Furthermore, in vivo immortalization and in vitro cultivation pre

Furthermore, in vivo immortalization and in vitro cultivation presumably led to a dedifferentiated phenotype, characterized by low miR-122 and ApoE levels. Nevertheless, these results indicate that mouse liver cells can support vigorous HCV RNA replication in the absence of any human cofactors (Fig. 3C). Given that mature mouse miR-122 is highly expressed in mouse livers (Fig. 2), and since the mouse miR-122 supported IDH inhibitor HCV replication in mouse

liver cells as efficiently as the human ortholog (Fig. 3), we consider it unlikely that HCV replication in mouse liver is limited by availability of miR-122. Collectively, these findings raise the hope that establishment of robust HCV RNA find protocol replication in vivo may require only little genetic manipulation of mice, possibly not involving ectopic expression of human replication cofactors. Clearly, for construction of fully HCV permissive mice it is crucial that mouse liver cells not only permit efficient RNA replication but also virus production and cell entry. Using the MLT-MAVS−/−miR-122 cells we show that reconstitution

of ApoE expression is necessary and sufficient to allow production of infectious HCV progeny from full-length genomes (Fig. 5). This observation underscores the important role of ApoE during virus production and extends the findings of Long et al.,[8] who recently reported that trans-complemented HCV particles can be produced in a stable mouse replicon cell line. Similar to those authors, we did not find a striking difference between HCV usage of human or mouse medchemexpress ApoE, suggesting that endogenous ApoE expression in mouse liver should sustain HCV assembly. However, the efficiency of virus production from MLT-MAVS−/−miR-122-derived cells was generally lower compared to human Huh-7.5 cells. While this may suggest that other mouse assembly cofactors are not efficiently used by HCV, it is also possible that attenuated replication of

full-length HCV in mouse liver cells indirectly reduced virus production. In fact, human liver cells that are also less permissive for HCV RNA replication than Huh-7.5 cells (e.g., HepG2 and HuH6 cells) produce much lower levels of infectious virus.[14, 20] Regarding cell entry, expression of the complete or minimal set of absolutely essential human HCV entry cofactors rendered MLT-MAVS−/−miR-122 cells permissive to HCVcc infection (Fig. 6). Notably, infection of these mouse cells was more efficient for the mouse-tropic Jc1 variant[2] although both viruses displayed comparable infectiousness on Huh-7.5 cells (Fig. 6). However, since upon dilution of these virus stocks Luc-Jc1mCD81 was also more infectious than Luc-Jc1 in Huh-7.

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