HPV16 neutralizing monoclonal antibodies show evidence for common developmental pathways and public epitopes
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Antibodies to human papillomavirus (HPV) primarily recognize surface exposed residues on five loops of the major capsid protein (L1) that vary significantly among HPV types. We determined which loops were required for neutralization for 70 HPV16 specific human monoclonal antibodies (mAbs) cloned from participants who received an HPV vaccine, and we describe molecular features of those antibodies.
Chimeric HPV16 pseudovirus (cpsV), each having one surface loop bearing multiple amino acid substitutions, were used to determine neutralization specificity. The HPV16-FG-loop was the loop most frequently required for neutralization (44 of 70, 62.9%), however, all other surface loops were used for neutralization by multiple mAbs: HI (13, 18.6%), DE (15, 21.4%), EF (six, 8.6%), BC (four, 5.7%). Antibodies that required multiple loops were common (17, 24.3%). Three mAbs (4.3%) required sequences on the c-terminus of L1 and for another three mAbs the neutralization specificity could not be determined.
Two types of mAbs appeared to be overrepresented: ten mAbs used V H 2-70 IGHV paired with V L λ1-40, having characteristic mutations in complementarity determining region two (CDRL2). Cryogenic electron microscopy (Cryo-EM) revealed that two of these antibodies bound five Fabs per pentamer interacting with all five L1-surface loops. The other type of mAbs that appeared to be overrepresented were ten mAbs using V H 4-34, seven of which also used D H 3-16*02 with conserved CDRH3 sequences. Cryo-EM for one of these mAbs, that required the FG-loop for neutralization, was shown to bind one Fab per pentamer at the apex, interacting with the DE- and FG-loops, with sequences of the Fab CDRH3 inserted between the DE- and FG-loops from two protomers. These two types of mAbs were found repeatedly in the four participants suggesting that these antibodies shared developmental pathways and bound to similar immunodominant epitopes on the virus.
Highlights
Most human mAbs recognized L1 surface loops but three of 70 recognized sequences on the C-terminal arm of L1
Some antibodies induced by HPV vaccination follow shared developmental pathways.
Human monoclonal antibodies using V H 2-70/V L λ1-40 were found in all participants and bound with at a stoichiometry of five Fabs per capsomer.
Human monoclonal antibodies using the diversity gene segment D3-16*02 were found in all participants and one Fab was shown to bind with a stoichiometry of one Fab per capsomer.
In brief
A panel of 70 HPV16 specific human monoclonal antibodies (mAbs), cloned from memory B cells or plasmablasts following HPV vaccination, was characterized by determining the surface loops of the major capsid protein (L1) required for neutralization and examined for shared molecular features. All five L1 loops were found to be used for neutralization by one or more antibodies, but the most frequent target of these antibodies was the FG loop followed by the HI and DE loops. Ten antibodies paired the heavy chain variable gene V H 2-70 with the light chain variable gene V L λ1-40 and these antibodies had conserved mutations in the CDRL2 region of V L λ1-40. Mutating the CDRL2 back to the predicted germline sequence significantly reduced neutralization. Cryo-EM analysis of two V H 2-70/V L λ1-40 mAbs showed five Fabs binding per L1 pentamer and a conserved epitope with Fabs interacting with all five variable loops across two adjacent protomers. Seven other mAbs had a heavy chain composed of the variable region V H 4-34 with the diversity gene D3-16*02 resulting in the sequence motif WSGYR in the CDRH3. Mutation of that sequence to alanine ablated HPV16 neutralization activity. A cryo-EM structure of one of these antibodies showed one Fab binding the pentamer apex with the WSGYR motif inserting between three loops from two protomers. Antibodies with paired V H 2-70/V L λ1-40 and the antibodies with CDRH3 containing the WSGYR sequence, were found in all four study participants suggesting that such antibodies may be commonly elicited following HPV vaccination.
