Kg. Hadlock et al., Human monoclonal antibodies that inhibit binding of hepatitis C virus E2 protein to CD81 and recognize conserved conformational epitopes, J VIROLOGY, 74(22), 2000, pp. 10407-10416
The intrinsic variability of hepatitis C virus (HCV) envelope proteins El a
nd E2 complicates the identification of protective antibodies. In an attemp
t to identify antibodies to E2 proteins from divergent HCV isolates, we pro
duced HCV E2 recombinant proteins from individuals infected with HCV genoty
pes la, Ib, 2a, and 2b. These proteins were then used to characterize 10 hu
man monoclonal antibodies (HMAbs) produced from peripheral B cells isolated
from an individual infected with HCV genotype Ib. Nine of the antibodies r
ecognize conformational epitopes within HCV E2. Six HMAbs identify epitopes
shared among HCV genotypes la, Ib, 2a, and 2b. Six, including five broadly
reactive HMAbs, could inhibit binding of HCV E2 of genotypes la, Ib, 2a, a
nd 2b to human CD81 when E2 and the antibody were simultaneously exposed to
CD81. Surprisingly, all of the antibodies that inhibited the binding of E2
to CD81 retained the ability to recognize preformed CD81-E2 complexes gene
rated with some of the same recombinant E2 proteins. Two antibodies that di
d not recognize preformed complexes of HCV la E2 and CD81 also inhibited bi
nding of HCV la virions to CD81. Thus, HCV-infected individuals can produce
antibodies that recognize conserved conformational epitopes and inhibit th
e binding of HCV to CD81. The inhibition is mediated via antibody binding t
o epitopes outside of the CD81 binding site in E2, possibly by preventing c
onformational changes in E2 that are required for CD81 binding.