Human Antibody Responses to HIV Type 1 Glycoprotein 41 Cloned in Phage Display Libraries Suggest Three Major Epitopes Are Recognized and Give Evidence for Conserved Antibody Motifs in Antigen Binding

Abstract

A large panel of human Fab fragments against the gp41 subunit of the HIV-1 envelope glycoprotein was isolated by panning six phage-displayed antibody libraries against recombinant gp41. The libraries were prepared from HIV-1-seropositive donors. Twenty-three Fabs recognizing conformation-dependent determinants on gp41 were isolated. Further selection of libraries against (1) gp41 ligated with Fabs from the initial selection and against (2) a recombinant gp41-containing gp140 protein yielded five additional Fabs. Competition of members of the Fab panel with one another and with previously described antibodies revealed a series of overlapping specificities that were conveniently grouped into three major epitope clusters. The majority of Fabs recognized epitopes involving residues 649–668 (previously known as the cluster II region), numbered using the Los Alamos LAI sequence. A second set of Fabs reacted with an epitope involving residues 584–609 (known as the cluster I region). Another set of Fabs appeared to recognize a third conformational epitope that has been termed the cluster III region. This third Fab epitope group demonstrated some overlap with both clusters I and II in binding assays. None of the Fabs neutralized HIV-1 laboratory strains at biologically significant concentrations. This tends to support the opinion that a vaccine based on the gp41 molecule has the drawback that neutralizing epitopes of gp41 are rare and/or unfavorably presented to the immune system. Analysis of heavy chain sequences revealed common CDR3 motif sequences in several antibodies, which appears to be an interesting consequence of a persistent immune response to conserved antigen structures.