Novel human in vitro systems for studies of drug inducted hepatotoxicity
Drug-induced liver injury (DILI) is a major human health concern, estimated to account for about half of all cases of acute liver failure in the general population. DILI also represents a significant problem in drug discovery, being one of the most common reasons for regulatory actions, including boxed warnings, restricted marketing and withdrawals of marketed drugs. Adverse drug effects in the liver are hard to detect at an early stage during drug development, much owing to the shortcomings of the currently available pre-clinical model systems. The work presented in this thesis aimed to refine and further develop more sensitive, human in vitro models and methods for better prediction of DILI and the underlying mechanisms.
Mono-culture of human primary hepatocytes is the closest in vitro model to the human liver, currently considered the golden standard in drug development. However, limitations, such as low availability of qualitative liver tissue and phenotypical instability of these cells in culture, require new sources of functional human hepatic cells. In this thesis, we have shown that high-density culture of the human hepatoma cell line Huh7 induces a spontaneous, hepatic differentiation process, without the need for inducers as is usually the case. A particular increase of CYP3A4 gene- and protein expression and catalytically activity was observed. Moreover, we found that the large increase in CYP3A4 expression seen in the confluent Huh7 cells is mediated by PXR nuclear translocation and increased PXR mediated transcriptional activity, most likely as a result of decreased CDK2 activity and cell cycle arrest. The high constitutive expression of CYP3A4 in the confluent Huh7 cells makes this cell system useful for studies of mechanisms for regulation of PXR and the CYP3A4 gene.
The unique characteristics of stem cells make them an attractive large-scale source of hepatic cells for drug development and safety assessment. Using a novel stepwise differentiation protocol we have been able to differentiate human embryonic stem cells (hESC), via definitive endoderm and progenitor stages to hepatocyte-like cells which exhibit many hepatocyte-specific features and functions, including CYP metabolic activities. A dynamic three-dimensional (3D) bioreactor system was shown to prolong and maintain the specific functions of primary hepatocytes, as well as facilitate the hepatic maturation of hESC into hepatocyte-like cells.
It has become increasingly evident that inflammatory event plays a significant role in many DILI events. Thus, in vitro systems containing a population of immune competent cells in combination with hepatic cells could be of great significance for studying mechanisms underlying DILI. A co-culture cell model consisting of hepatocytes and monocytes has been developed where the cells were separated by a semipermeable membrane. The hepatotoxic drug troglitazone caused a potentiated and more rapid cytotoxic effect in cells treated in the co-culture compared to the single cultures. Troglitazone treatment also resulted in an increased expression of several stress-related genes in the co-cultures compared to the single cultures. These results suggest a synergistic cytotoxic effect by soluble mediators released by the cells and underscores the importance of incorporating several different hepatic cell typesin order to generate more sensitive in vitro systems and better prediction of DILI.
List of scientific papers
I. Edling Y, Sivertsson L, Butura A, Ingelman-Sundberg M and Ek M. Increased sensitivity for troglitazone-induced cytotoxicity using a human in vitro co-culture model. Toxicol In Vitro. 2009 23:1387-1395.
https://doi.org/10.1016/j.tiv.2009.07.026
II. Brolén G, Sivertsson L, Bjorquist P, Eriksson G, Ek M, Semb H, Johansson I, Andersson TB, Ingelman-Sundberg M and Heins N. Hepatocyte-like cells derived from human embryonic stem cells specifically via definitive endoderm and a progenitor stage. J Biotechnol. 2010 145:284-294.
https://doi.org/10.1016/j.jbiotec.2009.11.007
III. Sivertsson L, Ek M, Darnell M, Edebert I, Ingelman-Sundberg M and Neve E.P.A. CYP3A4 catalytic activity is induced in confluent Huh7 hepatoma cells. Drug Metab Dispos. 2010 38:995-1002.
https://doi.org/10.1124/dmd.110.032367
IV. Sivertsson L, Synnergren J, Jensen J, Björquist P, Ingelman-Sundberg M. Hepatic differentiation and maturation of human embryonic stem cells cultured in a perfused three-dimensional bioreactor. Stem Cells Dev. 2012 Sep 12.
https://doi.org/10.1089/scd.2012.0202
V. Sivertsson L, Edebert I, Porsmyr Palmertz M, Ingelman-Sundberg M and Neve E.P.A. CDK2 mediated PXR activation induces CYP3A4 expression in confluent Huh7 hepatoma cells. [Submitted]
History
Defence date
2012-10-26Department
- Department of Physiology and Pharmacology
Publisher/Institution
Karolinska InstitutetMain supervisor
Ingelman-Sundberg, MagnusPublication year
2012Thesis type
- Doctoral thesis
ISBN
978-91-7457-869-0Number of supporting papers
5Language
- eng