Abstract
The 3′ untranslated region (UTR) of the hepatitis C virus (HCV) genome plays a significant role in replication including the poly(U) tract (You and Rice, 2008). Here we established an HCV clone that is infectious in vitro and in vivo, from an Egyptian patient with chronic HCV infection and hepatocellular carcinoma (HCC). First, we inoculated the patient plasma into a humanized chimeric mouse and passaged. We observed HCV genotype 4a propagation in the chimeric mouse sera at 1.7 × 107 copies/mL after 6 weeks. Next, we cloned the entire HCV sequence from the HCV-infected chimeric mouse sera using RT-PCR, and 5′ and 3′ RACE methodologies. We obtained first a shorter clone (HCV-G4 KM short, GenBank: AB795432.1), which contained 9,545 nucleotides with 341 nucleotides of the 5′UTR and 177 nucleotides of the 3′UTR, and this was frequently obtained for unknown reasons. We also obtained a longer clone by dividing the HCV genome into three fragments and the poly (U) sequences. We obtained a longer 3′UTR sequence than that of the HCV-G4 KM short clone, which contained 9,617 nucleotides. This longer clone possessed a 3′-UTR of 249 nucleotides (HCV-G4 KM long, GenBank: AB795432.2), because of a 71-nucleotide longer poly (U) stretch. The HCV-G4-KM long clone, but not the HCV-G4-KM short clone, could establish infection in human hepatoma HuH-7 cells. HCV RNAs carrying a nanoluciferase (NL) reporter were also constructed and higher replication activity was observed with G4-KM long-NL in vitro. Next, both short and long RNAs were intra-hepatically injected into humanized chimeric mice. Viral propagation was only observed for the chimeric mouse injected with the HCV-G4 KM long RNA in the sera after 21 days (1.64 × 106 copies/mL) and continued until 10 weeks post inoculation (wpi; 1.45–4.74 × 107 copies/mL). Moreover, sequencing of the HCV genome in mouse sera at 6 wpi revealed the sequence of the HCV-G4-KM long clone. Thus, the in vitro and in vivo results of this study indicate that the sequence of the HCV-G4-KM long RNA is that of an infectious clone.
Highlights
Hepatitis C virus (HCV) belongs to the Flaviviridae family and genus Hepacivirus and possesses a single-stranded RNA with positive polarity (Choo et al, 1989)
To better understand the characteristics of hepatitis C virus (HCV) genotype 4a in patient plasma, we aimed to construct an infectious clone for HCV genotype 4a from chimeric mice with humanized livers (Mercer et al, 2001) inoculated with Egyptian chronic hepatitis C patient plasma
The results of this study show the significance of the 3 untranslated region (UTR) region in HCV-G4 infection
Summary
Hepatitis C virus (HCV) belongs to the Flaviviridae family and genus Hepacivirus and possesses a single-stranded RNA with positive polarity (Choo et al, 1989). 58 million people are estimated to be currently infected with HCV (WHO, 2021). Based on the diversity of the HCV genome, it has been classified into seven genetically distinct genotypes (HCV 1–7) (Smith et al, 2014; Tsukiyama-Kohara and Kohara, 2017). A recent report suggested the existence of eight HCV genotypes (Borgia et al, 2018). The characteristics of HCV genotype 4 have not been fully clarified, mostly because of the lack of an available infection system. An infectious clone of HCV genotype 4a has been previously developed in vivo (Strain ED43) (Gottwein et al, 2010), and was cloned from the plasma of chimpanzees inoculated with plasma from patients with chronic hepatitis C
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