Short CDRL1 in intermediate VRC01-like mAbs is not sufficient to overcome key glycan barriers on HIV-1 Env

Creators: Agrawal, Parul; Knudsen, Maria L.; MacCamy, Anna; Hurlburt, Nicholas K.; Khechaduri, Arineh; Salladay, Kelsey R.; Kher, Gargi M.; Kallur Siddaramaiah, Latha; Stuart, Andrew B.; Bontjer, Ilja; Shen, Xiaoying; Montefiori, David; Gristick, Harry B.¹; Bjorkman, Pamela J.¹; Sanders, Rogier W.; Pancera, Marie; Stamatatos, Leonidas

1. California Institute of Technology

Editor:: Simon, Viviana

Abstract

VRC01-class broadly neutralizing antibodies (bnAbs) have been isolated from people with HIV-1, but they have not yet been elicited by vaccination. They are extensively somatically mutated and sometimes accumulate CDRL1 deletions. Such indels may allow VRC01-class antibodies to accommodate the glycans expressed on a conserved N276 N-linked glycosylation site in loop D of the gp120 subunit. These glycans constitute a major obstacle in the development of VRC01-class antibodies, as unmutated antibody forms are unable to accommodate them. Although immunizations of knock-in mice expressing human VRC01-class B-cell receptors (BCRs) with specifically designed Env-derived immunogens lead to the accumulation of somatic mutations in VRC01-class BCRs, CDRL1 deletions are rarely observed, and the elicited antibodies display narrow neutralizing activities. The lack of broad neutralizing potential could be due to the absence of deletions, the lack of appropriate somatic mutations, or both. To address this point, we modified our previously determined prime-boost immunization with a germline-targeting immunogen nanoparticle (426c.Mod.Core), followed by a heterologous core nanoparticle (HxB2.WT.Core), by adding a final boost with a cocktail of various stabilized soluble Env trimers. We isolated VRC01-like antibodies with extensive somatic mutations and, in one case, a seven-amino acid CDRL1 deletion. We generated chimeric antibodies that combine the vaccine-elicited somatic mutations with CDRL1 deletions present in human mature VRC01 bnAbs. We observed that CDRL1 indels did not improve the neutralizing antibody activities. Our study indicates that CDRL1 length by itself is not sufficient for the broadly neutralizing phenotype of this class of antibodies. IMPORTANCE HIV-1 broadly neutralizing antibodies will be a key component of an effective HIV-1 vaccine, as they prevent viral acquisition. Over the past decade, numerous broadly neutralizing antibodies (bnAbs) have been isolated from people with HIV. Despite an in-depth knowledge of their structures, epitopes, ontogenies, and, in a few rare cases, their maturation pathways during infection, bnAbs have, so far, not been elicited by vaccination. This necessitates the identification of key obstacles that prevent their elicitation by immunization and overcoming them. Here we examined whether CDRL1 shortening is a prerequisite for the broadly neutralizing potential of VRC01-class bnAbs, which bind within the CD4 receptor binding site of Env. Our findings indicate that CDRL1 shortening by itself is important but not sufficient for the acquisition of neutralization breadth, and suggest that particular combinations of amino acid mutations, not elicited so far by vaccination, are most likely required for the development of such a feature.

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Data Availability

Binding and neutralization results and data collection and refinement statistics for cryo-EM structure related to Fig. 6 are available under PDB ID 9BGE and 9B44.

Acknowledgement

We thank the J.B. Pendleton Charitable Trust for its generous support of Formulatrix robotic instruments and the Caltech Protein Expression Center (J. Vielmetter, Luisa Segovia, and the Caltech Beckman Institute Protein Expression Center) for protein production.

This work was supported by grants P01 AI138212, 2R01 AI104384, and R01 AI104384 from the National Institutes of Health. We thank Access to Advanced Health Institute (AAHI) for providing the adjuvants used in this study. Electron microscopy data were generated using the Fred Hutchinson Cancer Center Electron Microscopy Shared Resource. The EMSR is supported in part by the Cancer Center Support Grant P30 CA015704-40. X-ray diffraction data wasdata were collected at the Berkeley Center for Structural Biology beamline 5.0.2. The Berkeley Center for Structural Biology is supported in part by the Howard Hughes Medical Institute. The Advanced Light Source is a Department of Energy Office of Science User Facility under Contract No. DE-AC02-05CH11231. The Pilatus detector on 5.0.2. was funded under NIH grant S10OD021832. The ALS-ENABLE beamlines are supported in part by the National Institutes of Health, National Institute of General Medical Sciences, grant P30 GM124169.

Contributions

P.A. performed the ELISA and B cell sorting, oversaw the analysis of all immunochemical assays, interpreted the results, and contributed to the writing of the manuscript. M.L.K. performed the mouse immunizations. A.M. performed the BCR sequencing and BLI assays. A.K. processed the tissues from immunized animals and generated the mAbs. K.R.S. performed the BLI and BCR sequencing. A.B.S. and L.K.S. expressed and purified the recombinant Envs. N.K.H. performed the structural studies and contributed to the writing of the manuscript. G.M.K. generated the chimeric antibodies, generated the Fabs, and performed the structural studies. M.P. oversaw the structural studies and contributed to the writing of the manuscript. S.S. and D.M. performed the neutralization assays. I.B. provided the crucial reagents. H.B.G., P.J.B., and R.W.S. provided the crucial reagents and contributed to the writing of the manuscript. L.S. conceived and oversaw the study and wrote the manuscript.

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