Prevalence of hepatitis C virus hypervariable region 1 insertions and their role in antibody evasion

Background and Aims: Chronic hepatitis C virus (HCV) infection afflicts around 50 million people globally, causing ~250,000 deaths yearly. An effective vaccine needs to overcome high viral diversity and HCV’s ability to evade neutralizing antibodies (NAbs). Rapid antigenic drift in the N-terminal motif of envelope protein E2, named hypervariable region 1 (HVR1), is critically involved in NAb evasion via an incompletely understood mechanism involving viral entry factors. The canonical length of HVR1 is 27 amino acids, but insertions of 2-4 amino acids was described in patients infected with genotype 1b. We aimed at determining whether HVR1 insertions may be underreported due to extreme HVR1 variability. Approach and Results: We observed a 0.7% HVR1 insertion prevalence in routine NGS patient contigs. Thus, we performed direct sequence analysis of E1E2 sequences from 131 HCV infected patients. Interestingly, we observed that 3% of patients harbored viruses (genotype 1a, 2b, 3a) with dominant HVR1 insertions. Insertion of longer non-canonical HVR1s into HCV cell culture recombinants frequently caused loss of fitness. However, culture-viable viruses with HVR1 insertions were fully viable in vivo . Interestingly, in adapted genotype 1b recombinants with HVR1 insertions, we found internal HVR1 deletions, that increased antibody sensitivity, which surprisingly correlated more with reduced LDLr than reduced SR-BI dependency, indicating a role of LDLr in NAb evasion. Conversely, HVR1 insertions had no effect on receptor dependency, however, they modulated epitope-specific NAb sensitivity. Conclusions: HVR1 insertion prevalence and NAb sensitivity modulation indicate they represent a mechanism by which HCV evades emerging NAbs during infection.