Treatment of acetaminophen-induced acute liver failure in the mouse with conditionally immortalized human hepatocytes

Didier Trono
Elsevier, 2005
Journal paper

Abstract

BACKGROUND/AIMS: Liver failure is a life threatening condition currently treated by palliative measures and, when applicable, organ transplantation. The use of a bioartificial organ capable of fulfilling the main functions of the liver would represent an attractive alternative. However, the shortage of suitable donor cells, and their limited growth ability have impeded the development of this strategy. We investigated whether lentiviral vectors allow for conditional immortalization of human hepatocytes and whether these immortalized hepatocytes could reverse lethal acute liver failure. METHODS: We exposed primary human hepatocytes to Cre-excisable lentiviral vectors coding for SV40T Antigen, telomerase, and/or Bmi-1 and tested the functionality of the resulting cell lines. Therapeutic potential of immortalized hepatocytes were tested in a murine model of acetaminophen-induced hepatic injury. RESULTS: The immortalized hepatocytes grew continuously yet were non-tumorigenic, stopped proliferating when exposed to Cre recombinase, and conserved defining properties of primary hepatocytes, including the ability to secrete liver-specific proteins and to detoxify drugs. The implantation of encapsulated immortalized human hepatocytes rescued mice from lethal doses of acetaminophen. CONCLUSIONS: Lentiviral vectors represent tools of choice for immortalization of non-dividing primary cells, and lentivirally immortalized human hepatocytes are promising reagents for cell-based therapy of acute liver failure.

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https://infoscience.epfl.ch/record/149419?ln=en

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Didier Trono
Elsevier, 2005
Journal paper

Abstract

Official source

https://infoscience.epfl.ch/record/149419?ln=en

About this result

Related concepts (13)

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Many liver diseases involve hepatocyte malfunction. In most cases, transplantation of corrected hepatocytes would correct for disease symptoms. Liver donor shortage and hepatocyte inability to proliferate in vitro accentuate this problem. Embryonic stem and induced pluripotent stem cells proliferate indefinitely and have the capacity to differentiate into every cell type of the body. They could thus represent a solution to this organ donor shortage. In this project, we aim to differentiate ES and iPS cells to hepatocytes. First, we consider an approach to select the ES/iPS cell line showing the best potential to generate liver lineage using teratomas as a selection tool. Then we use lentiviral vectors to transduce this selected cell line with essential liver-‐specific development factors to help differentiation efficiency. Next, we developed an in vitro differentiation protocol based on existing protocols and developmental clues of liver development to generate a pool of hepatocyte precursors. Later on, we injected these differentiated cells in mice liver of Fah-‐, Rag2-‐ and Il-‐2rγ-‐deficient mice to check for engraftment and liver marker expression. Our findings show, after checking for hepatocyte-‐ specific markers in the differentiated cells, that our previous selection for the potentially best cell line seems correct. We also find that the transcription factors involved in liver development appear to have a negative effect in vitro on liver differentiation. Applying our protocol to regular ES cells results on the production of late maturity hepatocyte markers, showing correct differentiation and maturation of newly formed hepatocytes. Finally, mouse in vivo liver transplantation of these differentiated cells gives us human albumin expression detectable in blood serum of said mice

2010

Gene therapy is an attractive approach for the treatment of a wide spectrum of liver diseases. Lentiviral vectors allow the stable integration of transgenes into the genome of nondividing differentiated cells including hepatocytes and could provide long-lasting expression of a therapeutic gene. To develop such approaches, preclinical studies in large animal models such as pigs are necessary to evaluate the feasibility and safety of stable lentiviral integration and long-term vector expression. In addition, effective lentivector-mediated gene transfer onto porcine hepatocytes could advance in cell-based therapies for acute liver failure. To investigate this issue, porcine hepatocytes were transduced in suspension immediately after their isolation in University of Wisconsin (UW) solution containing vitamin E. Up to 80% of hepatocytes stably expressed a GFP transgene after a single exposure to lentiviral vector coding for GFP under the control of either liver-specific or ubiquitous promoters. Moreover, porcine hepatocytes cryopreserved in UW solution containing fetal bovine serum, dimethyl sulfoxide, and vitamin E remained highly transducible with lentiviral vector after thawing. When thawed, transduced in suspension, and immediately transplanted into the spleen of immunodeficient mice, ex vivo lentivirally transgene marked xenogeneic hepatocytes were detected in murine liver. We demonstrated that porcine hepatocytes are highly susceptible to lentiviral vector and describe an easy methodology to efficiently, rapidly, and stably introduce transgenes into uncultured porcine hepatocytes.

2005