The genes encoding broadly HIV-1-neutralizing human monoclonal antibodies (MAbs) are highly divergent from their germ line counterparts. We have hypothesized that such high levels of somatic hypermutation could pose a challenge for elicitation of the broadly neutralizing (bn) Abs and that identification of less somatically mutated bn Abs may help in the design of effective vaccine immunogens. In a quest for such bn Abs, phage-and yeast-displayed antibody libraries, constructed using peripheral blood mononuclear cells (PBMCs) from a patient with bn serum containing Abs targeting the epitope of the bn MAb 2F5, were panned against peptides containing the 2F5 epitope and against the HIV-1 gp140 JR-FL . Two MAbs (m66 and m66.6) were identified; the more mutated variant (m66.6) exhibited higher HIV-1-neutralizing activity than m66, although it was weaker than 2F5 in a TZM-bl cell assay. Binding of both MAbs to gp41 alanine substitution mutant peptides required the DKW 664-666 core of the 2F5 epitope and two additional upstream residues (L 660,663 ). The MAbs have long (21-residue) heavy-chain third complementarity-determining regions (CDR-H3s), and m66.6 (but not m66) exhibited polyspecific reactivity to self-and non-self-antigens. Both m66 and m66.6 are significantly less divergent from their germ line Ab counterparts than 2F5-they have a total of 11 and 18 amino acid changes, respectively, from the closest VH and V germ line gene products compared to 25 for 2F5. These new MAbs could help explore the complex maturation pathways involved in broad neutralization and its relationship with auto-and polyreactivity and may aid design of vaccine immunogens and development of therapeutics against HIV-1 infection.
The limited success of vaccines targeting the MPER, a target of three broadly neutralizing (bNt) monoclonal antibodies (MAbs), we hypothesize, reflects the difficulty of mimicking the neutralization-competent structure (NCS) of the MPER. We determined the contribution of the amino-acid sequence and the transmembrane domain (TM), to the antigenicity of the MPER in the context of the plasma membrane. DNA constructs encoding various gp41 ectodomain fragments, and the TM of either the platelet-derived growth factor receptor (PGDFR), or that of gp41, were produced and transiently expressed in COS-7 cells. Constructs expressing the MPER tethered to the gp41 TM followed by a 27-residue cytoplasmic tail fragment, MPER-TM1, produced optimal binding of MAbs 2F5, 4E10 and Z13e1. A series of 24 single amino-acid substitutions in the MPER-TM1 revealed critical binding residues for the three MAbs; similar substitutions were previously shown to ablate Ab-mediated viral neutralization. Neutralization-incompetent 2F5 Fab and 4E10 IgG mutant Abs failed to bind MPER-TM1, yet retained the ability to bind to peptide epitopes, indicating the plasma-membrane expressed MPER-TM1 closely approaches the NCS of the MPER. Substitution of the TM of gp41 with that from the PGDFR reduced binding by MAb 4E10, but not MAbs 2F5 or Z13e1. Our studies reveal that the gp41 TM appears to play a pivotal role both in orienting the 4E10 epitope, and affecting exposure of the MPER epitopes for all three bNtMAbs.
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