Abstract
Hepatitis B virus (HBV) infection represents a major public health problem infecting approximately 400 million people worldwide. Despite the availability of a preventive vaccine and anti-viral therapies, chronic HBV infection remains a major health issue because it increases the risk of developing liver cirrhosis and hepatocellular carcinoma (HCC). The lack of a relevant in vitro model for the study of the molecular mechanisms that drive HBV replication and latency, as well as HBV-related carcinogenesis, has been one of the major obstacles to the development of curative strategies. Here, we propose the use of human liver organoids as a platform for modeling HBV infection and related tumorigenesis. Human liver organoids can be seeded from both healthy and cirrhotic liver biopsies. They can be expanded in vitro when culturing in a medium containing a specific set of growth factors. When the culture medium is changed into a new medium containing growth factors that promote differentiation, organoids differentiate into functional hepatocytes, which makes them susceptible to infection with recombinant HBV. The novel in vitro primary model system described in this protocol can be utilized as a platform to study HBV pathogenesis and drug screening. Organoids generated from cirrhotic liver biopsies can be a potential tool for personalized medicine, and for modeling HCC and other liver diseases. Graphic abstract.
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