hepatocyte transplantation.

Published
2010
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43. Optimization of the cryopreservation and thawing protocol for human hepatocytes for use in cell transplantation.

Author

Terry C, Dhawan A, Mitry RR, Lehec SC, and Hughes RD

Subjects
Adenosine pharmacology, Allopurinol pharmacology, Cell Count, Cell Survival, Cryopreservation standards, Glutathione pharmacology, Humans, Insulin pharmacology, Organ Preservation Solutions pharmacology, Raffinose pharmacology, Temperature, Cryopreservation methods, Cryoprotective Agents pharmacology, Dimethyl Sulfoxide pharmacology, Hepatocytes cytology, Hepatocytes transplantation
Abstract

Cryopreservation of human hepatocytes is important for their use in hepatocyte transplantation. On thawing, cryopreserved hepatocytes often have reduced viability and metabolic function in comparison with fresh cells. The aim of this study was to modify the different steps in the standard cryopreservation procedure in an attempt to improve the overall outcome. Human hepatocytes with a viability of 69% +/- SD 16% were isolated from donor livers with a collagenase perfusion technique. Different cell densities, concentrations, rates, and methods of addition of dimethyl sulfoxide were tested for the freezing solution. Modified controlled-rate freezer programs were tested to obtain a linear decrease in the temperature. Once they were frozen, the storage time and thawing method for hepatocytes were investigated. The effects on thawed cell viability and attachment, lactate dehydrogenase release, cytochrome P450 1A1/2 activity, and albumin synthesis were determined. The results were used to produce an improved cryopreservation protocol suitable for good manufacturing practice conditions. With a cell density of 10(7) cells/mL in University of Wisconsin solution containing 300 mM glucose, 10% (vol/vol) dimethyl sulfoxide was added dropwise over 5 minutes, and was immediately frozen. Thawing was done rapidly at 37 degrees C, and dilution was performed with Eagle's minimum essential medium containing 300 mM glucose and 4% human serum albumin. Hepatocytes could be stored at -140 degrees C without significant further loss of function for up to 3 years. With this protocol, hepatocytes had a viability of 52% +/- 9%, an attachment efficiency of 48% +/- 8%, and lactate dehydrogenase leakage of 17% +/- 4%. This protocol is currently in use to cryopreserve hepatocytes for use in cell transplantation at our center.

Published
2010
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44. N-acetylcysteine improves the viability of human hepatocytes isolated from severely steatotic donor liver tissue.

Author

Sagias FG, Mitry RR, Hughes RD, Lehec SC, Patel AG, Rela M, Mieli-Vergani G, Heaton ND, and Dhawan A

Subjects
Adult, Aged, Cell Separation, Cell Survival, Female, Humans, Liver Transplantation, Male, Middle Aged, Tissue Donors, Acetylcysteine pharmacology, Fatty Liver pathology, Hepatocytes cytology
Abstract

Hepatocyte transplantation is dependent on the availability of good quality human hepatocytes isolated from donor liver tissue. Hepatocytes obtained from livers rejected for transplantation on the grounds of steatosis are often of low viability and not suitable for clinical use. The aim of this study was to evaluate the effects of the antioxidant N-acetylcysteine (NAC) on the function of hepatocytes isolated from steatotic donor livers. Human hepatocytes were isolated from 10 severely steatotic (>60%) donor livers rejected for transplantation. The left lateral segment of the donor liver was dissected into two equal size pieces and randomized to NAC or control. NAC (5 mM) was added to the first perfusion buffer of the standard collagenase digestion technique. Cells from tissues perfused with NAC had a significantly higher mean viability (81.1 ± 1.7% vs. 66.0 ± 4.7%; p = 0.003) and cell attachment (1.08 ± 0.26 vs. 0.67 ± 0.18 OD units; p = 0.012). Addition of NAC during isolation of human hepatocytes from steatotic donor liver tissue significantly improved the outcome of cell isolation. Further studies are needed to investigate the mechanism(s) of this effect. Incorporation of NAC in the hepatocyte isolation protocol could increase the availability of hepatocytes for transplantation.

Published
2010
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45. Cryopreservation of human hepatocytes for clinical use.

Author

Mitry RR, Lehec SC, and Hughes RD

Subjects
Adenosine, Allopurinol, Cell Survival, Cryoprotective Agents, Dimethyl Sulfoxide, Glucose, Glutathione, Hepatocytes transplantation, Humans, Insulin, Organ Preservation Solutions, Raffinose, Serum Albumin, Cryopreservation methods, Hepatocytes cytology
Abstract

Cryopreservation of hepatocytes is important for use both in research and for clinical application in hepatocyte transplantation. Cryopreservation causes damage to hepatocytes with the result that cell viability and function is reduced on thawing compared to fresh cells. There are many different protocols reported for freezing human hepatocytes mainly using DMSO as cryoprotectant. In this chapter the current detailed protocols used for cryopreservation and thawing of human hepatocytes for cell transplantation at the Cell Isolation Unit at King's College Hospital, London, are described. All procedures must be performed in a clean GMP environment using materials and reagents which are of pharmaceutical grade. The cryopreservation media is UW solution with added 300 mM glucose containing 10% DMSO and the thawing solution is EMEM containing 2% HSA. Freezing is performed in a controlled-rate freezer using a stepwise cooling programme.

Published
2010
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46. First example of hepatocyte transplantation to alleviate ornithine transcarbamylase deficiency, monitored by NMR-based metabonomics.

Author

Legido-Quigley C, Cloarec O, Parker DA, Murphy GM, Holmes E, Lindon JC, Nicholson JK, Mitry RR, Vilca-Melendez H, Rela M, Dhawan A, and Heaton N

Subjects
Ammonia blood, Ammonia urine, Hepatocytes physiology, Humans, Infant, Infant, Newborn, Liver Transplantation, Magnetic Resonance Spectroscopy, Male, Mutation, Ornithine Carbamoyltransferase Deficiency Disease blood, Ornithine Carbamoyltransferase Deficiency Disease urine, Sepsis blood, Sepsis diagnosis, Sepsis urine, Treatment Outcome, Urea blood, Urea urine, Hepatocytes transplantation, Metabolomics methods, Monitoring, Physiologic methods, Ornithine Carbamoyltransferase Deficiency Disease surgery
Abstract

We demonstrate the effective use of NMR spectroscopic profiles of urine and plasma from the first successful use of hepatocyte transplantation as a bridge to auxiliary partial orthotopic liver transplantation in a child antenatally diagnosed with severe ornithine transcarbamylase deficiency. In this single-patient study, NMR profiles indicated that the disrupted urea cycle could be normalized by hepatocyte cell infusion and this was confirmed using orthogonal partial least-squares-based chemometrics. However, despite dietary manipulations and adminstration of ammonia scavengers, the desired reduction in plasma ammonia was not consistently achieved between sessions of hepatocyte transplantation due to episodes of sepsis. A subsequent liver transplant corrected the metabolic abnormalities. The use of metabolic profiling has been shown to be a promising method for evaluating the efficacy of cell infusions and has demonstrated the capability for the early detection of response to therapy in real time, an approach that may be of use in wider clinical settings.

Published
2009
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47. Human hepatocyte transplantation: state of the art.

Author

Fitzpatrick E, Mitry RR, and Dhawan A

Subjects
Animals, Cell Transplantation methods, Graft Survival immunology, Hepatocytes immunology, Humans, Liver Diseases complications, Liver Failure, Acute immunology, Liver Failure, Acute surgery, Metabolic Diseases etiology, Models, Animal, Hepatocytes transplantation, Liver Diseases surgery, Metabolic Diseases surgery
Abstract

Hepatocyte transplantation is making its transition from bench to bedside for liver-based metabolic disorders and acute liver failure. Over eighty patients have now been transplanted world wide and the safety of the procedure together with medium-term success has been established. A major limiting factor in the field is the availability of good quality cells as hepatocytes are derived from grafts that are deemed unsuitable for transplantation. Alternative sources of cell, including stem cells may provide a sustainable equivalent to primary hepatocytes. There is also a need to develop techniques that will improve the engraftment, survival and function of transplanted hepatocytes. Such developments may allow hepatocyte transplantation to become an accepted and practical alternative to liver transplantation in the near future.

Published
2009
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49. Vigorous activation of monocytes in juvenile autoimmune liver disease escapes the control of regulatory T-cells.

Author

Longhi MS, Mitry RR, Samyn M, Scalori A, Hussain MJ, Quaglia A, Mieli-Vergani G, Ma Y, and Vergani D

Subjects
Adolescent, Child, Child, Preschool, Humans, Immune System Phenomena, Autoimmune Diseases immunology, Leukocytes, Mononuclear physiology, Liver Diseases immunology, T-Lymphocytes, Regulatory physiology
Abstract

Unlabelled: Interface hepatitis, the histological lesion typical of autoimmune hepatitis (AIH), is composed of CD4 and CD8 T lymphocytes and of innate immunity cells, particularly monocytes. Studies in AIH have focused on autoreactive CD4 and CD8 T cells and impairment of CD4+CD25+ regulatory T cells (T-regs), whereas little is known about the role of monocytes and their relationship with T-regs. We have investigated 51 patients with autoimmune liver disease (AILD) and 27 healthy subjects, finding that monocytes were higher in number (P = 0.044), had a more vigorous spontaneous migration (P < 0.0005 in patients with inactive disease [ID], and P < 0.001 in those with active disease [AD]), displayed a higher tumor necrosis factor alpha (TNF-alpha) over interleukin (IL)-10 production (P = 0.07 in ID and P = 0.0005 in AD), and expressed higher levels of Toll-like receptor (TLR) 4 (P = 0.048 in ID and P = 0.03 in AD). Addition of conventional T-regs (cT-regs) in AILD enhanced monocyte migration (P = 0.05 in ID and P = 0.08 in AD), magnified TNF-alpha over IL-10 production (P = 0.0005 in ID and P = 0.006 in AD), and markedly increased TLR4 expression levels (P = 0.01 in ID and P = 0.004 in AD), whereas in normal subjects it either restrained or left unchanged monocyte function. Because a CD127-negative subpopulation within CD4+CD25+ T cells exerts the strongest regulatory activity, we performed additional experiments using purified CD4+CD25+CD127- T cells (true T-regs [tT-regs]). Addition of tT-regs to monocytes decreased monocyte migration (P = 0.03) and promoted IL-10 production (P = 0.009), leaving unchanged TLR4 expression in healthy subjects, whereas in patients with AILD it induced only a marginal increase in IL-10 production (P = 0.045 in ID and P = 0.13 in AD)., Conclusion: Monocyte overactivation and inability of cT-regs and tT-regs to restrain it may contribute to the loss of immune tolerance and perpetuation of the autoimmune attack in AILD.

Published
2009
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50. Isolation of human hepatocytes.

Author

Mitry RR

Subjects
Cell Separation methods, Hepatocytes metabolism, Humans, Liver cytology, Liver metabolism, Urea metabolism, Hepatocytes cytology
Abstract

Protocols for isolation of human hepatocytes have been developed. The isolated cells can be used not only in research but also for transplantation in patients with liver disease, especially acute liver failure and liver-based metabolic/synthetic conditions. The aim of hepatocyte transplantation is to correct the missing liver function(s) and allow either the recovery of the liver or buy the patient time until a suitable donor liver is available for transplantation.

Published
2009
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