Fic IgG concentration is low which is reflected in the low titrers. Though mAb E8G9 inhibited the binding of the VLPs to Huh7 cells, the inhibition seen is not more than ,66 . This can be attributed to the fact that HCV binding to cells involves more than one receptor. Inhibition of binding to at least the CD81 and SRB1 would be required for complete inhibition. Moreover the HCVLPs were generated in baculovirus system; therefore the glycosylation of the insect cell expressed envelope Licochalcone A manufacturer proteins, which were earlier shown to be important for the virus entry [34], may be different when compared to HCV replicating in mammalian cells. Earlier Keck et al have demonstrated the 1676428 involvement of the Nterminus of HCV envelope protein E1 in virus binding and entry using a RE 640 monoclonal antibody derived from this region. The mAb H111 was able to bind to HCV E1 of genotypes 1a, 1b, 2b, and 3a indicating the conservation of this epitope across the genotypes. However, still the mAb H111 could achieve only upto 70 inhibition of HCV-LP binding [35]. Additionally, Triyatni et al. [21] has demonstrated that several mAbs derived from multiple epitops within HVR-1could strongly bind to HCV-LP, suggesting that these epitopes are also exposed on the viral surface [21,36]. In fact, Zibert et al has successfully demonstrated using patient serum that blocking of viral attachment can be revered by preincubating serum with HVR1 specific proteins. However, considering the factMonoclonal Antibodies Inhibiting HCV Infectionthat the stoichiometry of the HCV-Ab complex is not clear, they have not excluded involvement of other epitopes in viral attachment [37]. Thus it appears that multiple epitopes are required for complete neutralization, to achieve more inhibition of virus entry into target cells. Although, the JFHI virus is derived from genotype 2a, the mAb E8G9 was able to successfully inhibit the negative strand synthesis up to 70 , suggesting that the interactions between the HCV-E2 and the Huh7.5 cells could be partially conserved. Interestingly, 100 mg/ml of mAb E8G9 showed almost 80 inhibition of input positive strand at 3hour post infection suggesting effective inhibition of the virus entry. In conclusion, this study provides the proof of concept that mAbs can be used as a strategic approach to prevent the viral entry into target cells. However for efficient inhibition, a cocktail of mAbs are needed to completely prevent HCV infection. It would be instructive to find out if antibodies present in HCV infected patients, who do not show active infection, are able to compete with the identified neutralizing mAbs E8G9 and H1H10 in the present work.Figure S2 Binding of HCV-LPs of genotype 1b and 3a to human hepatoma (Huh 7) cells. Huh 7 cells were incubated with HCV-LPs (corresponding to approximately 7 mg/ml of HCV-LP) and the binding was analyzed by FACS with an antiE1E2 polyclonal antibody and FITC-conjugated anti-mouse IgG. The MFI (shown on the X-axis) of the cell population relates to the surface density of HCV-LPs bound to the cells. The red shows the binding efficiency of 1b and black depicts 3a genotype. (TIF) Figure S3 Inhibition of HCV-LP binding to Huh 7 cellsusing a non-specific antibody F1G4. HCV-LP of genotype 1b and 3a were incubated with 10 mg of F1G4 mAbs taken as negative control. The Y-axis depicts the percentage activity representing both the percent binding (dark grey) and the percent inhibition (light grey) of HCV-LP attachment. (TIF)Acknowledgmen.Fic IgG concentration is low which is reflected in the low titrers. Though mAb E8G9 inhibited the binding of the VLPs to Huh7 cells, the inhibition seen is not more than ,66 . This can be attributed to the fact that HCV binding to cells involves more than one receptor. Inhibition of binding to at least the CD81 and SRB1 would be required for complete inhibition. Moreover the HCVLPs were generated in baculovirus system; therefore the glycosylation of the insect cell expressed envelope proteins, which were earlier shown to be important for the virus entry [34], may be different when compared to HCV replicating in mammalian cells. Earlier Keck et al have demonstrated the 1676428 involvement of the Nterminus of HCV envelope protein E1 in virus binding and entry using a monoclonal antibody derived from this region. The mAb H111 was able to bind to HCV E1 of genotypes 1a, 1b, 2b, and 3a indicating the conservation of this epitope across the genotypes. However, still the mAb H111 could achieve only upto 70 inhibition of HCV-LP binding [35]. Additionally, Triyatni et al. [21] has demonstrated that several mAbs derived from multiple epitops within HVR-1could strongly bind to HCV-LP, suggesting that these epitopes are also exposed on the viral surface [21,36]. In fact, Zibert et al has successfully demonstrated using patient serum that blocking of viral attachment can be revered by preincubating serum with HVR1 specific proteins. However, considering the factMonoclonal Antibodies Inhibiting HCV Infectionthat the stoichiometry of the HCV-Ab complex is not clear, they have not excluded involvement of other epitopes in viral attachment [37]. Thus it appears that multiple epitopes are required for complete neutralization, to achieve more inhibition of virus entry into target cells. Although, the JFHI virus is derived from genotype 2a, the mAb E8G9 was able to successfully inhibit the negative strand synthesis up to 70 , suggesting that the interactions between the HCV-E2 and the Huh7.5 cells could be partially conserved. Interestingly, 100 mg/ml of mAb E8G9 showed almost 80 inhibition of input positive strand at 3hour post infection suggesting effective inhibition of the virus entry. In conclusion, this study provides the proof of concept that mAbs can be used as a strategic approach to prevent the viral entry into target cells. However for efficient inhibition, a cocktail of mAbs are needed to completely prevent HCV infection. It would be instructive to find out if antibodies present in HCV infected patients, who do not show active infection, are able to compete with the identified neutralizing mAbs E8G9 and H1H10 in the present work.Figure S2 Binding of HCV-LPs of genotype 1b and 3a to human hepatoma (Huh 7) cells. Huh 7 cells were incubated with HCV-LPs (corresponding to approximately 7 mg/ml of HCV-LP) and the binding was analyzed by FACS with an antiE1E2 polyclonal antibody and FITC-conjugated anti-mouse IgG. The MFI (shown on the X-axis) of the cell population relates to the surface density of HCV-LPs bound to the cells. The red shows the binding efficiency of 1b and black depicts 3a genotype. (TIF) Figure S3 Inhibition of HCV-LP binding to Huh 7 cellsusing a non-specific antibody F1G4. HCV-LP of genotype 1b and 3a were incubated with 10 mg of F1G4 mAbs taken as negative control. The Y-axis depicts the percentage activity representing both the percent binding (dark grey) and the percent inhibition (light grey) of HCV-LP attachment. (TIF)Acknowledgmen.