Molly C. Erdman scite author profile

Antibodies that can neutralize diverse HIV-1 strains develop in ~10–20% of HIV-1 infected individuals, and their elicitation is a goal of vaccine design. Such antibodies can also serve as therapeutics for those who have already been infected with the virus. Structural characterizations of broadly reactive antibodies in complex with the HIV-1 spike indicate that there are a limited number of sites of vulnerability on the spike. Analysis of their structures can help reveal commonalities that would be useful in vaccine design and provide insights on combinations of antibodies that can be used to minimize the incidence of viral resistance mutations. In this review, we give an update on recent structures determined of the spike in complex with broadly neutralizing antibodies in the context of all epitopes on the HIV-1 spike identified to date.

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Analysis of two cooperating antibodies unveils immune pressure imposed on HIV Env to elicit a V3-glycan supersite broadly neutralizing antibody lineage

Finkelstein

Miller²,

Erdman³

et al. 2022

Front. Immunol.

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Elicitation of broadly neutralizing antibodies (bnAbs) is a goal of vaccine design as a strategy for targeting highly divergent strains of HIV-1. Current HIV-1 vaccine design efforts seek to elicit bnAbs by first eliciting their precursors through prime-boost regimens. This requires an understanding of the co-evolution between viruses and antibodies. Towards this goal, we have analyzed two cooperating antibodies, DH475 and DH272, which exerted pressure on the HIV population in an infected donor, called CH848, to evolve in such a way that it became sensitive to the V3-glycan supersite DH270 bnAb lineage. We obtained a 2.90Å crystal structure of DH475 in complex with the Man9 glycan and a negative stain EM model of DH272 in complex with the HIV-1 spike trimer, Env. Coupled with additional modeling studies and biochemical data, our studies reveal that DH475 contacts a V3- and V4-glycan dependent epitope accessible on an open or shed Env and that DH272 makes critical contacts with the V1V2 and V3 loops on HIV-1 Env. Using these data, we suggest a prime-boost regimen that may facilitate the initiation of DH270-like bnAb precursors.

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Characterization of the DH475 cooperating antibody and its interaction with the HIV‐1 spike

2022

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HIV evolves very quickly, so approaches to design an effective vaccine that elicits protective antibodies have thus far been unsuccessful. Current HIV vaccine design efforts seek to elicit broadly neutralizing antibodies, unique antibodies that target many viral variants, by first eliciting their precursors through prime‐boost regimens. This requires an understanding of the co‐evolution between viruses and antibodies. Towards this goal, we are analyzing a cooperating antibody, called DH475, which exerted pressure on HIV to evolve in such a way that it became sensitive to the DH270 broadly neutralizing antibody lineage. This study aims to elucidate how DH475 binds to the HIV viral spike and identify how DH475 facilitated the development of DH270 broadly neutralizing antibodies. We obtained a 2.90Å crystal structure of DH475 in complex with Man9 glycan, and used site‐directed mutagenesis coupled with biolayer interferometry (BLI) and protein‐protein docking to characterize how DH475 interacts with Env. These investigations revealed a glycan‐dependent epitope, and docking analyses identified an unorthodox binding mode in which the DH475 framework and constant regions participate in binding. While further confirmation of DH475’s binding mode is required, our findings indicate an overlapping epitope between the DH270 lineage and DH475, consistent with its cooperative neutralization ability.

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Molly C. Erdman

A Structural Update of Neutralizing Epitopes on the HIV Envelope, a Moving Target

Analysis of two cooperating antibodies unveils immune pressure imposed on HIV Env to elicit a V3-glycan supersite broadly neutralizing antibody lineage

Characterization of the DH475 cooperating antibody and its interaction with the HIV‐1 spike

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