Grants and Contracts Details
Description
Hepatitis C virus (HCV) is the leading cause of chronic hepatitis, cirrhosis, and hepatocellular carcinoma
(HCC). HCV chronically infects approximately 4 million people in the U.S. and 170 million people worldwide.
HCV co-infection with HIV is very common with overall 25-30% of HIV-positive persons, particularly among
drug abusers with up to 70% co-infection (2). HCV infection is a major risk factor for HCC development. HCVassociated
end-stage of liver diseases is the leading indication for liver transplantation. Advances on HCV
research have been significantly hampered by the lack of a robust cell culture HCV propagation system and
reliable small animal models of HCV infection and replication. Recent breakthroughs have been the
development of robust cell culture systems for replication of HCV replicon RNAs and production of infectious
HCV, which allows genetic studies of the entire HCV life cycle. However, development of small animal models
of HCV infection and replication is challenging and that the lack of a reliable small animal model represents a
major barrier to HCV research. Recently, we have demonstrated that genotype 2a HCV RNA replicated
efficiently in mouse embryonic fibroblasts (MEF) albeit inefficiently in mouse hepatocytes. More importantly, we
have demonstrated that the cDNA-derived HCV RNA inside the cell resulted in robust production of infectious
HCV. A recent study by Charlie Rice's group has demonstrated that the expression of human CD81 and
occludin in mouse hepatocytes is essential and sufficient for infection of HCV pseudotyped particles. These
remarkable advances provide a firm foundation to develop novel transgenic mouse models of HCV infection
and replication. We hypothesize that cell type-specific cellular proteins are important for efficient HCV RNA
replication and that transgenic mice expressing human CD81 and occludin in hepatocytes are susceptible to
HCV infection. The overall goal of this exploratory research proposal is to develop novel transgenic HCV
mouse models. Specifically, we will 1) identify cellular proteins important for efficient HCV RNA replication in
mouse cells using proteomics, biochemical, and genetic complementation approaches (Specific Aim 1); 2)
develop novel transgenic mice that either contain full-length cDNAs of luciferase-expressing JFH1 HCV RNAs
or express both human CD81 and occludin under the control of a liver-specific promoter (Specific Aim 2); and
3) determine HCV infection and replication in transgenic mice using luciferase-expressing HCV in conjunction
with the administration of mouse interferon and HCV NS3 protease- and NS58 polymerase-specific inhibitors
(Specific Aim 3). The successful development of transgenic HCV mouse models will represent a paradigm shift
in the field of HCV research and will allow us to determine the roles and mechanisms of action of viral and
cellular proteins in HCV infection, replication, pathogenesis, and carcinogenesis as well as the effects of illicit
drugs and alcohol on HCV replication and pathogenesis. Additionally, transgenic HCV mouse models will
facilitate the anti-HCV drug discovery and HCV vaccine development to eventually control HCV infection.
Project Description
Status | Finished |
---|---|
Effective start/end date | 12/3/10 → 11/30/12 |
Funding
- National Institute of Allergy and Infectious Diseases: $408,375.00
Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.