Abstract
Great strides have been made in understanding and treating Hepatitis C virus (HCV) thanks in part to the development of the full-length cell-culture system, the pseudoparticle system and soluble envelope glycoproteins. The HCV pseudoparticle (HCVpp) system is a platform used extensively in studies of cell entry, screening of novel entry inhibitors, assessing the phenotypes of clinically observed E1 and E2 glycoproteins and, most pertinently, in characterising neutralizing antibody breadth induced upon vaccination and natural infection in patients. Nonetheless, some patient-derived clones fail to produce infectious particles or produce particles that exhibit infectivity too low for meaningful phenotyping. The mechanisms governing whether any particular clone produces infectious pseudoparticles are poorly understood. Here we show that endogenous expression of CD81, an HCV receptor and a cognate binding partner of E2, in producer HEK 293T cells is detrimental to the infectivity of recovered HCVpp for most strains. Many HCVpp clones exhibited increased infectivity or had their infectivity rescued when they were produced in HEK 293T cells CRISPR/Cas9 engineered to ablate CD81 expression (293TCD81KO). Clones made in 293TCD81KO cells were antigenically very similar to their matched counterparts made parental cells and appear to honour the accepted HCV entry pathway. Deletion of CD81 did not appreciably increase the recovered titres of soluble E2 (sE2). However, we did, unexpectedly, find that monomeric sE2 made in 293T and 293F exhibit important differences. We found that 293F-produced sE2 harbours mostly complex type glycans whilst 293T-produced sE2 displays a heterogeneous mixture of both complex type glycans and highmannose or hybrid type glycans. Moreover, sE2 produced in HEK 293T cells is antigenically superior; exhibiting increased binding to conformational antibodies and the large extracellular loop of CD81. In summary, this work describes an optimal cell line for the production of HCVpp and reveals that sE2 made in 293T and 293F cells are not antigenic equals. Our findings have implications for functional studies of E1E2 and the production of candidate immunogens.
Publisher
Cold Spring Harbor Laboratory