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Expert Opinion on Drug Metabolism & Toxicology Volume 5, 2009 - Issue 10
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Reviews

Liver tissue engineering in the evaluation of drug safety

Ajit Dash Underwood-Prescott Professor of Toxicology and Chemistry, Department of Biological Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Office 56-731A, Cambridge, MA 02139, USA +1 617 253 3729; +1 617 252 1787; [email protected]
,
Walker Inman Underwood-Prescott Professor of Toxicology and Chemistry, Department of Biological Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Office 56-731A, Cambridge, MA 02139, USA +1 617 253 3729; +1 617 252 1787; [email protected]
,
Keith Hoffmaster Novartis Institute of Biomedical Research, 350 Massachusetts Avenue, Cambridge, Massachusetts, MA 02139, USA
,
Samantha Sevidal Pfizer Research Technology Center, Cambridge, Massachusetts, MA 02139, USA
,
Joan Kelly Pfizer Research Technology Center, Cambridge, Massachusetts, MA 02139, USA
,
R Scott Obach Pfizer Research Technology Center, Cambridge, Massachusetts, MA 02139, USA
,
Linda G Griffith Underwood-Prescott Professor of Toxicology and Chemistry, Department of Biological Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Office 56-731A, Cambridge, MA 02139, USA +1 617 253 3729; +1 617 252 1787; [email protected]
&
Steven R Tannenbaum Underwood-Prescott Professor of Toxicology and Chemistry, Department of Biological Engineering, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Office 56-731A, Cambridge, MA 02139, USA +1 617 253 3729; +1 617 252 1787; [email protected]
, PhD show all
Pages 1159-1174 | Published online: 29 Jul 2009

Bibliography

  • Griffith LG, Swartz MA. Capturing complex 3D tissue physiology in vitro. Nat Rev Mol Cell Biol 2006;7:211-24
  • Bissell DM, Gores GJ, Laskin DL, Hoofnagle JH. Drug-induced liver injury: mechanisms and test systems. Hepatology 2001;33:1009-13
  • Olson H, Betton G, Robinson D, et al. Concordance of the toxicity of pharmaceuticals in humans and in animals. Regul Toxicol Pharmacol 2000;32:56-67
  • Li AP. Accurate prediction of human drug toxicity: a major challenge in drug development. Chem Biol Interact 2004;150:3-7
  • Calabrese EJ. Suitability of animal-models for predictive toxicology - theoretical and practical considerations. Drug Metab Rev 1984;15:505-23
  • MacGregor JT, Collins JM, Sugiyama Y, et al. In vitro human tissue models in risk assessment: report of a consensus-building workshop. Toxicol Sci 2001;59:17-36
  • O'Brien PJ, Chan K, Silber PM. Human and animal hepatocytes in vitro with extrapolation in vivo. Chem Biol Interact 2004;150:97-114
  • Hewitt NJ, Lechon MJG, Houston JB, et al. Primary hepatocytes: current understanding of the regulation of metabolic enzymes and transporter proteins, and pharmaceutical practice for the use of hepatocytes in metabolism, enzyme induction, transporter, clearance, and hepatotoxicity studies. Drug Metab Rev 2007;39:159-234
  • Vermeir M, Annaert P, Mamidi RN, et al. Cell-based models to study hepatic drug metabolism and enzyme induction in humans. Expert Opin Drug Metab Toxicol 2005;1:75-90
  • Li AP. In vitro approaches to evaluate ADMET drug properties. Curr Top Med Chem 2004;4:701-6
  • Ferrini JB, Pichard L, Domergue J, Maurel P. Long-term primary cultures of adult human hepatocytes. Chem Biol Interact 1997;107:31-45
  • Guillouzo A. Liver cell models in in vitro toxicology. Environ Health Perspect 1998;106:511-32
  • Soars MG, McGinnity DF, Grime K, Riley RJ. The pivotal role of hepatocytes in drug discovery. Chem Biol Interact 2007;168:2-15
  • Li AP, Gorycki PD, Hengstler JG, et al. Present status of the application of cryopreserved hepatocytes in the evaluation of xenobiotics: consensus of an international expert panel. Chem Biol Interact 1999;121:117-23
  • Ito K, Houston JB. Comparison of the use of liver models for predicting drug clearance using in vitro kinetic data from hepatic microsomes and isolated hepatocytes. Pharm Res 2004;21:785-92
  • Shitara Y, Li AP, Kato Y, et al. Function of uptake transporters for taurocholate and estradiol 17beta-D-glucuronide in cryopreserved human hepatocytes. Drug Metab Pharmacokinet 2003;18:33-41
  • Hirano M, Maeda K, Shitara Y, Sugiyama Y. Contribution of Oatp2 (Oatp1B1) and Oatp8 (Oatp1B3) to the hepatic uptake of pitavastatin in humans. J Pharmacol Exp Ther 2004;311:139-46
  • Xu JHJ, Henstock PV, Dunn MC, et al. Cellular imaging predictions of clinical drug-induced liver injury. Toxicol Sci 2008;105:97-105
  • Descamps D, Benihoud K. Two key challenges for effective adenovirus-mediated liver gene therapy: innate immune responses and hepatocyte-specific transduction. Curr Gene Ther 2009;9:115-27
  • Julie NL, Julie IM, Kende AI, Wilson GL. Mitochondrial dysfunction and delayed hepatotoxicity: another lesson from troglitazone. Diabetologia 2008;51:2108-16
  • Appledorn DM, McBride A, Seregin S, et al. Complex interactions with several arms of the complement system dictate innate and humoral immunity to adenoviral vectors. Gene Ther 2008;15:1606-17
  • Schiedner G, Bloch W, Hertel S, et al. A hemodynamic response to intravenous adenovirus vector particles is caused by systemic kupffer cell-mediated activation of endothelial cells. Hum Gene Ther 2003;14:1631-41
  • Luyendyk JP, Maddox JF, Cosma GN, et al. Ranitidine treatment during a modest inflammatory response precipitates idiosyncrasy-like liver injury in rats. J Pharmacol Exp Ther 2003;307:9-16
  • Holt MP, Ju C. Mechanisms of drug-induced liver injury. AAPS J 2006;8:E48-54
  • Uetrecht J. Idiosyncratic drug reactions: past, present, and future. Chem Res Toxicol 2008;21:84-92
  • Jones BE, Czaja MJ. Mechanisms of hepatic toxicity III. Intracellular signaling in response to toxic liver injury. Am J Physiol Gastrointest Liver Physiol 1998;38:G874-8
  • Bourdi M, Reilly TP, Elkahloun AG, et al. Macrophage migration inhibitory factor in drug-induced liver injury: a role in susceptibility and stress responsiveness. Biochem Biophys Res Commun 2002;294:225-30
  • Malik R, Selden C, Hodgson H. The role of non-parenchymal cells in liver growth. Semin Cell Dev Biol 2002;13:425-31
  • Matsumura T, Kauffman FC, Meren H, Thurman RG. O2 uptake in periportal and pericentral regions of liver lobule in perfused liver. Am J Physiol 1986;250:G800-5
  • Meren H, Matsumura T, Kauffman FC, Thurman RG. Relationship between oxygen tension and oxygen uptake in the perfused rat liver. Adv Exp Med Biol 1986;200:467-76
  • Colletti M, Cicchini C, Conigliaro A, et al. Convergence of Wnt signaling on the HNF4a-driven transcription in controlling liver zonation. Gastroenterology 2009 [In press]
  • Braeuning A, Ittrich C, Kohle C, et al. Differential gene expression in periportal and perivenous mouse hepatocytes. FEBS J 2006;273:5051-61
  • Domansky K, Sivaraman A, Griffith LG. Micromachined bioreactor for in vitro cell self-assembly and 3D tissue formation. Lab-on-chips for cellomics. Micro and Nanotechnologies for Life Science. Netherlands: Springer, 2005;319-46
  • Powers MJ, Janigian DM, Wack KE, et al. Functional behavior of primary rat liver cells in a three-dimensional perfused microarray bioreactor. Tissue Eng 2002;8:499-513
  • Lecluyse EL, Bullock PL, Parkinson A. Strategies for restoration and maintenance of normal hepatic structure and function in long-term cultures of rat hepatocytes. Adv Drug Deliv Rev 1996;22:133-86
  • Gomez-Lechon MJ, Jover R, Donato T, et al. Long-term expression of differentiated functions in hepatocytes cultured in three-dimensional collagen matrix. J Cell Physiol 1998;177:553-62
  • Gross-Steinmeyer K, Stapleton PL, Tracy JH, et al. Influence of Matrigel-overlay on constitutive and inducible expression of nine genes encoding drug-metabolizing enzymes in primary human hepatocytes. Xenobiotica 2005;35:419-38
  • Page JL, Johnson MC, Olsavsky KM, et al. Gene expression profiling of extracellular matrix as an effector of human hepatocyte phenotype in primary cell culture. Toxicol Sci 2007;97:384-97
  • Vickers AEM, Fisher RL. Organ slices for the evaluation of human drug toxicity. Chem Biol Interact 2004;150:87-96
  • Baudoin R, Corlu A, Griscom L, et al. Trends in the development of microfluidic cell biochips for in vitro hepatotoxicity. Toxicol In Vitro 2007;21:535-44
  • Gebhardt R, Hengstler JG, Muller D, et al. New hepatocyte in vitro systems for drug metabolism: metabolic capacity and recommendations for application in basic research and drug development, standard operation procedures. Drug Metab Rev 2003;35:145-213
  • Deng XM, Stachlewitz RF, Liguori MJ, et al. Modest inflammation enhances diclofenac hepatotoxicity in rats: role of neutrophils and bacterial translocation. J Pharmacol ExpTher 2006;319:1191-9
  • Hoebe KHN, Witkamp RF, Fink-Gremmels J, et al. Direct cell-to-cell contact between kupffer cells and hepatocytes augments endotoxin-induced hepatic injury. Am J Physio Gastrointest Liver Physiol 2001;280:G720-8
  • Edwards MJ, Keller BJ, Kauffman FC, Thurman RG. The involvement of kupffer cells in carbon-tetrachloride toxicity. Toxicol Appl Pharmacol 1993;119:275-9
  • Horbach M, Gerber E, Kahl R. Influence of acetaminophen treatment and hydrogen peroxide treatment on the release of a CINC-related protein and TNF-alpha from rat hepatocyte cultures. Toxicology 1997;121:117-26
  • Nastevska C, Gerber E, Horbach M, et al. Impairment of TNF-alpha expression and secretion in primary rat liver cell cultures by acetaminophen treatment. Toxicology 1999;133:85-92
  • Adachi Y, Bradford BU, Gao WS, et al. Inactivation of kupffer cells prevents early alcohol-induced liver-injury. Hepatology 1994;20:453-60
  • Deleve LD, Ito Y, Bethea NW, et al. Embolization by sinusoidal lining cells obstructs the microcirculation in rat sinusoidal obstruction syndrome. Am J Physiol Gastrointest Liver Physiol 2003;284:G1045-52
  • Tukov FF, Maddox JF, Amacher DE, et al. Modeling inflammation-drug interactions in vitro: a rat kupffer cell-hepatocyte coculture system. Toxicol In Vitro 2006;20:1488-99
  • Morin O, Normand C. Long-Term maintenance of hepatocyte functional-activity in coculture - requirements for sinusoidal endothelial-cells and dexamethasone. J Cell Physiol 1986;129:103-10
  • Goulet F, Normand C, Morin O. Cellular interactions promote tissue-specific function, biomatrix deposition and junctional communication of primary cultured-hepatocytes. Hepatology 1988;8:1010-8
  • Loreal O, Levavasseur F, Fromaget C, et al. Cooperation of ito cells and hepatocytes in the deposition of an extracellular-matrix in-vitro. Am J Pathol 1993;143:538-44
  • Rojkind M, Novikoff PM, Greenwel P, et al. Characterization and functional-studies on rat-liver fat-storing cell-line and freshly isolated hepatocyte coculture system. Am J Pathol 1995;146:1508-20
  • Uyama N, Shimahara Y, Kawada N, et al. Regulation of cultured rat hepatocyte proliferation by stellate cells. J Hepatol 2002;36:590-99
  • Bhatia SN, Balis UJ, Yarmush ML, Toner M. Effect of cell-cell interactions in preservation of cellular phenotype: cocultivation of hepatocytes and nonparenchymal cells. FASEB J 1999;13:1883-900
  • Schrode W, Mecke D, Gebhardt R. Induction of glutamine synthetase in periportal hepatocytes by cocultivation with a liver epithelial cell line. Eur J Cell Biol 1990;53:35-41
  • Zinchenko YS, Culberson CR, Coger RN. Contribution of non-parenchymal cells to the performance of micropatterned hepatocytes. Tissue Eng 2006;12:2241-51
  • Bhandari RNB, Riccalton LA, Lewis AL, et al. Liver tissue engineering: a role for co-culture systems in modifying hepatocyte function and viability. Tissue Eng 2001;7:345-57
  • Kidambi S, Sheng LF, Yarmush ML, et al. Patterned co-culture of primary hepatocytes and fibroblasts using polyelectrolyte multilayer templates. Macromol Biosci 2007;7:344-53
  • Zinchenko YS, Schrum LW, Clemens M, Coger RN. Hepatocyte and kupffer cells co-cultured on micropatterned surfaces to optimize hepatocyte function. Tissue Eng 2006;12:751-61
  • Khetani SR, Bhatia SN. Microscale culture of human liver cells for drug development. Nature Biotechnology 2008;26:120-6
  • Fausto N. Liver regeneration. J Hepatol 2000;32:19-31
  • Cressman DE, Diamond RH, Taub R. Rapid activation of the Stat3 transcription complex in liver-regeneration. Hepatology 1995;21:1443-9
  • Bissell DM, Wang SS, Jarnagin WR, Roll FJ. Cell-specific expression of transforming growth-factor-beta in rat-liver - evidence for autocrine regulation of hepatocyte proliferation. J Clin Invest 1995;96:447-55
  • Boulton R, Woodman A, Calnan D, et al. Nonparenchymal cells from regenerating rat liver generate interleukin-1 alpha and -1 beta: a mechanism of negative regulation of hepatocyte proliferation. Hepatology 1997;26:49-58
  • Milosevic N, Schawalder H, Maier P. Kupffer cell-mediated differential down-regulation of cytochrome P450 metabolism in rat hepatocytes. Eur J Pharmacol 1999;368:75-87
  • Schirmacher P, Geerts A, Pietrangelo A, et al. Hepatocyte growth-factor hepatopoietin-A is expressed in fat-storing cells from rat-liver but not myofibroblast-like cells derived from fat-storing cells. Hepatology 1992;15:5-11
  • Riccalton-Banks L, Liew C, Bhandari R, et al. Long-term culture of functional liver tissue: three-dimensional coculture of primary hepatocytes and stellate cells. Tissue Eng 2003;9:401-10
  • Krause P, Markus PM, Schwartz P, et al. Hepatocyte-supported serum-free culture of rat liver sinusoidal endothelial cells. J Hepatol 2000;32:718-26
  • Edwards S, Lalor PF, Nash GB, et al. Lymphocyte traffic through sinusoidal endothelial cells is regulated by hepatocytes. Hepatology 2005;41:451-9
  • Tomomura A, Sawada N, Sattler GL, et al. The control of Dna-synthesis in primary cultures of hepatocytes from adult and young-rats - interactions of extracellular-matrix components, epidermal growth-factor, and the cell-cycle. J Cell Physiol 1987;130:221-7
  • Benzeev A, Robinson GS, Bucher NLR, Farmer SR. Cell cell and cell matrix interactions differentially regulate the expression of hepatic and cytoskeletal genes in primary cultures of rat hepatocytes. Proc Natl Acad Sci USA 1988;85:2161-5
  • Okano T, Yamada N, Sakai H, Sakurai Y. A novel recovery-system for cultured-cells using plasma-treated polystyrene dishes grafted with Poly(N-Isopropylacrylamide). J Biomed Mater Res 1993;27:1243-51
  • Liu X, LeCluyse EL, Brouwer KR, et al. Biliary excretion in primary rat hepatocytes cultured in a collagen-sandwich configuration. Am J Physiol 1999;277:G12-21
  • LeCluyse EL, Audus KL, Hochman JH. Formation of extensive canalicular networks by rat hepatocytes cultured in collagen-sandwich configuration. Am J Physiol 1994;266:C1764-74
  • Dunn JC, Tompkins RG, Yarmush ML. Long-term in vitro function of adult hepatocytes in a collagen sandwich configuration. Biotechnol Prog 1991;7:237-45
  • Farkas D, Bhat VB, Mandapati S, et al. Characterization of the secreted proteome of rat hepatocytes cultured in collagen sandwiches. Chem Res Toxicol 2005;18:1132-9
  • Farkas D, Tannenbaum SR. Characterization of chemically induced hepatotoxicity in collagen sandwiches of rat hepatocytes. Toxicol Sci 2005;85:927-34
  • Hoffman RM. To do tissue-culture in 2 or 3 dimensions–that is the question. Stem Cells 1993;11:105-11
  • Schwachofer JHM. Multicellular tumor spheroids in radiotherapy research. Anticancer Res 1990;10:963-9
  • Nagaoka M, Ise H, Akaike T. Immobilized E-cadherin model can enhance cell attachment and differentiation of primary hepatocytes but not proliferation. Biotechnol Lett 2002;24:1857-62
  • Awata R, Sawai H, Imai K, et al. Morphological comparison and functional reconstitution of rat hepatic parenchymal cells on various matrices. J Gastroenterol Hepatol 1998;13:S55-61
  • Bissell MJ, Radisky DC, Rizki A, et al. The organizing principle: microenvironmental influences in the normal and malignant breast. Differentiation 2002;70:537-46
  • Ingber DE. Cancer as a disease of epithelial-mesenchymal interactions and extracellular matrix regulation. Differentiation 2002;70:547-60
  • Roskelley CD, Srebrow A, Bissell MJ. A hierarchy of ECM-mediated signalling regulates tissue-specific gene expression. Curr Opin Cell Biol 1995;7:736-47
  • Cunha GR, Hayward SW, Wang YZ. Role of stroma in carcinogenesis of the prostate. Differentiation 2002;70:473-85
  • Radisky D, Muschler J, Bissell MJ. Order and disorder: the role of extracellular matrix in epithelial cancer. Cancer Invest 2002;20:139-53
  • Knight B, Laukaitis C, Akhtar N, et al. Visualizing muscle cell migration in situ. Curr Biol 2000;10:576-85
  • Roskelley CD, Desprez PY, Bissell MJ. Extracellular matrix-dependent tissue-specific gene expression in mammary epithelial cells requires both physical and biochemical signal transduction. Proc Natl Acad Sci USA 1994;91:12378-82
  • Li AP, Colburn SM, Beck DJ. A simplified method for the culturing of primary adult rat and human hepatocytes as multicellular spheroids. In Vitro Cell Dev Biol 1992;28A:673-7
  • Yuasa C, Tomita Y, Shono M, et al. Importance of cell aggregation for expression of liver functions and regeneration demonstrated with primary cultured hepatocytes. J Cell Physiol 1993;156:522-30
  • Tong JZ, De Lagausie P, Furlan V, et al. Long-term culture of adult rat hepatocyte spheroids. Exp Cell Res 1992;200:326-32
  • Takezawa T, Yamazaki M, Mori Y, et al. Morphological and immuno-cytochemical characterization of a hetero-spheroid composed of fibroblasts and hepatocytes. J Cell Sci 1992;101:495-501
  • Abu-Absi SF, Hansen LK, Hu WS. Three-dimensional co-culture of hepatocytes and stellate cells. Cytotechnology 2004;45:125-40
  • Otsuka H, Hirano A, Nagasaki Y, et al. Two-dimensional multiarray formation of hepatocyte spheroids on a microfabricated PEG-brush surface. Chembiochem 2004;5:850-5
  • Price RJ, Ball SE, Renwick AB, et al. Use of precision-cut rat liver slices for studies of xenobiotic metabolism and toxicity: comparison of the krumdieck and brendel tissue slicers. Xenobiotica 1998;28:361-71
  • Toutain HJ, Moronvalle-Halley V, Sarsat JP, et al. Morphological and functional integrity of precision-cut rat liver slices in rotating organ culture and multiwell plate culture: effects of oxygen tension. Cell Biol Toxicol 1998;14:175-90
  • Lerche-Langrand C, Toutain HJ. Precision-cut liver slices: characteristics and use for in vitro pharmaco-toxicology. Toxicology 2000;153:221-53
  • Moronvalle-Halley V, Sacre-Salem B, Sallez V, et al. Evaluation of cultured, precision-cut rat liver slices as a model to study drug-induced liver apoptosis. Toxicology 2005;207:203-14
  • Vickers AEM, Fisher RL. Organ slices for the evaluation of human drug toxicity. Chem Biol Interact 2004;150:87-96
  • Guyot C, Combe C, Balabaud C, et al. Fibrogenic cell fate during fibrotic tissue remodelling observed in rat and human cultured liver slices. J Hepatol 2007;46:142-50
  • de Bovenkamp MV, Groothuis GMM, Meijer DKF, Olinga P. Liver fibrosis in vitro: cell culture models and precision-cut liver slices. Toxicol In Vitro 2007;21:545-57
  • van de Bovenkamp M, Groothuis GMM, Draaisma AL, et al. Precision-cut liver slices as a new model to study toxicity-induced hepatic stellate cell activation in a physiologic milieu. Toxicol Sci 2005;85:632-38
  • Lin KH, Maeda S, Saito T. Long-term maintenance of liver-specific functions in three-dimensional culture of adult rat hepatocytes with a porous gelatin sponge support. Biotechnol Appl Biochem 1995;21(Pt 1):19-27
  • Semino CE, Merok JR, Crane GG, et al. Functional differentiation of hepatocyte-like spheroid structures from putative liver progenitor cells in three-dimensional peptide scaffolds. Differentiation 2003;71:262-70
  • Gerlach J, Encke J, Muller C, Neuhaus P. A model of hepatocyte cultures in bioreactors for hybrid liver support. Zentralbl Chir 1994;119:334-40
  • Martin Y, Vermette P. Bioreactors for tissue mass culture: design, characterization, and recent advances. Biomaterials 2005;26:7481-503
  • MacDonald JM, Wolfe SP, Roy-Chowdhury I, et al. Effect of flow configuration and membrane characteristics on membrane fouling in a novel multicoaxial hollow-fiber bioartificial liver. Ann NY Acad Sci 2001;944:334-43
  • Zeilinger K, Holland G, Sauer IM, et al. Time course of primary liver cell reorganization in three-dimensional high-density bioreactors for extracorporeal liver support: an immunohistochemical and ultrastructural study. Tissue Eng 2004;10:1113-24
  • Curcio E, Salerno S, Barbieri G, et al. Mass transfer and metabolic reactions in hepatocyte spheroids cultured in rotating wall gas-permeable membrane system. Biomaterials 2007;28:5487-97
  • Nyberg SL, Shatford RA, Peshwa MV, et al. Evaluation of a hepatocyte-entrapment hollow fiber bioreactor–a potential bioartificial liver. Biotechnol Bioeng 1993;41:194-203
  • De Bartolo L, Morelli S, Lopez LC, et al. Human galactosylated membrane bioreactor for the long-term maintenance of liver specific functions. Desalination 2006;199:147-9
  • De Bartolo L, Salerno S, Curcio E, et al. Human hepatocyte functions in a crossed hollow fiber membrane bioreactor. Biomaterials 2009;30:2531-43
  • Lee PJ, Hung PJ, Lee LP. An artificial liver sinusoid with a microfluidic endothelial-like barrier for primary hepatocyte culture. Biotechnol Bioeng 2007;97:1340-6
  • Mehta K, Mehta G, Takayama S, Linderman J. Quantitative inference of cellular parameters from microfluidic cell culture systems. Biotechnol Bioeng 2009;103(5):966-74
  • Song JW, Gu W, Futai N, et al. Computer-controlled microcirculatory support system for endothelial cell culture and shearing. Anal Chem 2005;77:3993-9
  • Sivaraman A, Leach JK, Townsend S, et al. A microscale in vitro physiological model of the liver: predictive screens for drug metabolism and enzyme induction. Curr Drug Metab 2005;6:569-91
  • Powers MJ, Domansky K, Kaazempur-Mofrad MR, et al. A microfabricated array bioreactor for perfused 3D liver culture. Biotechnol Bioeng 2002;78:257-69
  • Hwa AJ, Fry RC, Sivaraman A, et al. Rat liver sinusoidal endothelial cells survive without exogenous VEGF in 3D perfused co-cultures with hepatocytes. FASEB J 2007;21:2564-79
  • Buhler R, Lindros KO, Nordling A, et al. Zonation of cytochrome-P450 isozyme expression and induction in rat-liver. Eur J Biochem 1992;204:407-12
  • Jungermann K, Katz N. Functional hepatocellular heterogeneity. Hepatology 1982;2:385-95
  • Gebhardt R. Metabolic zonation of the liver–regulation and implications for liver-function. Pharmacol Ther 1992;53:275-354
  • Gebhardt R, Gaunitz F. Cell-cell interactions in the regulation of the expression of hepatic enzymes. Cell Biol Toxicol 1997;13:263-73
  • Xu JJ, Diaz D, O'Brien PJ. Applications of cytotoxicity assays and pre-lethal mechanistic assays for assessment of human hepatotoxicity potential. Chem Biol Interact 2004;150:115-28
  • Lautraite S, Bigot-Lasserre D, Bars R, Carmichael N. Optimisation of cell-based assays for medium throughput screening of oxidative stress. Toxicol In Vitro 2003;17:207-20
  • O'Brien PJ, Irwin W, Diaz D, et al. High concordance of drug-induced human hepatotoxicity with in vitro cytotoxicity measured in a novel cell-based model using high content screening. Arch Toxicol 2006;80:580-604
  • Davila JC, Xu JJ, Hoffmaster KA, et al. Current in vitro models to study drug-induced liver injury. In: Sahu SC, editor, Hepatotoxicity: from genomics to in vitro and in vivo Models. John Wiley & Sons, Ltd, 2008. p. 3-55
  • Bogaards JJP, Bertrand M, Jackson P, et al. Determining the best animal model for human cytochrome P450 activities: a comparison of mouse, rat, rabbit, dog, micropig, monkey and man. Xenobiotica 2000;30:1131-52
  • Mutlib AE, Gerson RJ, Meunier PC, et al. The species-dependent metabolism of efavirenz produces a nephrotoxic glutathione conjugate in rats. Toxicol Appl Pharmacol 2000;169:102-13
  • Josse R, Aninat C, Glaise D, Dumont J, et al. Long-term functional stability of human HepaRG hepatocytes and use for chronic toxicity and genotoxicity studies. Drug Metab Dispos 2008;36:1111-18
  • Davila JC, Cezar GG, Thiede M, et al. Use and application of stem cells in toxicology. Toxicol Sci 2004;79:214-23
  • Wauthier E, Schmelzer E, Turner W, et al. Hepatic stem cells and hepatoblasts: identification, isolation, and ex vivo maintenance. Stem Cell Cult 2008;86:137-225
  • Cheng N, Wauthier E, Reid LM. Mature human hepatocytes from ex vivo differentiation of alginate-encapsulated hepatoblasts. Tissue Eng Part A 2008;14:1-7
  • Sicklick JK, Li YX, Melhem A, et al. Hedgehog signaling maintains resident hepatic progenitors throughout life. Am J Physiol Gastrointest Liver Physiol 2006;290:G859-70
  • Basma H, Soto-Gutierrez A, Yannam GR, et al. Differentiation and transplantation of human embryonic stem cell-derived hepatocytes. Gastroenterology 2009;136:990-99
  • Soto-Gutierrez A, Kobayashi N, Rivas-Carrillo JD, et al. Reversal of mouse hepatic failure using an implanted liver-assist device containing ES cell-derived hepatocytes. Nat Biotechnol 2006;24:1412-9
  • Brown HS, Griffin M, Houston JB. Evaluation of cryopreserved human hepatocytes as an alternative in vitro system to microsomes for the prediction of metabolic clearance. Drug Metab Dispos 2007;35:293-301
  • Reichel C, Gao B, Van Montfoort J, et al. Localization and function of the organic anion-transporting polypeptide Oatp2 in rat liver. Gastroenterology 1999;117:688-95
  • Liu LC, Mak E, Tirona RG, et al. Vascular binding, blood flow, transporter, and enzyme interactions on the processing of digoxin in rat liver. J Pharmacol Exp Ther 2005;315:433-48
  • Tirona RG, Pang KS. Bimolecular glutathione conjugation kinetics of ethacrynic acid in rat liver: in vitro and perfusion studies. J Pharmacol Exp Ther 1999;290:1230-41
  • Martinez I, Nedredal G, Oie C, et al. The influence of oxygen tension on the structure and function of isolated liver sinusoidal endothelial cells. Comp Hepatol 2008;7:4
  • Kellner K, Liebsch G, Klimant I, et al. Determination of oxygen gradients in engineered tissue using a fluorescent sensor. Biotechnol Bioeng 2002;80:73-83
  • Glicklis R, Merchuk JC, Cohen S. Modeling mass transfer in hepatocyte spheroids via cell viability, spheroid size, and hepatocellular functions. Biotechnol Bioeng 2004;86:672-80
  • Matsumura T, Yoshihara H, Jeffs R, et al. Hormones increase oxygen uptake in periportal and pericentral regions of the liver lobule. Am J Physiol 1992;262:G645-50
  • Guppy M, Leedman P, Zu X, Russell V. Contribution by different fuels and metabolic pathways to the total ATP turnover of proliferating MCF-7 breast cancer cells. Biochem J 2002;364:309-15
  • Braet F, Shleper M, Paizi M, et al. Liver sinusoidal endothelial cell modulation upon resection and shear stress in vitro. Comp Hepatol 2004;3:7
  • Kan P, Miyoshi H, Yanagi K, Ohshima N. Effects of shear stress on metabolic function of the co-culture system of hepatocyte/nonparenchymal cells for a bioartificial liver. ASAIO J 1998;44:M441-4
  • Tilles AW, Baskaran H, Roy P, et al. Effects of oxygenation and flow on the viability and function of rat hepatocytes cocultured in a microchannel flat-plate bioreactor. Biotechnol Bioeng 2001;73:379-89
  • Kan P, Miyoshi H, Ohshima N. Perfusion of medium with supplemented growth factors changes metabolic activities and cell morphology of hepatocyte-nonparenchymal cell coculture. Tissue Eng 2004;10:1297-307
  • Andersson H, van den BA. Microfabrication and microfluidics for tissue engineering: state of the art and future opportunities. Lab Chip 2004;4:98-103
  • Wells RG. The role of matrix stiffness in hepatic stellate cell activation and liver fibrosis. J Clin Gastroenterol 2005;39:S158-61
  • Lindblad WJ, Schuetz EG, Redford KS, Guzelian PS. Hepatocellular phenotype in vitro is influenced by biophysical features of the collagenous substratum. Hepatology 1991;13:282-8
  • Domansky K, Inman W, Owens B, et al. Perfused multiwell tissue culture plates with integrated microfluidic system. MicroTAS 2006:951-53
  • Domansky K, Inman W, Serdy J, et al. Perfused multiwell plate for 3D liver tissue engineering. Submitted Lab Chip 2009;966-74
  • Sellaro TL, Ravindra AK, Stolz DB, Badylak SF. Maintenance of hepatic sinusoidal endothelial cell phenotype in vitro using organ-specific extracellular matrix scaffolds. Tissue Eng 2007;13:2301-10
  • Yoshida M, Nishikawa Y, Omori Y, et al. Involvement of signaling of VEGF and TGF-beta in differentiation of sinusoidal endothelial cells during culture of fetal rat liver cells. Cell Tissue Res 2007;329:273-82
  • Rodriguez-Antona C, Donato MT, Boobis A, et al. Cytochrome P450 expression in human hepatocytes and hepatoma cell lines: molecular mechanisms that determine lower expression in cultured cells. Xenobiotica 2002;32:505-20
  • Gomez-Lechon MJ, Donato MT, Castell JV, Jover R. Human Hepatocytes in primary culture: the choice to investigate drug metabolism in man. Curr Drug Metab 2004;5:443-62
  • LeCluyse EL. Human hepatocyte culture systems for the in vitro evaluation of cytochrome P450 expression and regulation. Eur J Pharm Sci 2001;13:343-68
  • Reddy A, Heimbach T, Freiwald S, et al. Validation of a semi-automated human hepatocyte assay for the determination and prediction of intrinsic clearance in discovery. J Pharm Biomed Anal 2005;37:319-26
  • Lazerow SK, Abdi MS, Lewis JH. Drug-induced liver disease 2004. Curr Opin Gastroenterol 2005;21:283-92
  • Lee WM. Drug-Induced Hepatotoxicity. New Engl J Med 2003;349:474-85
  • Shaw PJ, Hopfensperger MJ, Ganey PE, Roth RA. Lipopolysaccharide and trovafloxacin coexposure in mice causes idiosyncrasy-like liver injury dependent on tumor necrosis factor-alpha. Toxicol Sci 2007;100:259-66
  • Thomas RJ, Bhandari R, Barrett DA, et al. The effect of three-dimensional co-culture of hepatocytes and hepatic stellate cells on key hepatocyte functions in vitro. Cells Tissues Organs 2005;181:67-79
  • Lu HF, Chua KN, Lim WS, et al. Three-dimensional co-culture of rat hepatocyte spheroids and NIH/3T3 fibroblasts enhances hepatocyte functional maintenance. Acta Biomater 2005;1:399-410
  • Chia SM, Lin PC, Yu H. TGF-beta 1 regulation in hepatocyte-NIH3T3 co-culture is important for the enhanced hepatocyte function in 3D microenvironment. Biotechnol Bioeng 2005;89:565-73
  • Ohno M, Motojima K, Okano T, Taniguchi A. Up-regulation of drug-metabolizing enzyme genes in layered co-culture of a human liver cell line and endothelial cells. Tissue Eng Part A 2008;14:1861-9
  • Takeshita K, Bowen WC, Michalopoulos GK. Three-dimensional culture of hepatocytes in a continuously flowing medium. In Vitro Cell Dev Biol Anim 1998;34:482-5
  • Cosgrove BD, Alexopoulos LG, Hasan MA, et al. Synergistic drug-cytokine induction of hepatocellular death as an in vitro approach for the study of inflammation-associated idiosyncratic drug hepatotoxicity. Toxicol Appl Pharmacol 2009;237(3):317-30
  • Lee MY, Kumar RA, Sukumaran S. et al. Three-dimensional cellular microarray for high-throughput toxicology assays. Proc Natl Acad Sci USA 2008;105:59-63
  • Lee MY, Park CB, Dordick JS, Clark DS. Metabolizing enzyme toxicology assay chip (MetaChip) for high-throughput microscale toxicity analyses. Proc Natl Acad Sci USA 2005;102:983-7
  • Cosgrove BD, Griffith LG, Lauffenburger DA. Fusing tissue engineering and systems biology toward fulfilling their promise. Cell Mol Bioeng 2008;1:33-41
  • Elvevold K, Smedsrod B, Martinez I. The liver sinusoidal endothelial cell: a cell type of controversial and confusing identity. Am J Physiol Gastrointest Liver Physiol 2008;294:G391-400
  • Li C, Kong Y, Wang H, et al. Homing of bone marrow mesenchymal stem cells mediated by sphingosine 1-phosphate contributes to liver fibrosis. J Hepatol 2009;50:1174-83
  • Lutolf MP, Hubbell JA. Synthetic biomaterials as instructive extracellular microenvironments for morphogenesis in tissue engineering. Nat Biotechnol 2005;23:47-55
  • Mehta G, Lee J, Cha W, et al. Hard top soft bottom microfluidic devices for cell culture and chemical analysis. Anal Chem 2009;81:3714-22
  • Sung JH, Shuler ML. A micro cell culture analog (microCCA) with 3-D hydrogel culture of multiple cell lines to assess metabolism-dependent cytotoxicity of anti-cancer drugs. Lab Chip 2009;9:1385-94

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