Human PSC were differentiated towards hepatocyte-like cells, mesodermal cells and neuroprogenitors and subsequently infected with HEV. Infection and replication of HEV was analyzed by qRT-PCR, RNA in situ hybridization, negative strand RT-PCR, production of infectious virions and transfection with a transient HEV reporter replicon.
PSC-derived hepatocytes supported the complete replication cycle of HEV, as demonstrated by the intracellular presence of positive and negative strand HEV RNA and the production of infectious virions. The replication of the virus in these cells was inhibited by the antiviral drugs ribavirin and interferon-α2b. In contrast to PSC-derived hepatocytes, PSC-derived mesodermal cells and neuroprogenitors only supported HEV replication upon transfection with a HEV subgenomic replicon.
We demonstrate that PSC can be used to study the hepatotropism of HEV infection. The complete replication cycle of HEV can be recapitulated in infected PSC-derived hepatocytes. By contrast other germ layer cells support intracellular replication but are not infectable with HEV. Thus the early steps in the viral cycle are the main determinant governing HEV tissue tropism. PSC-hepatocytes offer a physiological relevant tool to study the biology of HEV infection and replication and may aid in the design of therapeutic strategies.