Alcoholic liver disease eventually causes liver failure. The only curative therapy for patients with liver failure due to alcoholic liver disease is liver transplantation. Liver cell therapy is not effective in these patients because alcoholic liver disease is invariably associated with liver fibrosis, which impairs the engraftment of transplanted cells. Because of the long-standing shortage of donor livers, many patients with alcoholic liver disease die while waiting for liver transplantation. To improve the outcomes of these patients, we propose to work around liver fibrosis as a barrier to liver cell therapy. We hypothesize that the function of fibrotic livers can be improved by in vivo conversion of the cells that make up the fibrotic tissue into cells with hepatocyte function. Our hypothesis rests on the recent identification of hepatic transcription factors that can convert fibroblasts into therapeutically effective hepatocyte-like cells (iHeps) and success with in vivo conversion of fibrotic heart tissu into functional parenchyma. To establish in vivo iHep generation as a therapy for liver fibrosis, we will pursue 2 aims: (1) To convert myofibroblasts into iHeps in vivo. We will deliver the hepatic transcription factors to myofibroblasts with adenoviral vectors, which have been shown to efficiently transduce myofibroblasts in rat and mouse models of liver fibrosis. Most myofibroblasts are quiescent in advanced liver fibrosis, which will prevent loss of nonintegrating adenoviral vectors before conversion of myofibroblasts into iHeps is completed. Because myofibroblasts are the main source of collagen in the liver, our strategy is expected to not only increase the number of cells with hepatocyte function, but also prevent further collagen deposition in the liver. (2) To establish the use of nonintegrating adenoassociated viral (AAV) vectors for conversion of myofibroblasts into iHeps in vivo. Conventional adenoviral vectors are highly immunogenic and therefore not safe for human application. Because AAV vectors can persist in host cells without toxicity and integration into the genome, they are increasingly used for human gene therapy. To establish targeting of AAV vectors to liver myofibroblasts, we will screen a library of shuffled AAV capsids. In support of the feasibility of this approach, capsids targeting specifically pancreatic ?-cells have recently been identified in this library. By improvig function and reducing fibrosis of the liver with a viral vector deemed safe for human application, the proposed strategy has potential as an alternative to liver transplantation for therapy of liver failure due to alcoholic liver disease.

Public Health Relevance

Many patients with alcoholic liver disease die from liver failure. Liver transplantation is an effective therapy for liver failure but the demand for donor organs far exceeds the supply. Scarring of the liver prevents the use of liver cell therapy as an alternative to liver transplantation. To establish a new therapeutic option for patients with alcoholic liver disease, we propose to use an in vivo gene transfer approach to convert scar cells into cells that provide liver function. For this purpose, we will use a safe viral vector sysem so as to allow translation of this strategy into a therapy for patients.

Agency
National Institute of Health (NIH)
Institute
National Institute on Alcohol Abuse and Alcoholism (NIAAA)
Type
Exploratory/Developmental Grants (R21)
Project #
5R21AA022158-02
Application #
8725031
Study Section
Biomedical Research Review Subcommittee (AA)
Program Officer
Radaeva, Svetlana
Project Start
2013-09-01
Project End
2015-08-31
Budget Start
2014-09-01
Budget End
2015-08-31
Support Year
2
Fiscal Year
2014
Total Cost
Indirect Cost
Name
University of California San Francisco
Department
Surgery
Type
Schools of Medicine
DUNS #
City
San Francisco
State
CA
Country
United States
Zip Code
94143
Rezvani, Milad; Grimm, Andrew A; Willenbring, Holger (2016) Assessing the therapeutic potential of lab-made hepatocytes. Hepatology 64:287-94
Rezvani, Milad; Español-Suñer, Regina; Malato, Yann et al. (2016) In Vivo Hepatic Reprogramming of Myofibroblasts with AAV Vectors as a Therapeutic Strategy for Liver Fibrosis. Cell Stem Cell 18:809-16