Jeffrey Copps scite author profile

SUMMARY For many enveloped viruses, binding to a receptor(s) on a host cell acts as a first step in a series of events culminating in fusion with the host cell membrane and transfer of genetic material for replication [for review see1,2]. The envelope glycoprotein (Env) trimer on the surface of HIV is responsible for receptor binding and fusion. While Env can tolerate a high degree of mutation in five variable regions (V1-V5), and also at N-linked glycosylation sites that contribute roughly half the mass of Env, the functional sites for recognition of receptor CD4 and co-receptor CXCR4/CCR5 are conserved and essential for viral fitness. Soluble SOSIP Env trimers are structural and antigenic mimics of the pre-fusion native, surface-presented Env3,4, targets of broadly neutralizing antibodies (bnAbs). Thus, they are attractive immunogens for vaccine development [for review see5–8]. Here we present high-resolution cryo-electron microscopy (cryoEM) structures of subtype B B41 SOSIP Env trimers in complex with CD4 and antibody 17b, or with antibody b12, at resolutions of ~3.7 Å and ~3.6 Å, respectively, and compare them to cryoEM reconstructions of ligand-free B41 SOSIP Env trimers or in complex with either CD4 or CD4bs antibody PGV04, at ~5.6 Å, ~5.2 Å and ~7.4 Å, respectively. Consequently, we present the most complete description and understanding of the CD4/17b-induced intermediate and provide the molecular basis of the receptor-binding induced conformational change required for HIV-1 entry into host cells. Both CD4 and b12 induce large, previously uncharacterized conformational rearrangements in the gp41 subunits, and the fusion peptide becomes more buried in a newly formed pocket. These structures provide key details on the biological function of the type I viral fusion machine from HIV-1 as well as new templates for inhibitor design.

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HIV-1 vaccine design through minimizing envelope metastability

Kumar

Allen

et al. 2018

Sci. Adv.

231

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Tailored design of protein nanoparticle scaffolds for multivalent presentation of viral glycoprotein antigens

et al. 2020

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Multivalent presentation of viral glycoproteins can substantially increase the elicitation of antigen-specific antibodies. To enable a new generation of anti-viral vaccines, we designed self-assembling protein nanoparticles with geometries tailored to present the ectodomains of influenza, HIV, and RSV viral glycoprotein trimers. We first de novo designed trimers tailored for antigen fusion, featuring N-terminal helices positioned to match the C termini of the viral glycoproteins. Trimers that experimentally adopted their designed configurations were incorporated as components of tetrahedral, octahedral, and icosahedral nanoparticles, which were characterized by cryo-electron microscopy and assessed for their ability to present viral glycoproteins. Electron microscopy and antibody binding experiments demonstrated that the designed nanoparticles presented antigenically intact prefusion HIV-1 Env, influenza hemagglutinin, and RSV F trimers in the predicted geometries. This work demonstrates that antigen-displaying protein nanoparticles can be designed from scratch, and provides a systematic way to investigate the influence of antigen presentation geometry on the immune response to vaccination.

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Mapping the immunogenic landscape of near-native HIV-1 envelope trimers in non-human primates

et al. 2020

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The induction of broad and potent immunity by vaccines is the key focus of research efforts aimed at protecting against HIV-1 infection. Soluble native-like HIV-1 envelope glycoproteins have shown promise as vaccine candidates as they can induce potent autologous neutralizing responses in rabbits and non-human primates. In this study, monoclonal antibodies were isolated and characterized from rhesus macaques immunized with the BG505 SOSIP.664 trimer to better understand vaccine-induced antibody responses. Our studies reveal a diverse landscape of antibodies recognizing immunodominant strain-specific epitopes and non-neutralizing neo-epitopes. Additionally, we isolated a subset of mAbs against an epitope cluster at the gp120-gp41 interface that recognize the highly conserved fusion peptide and the glycan at position 88 and have characteristics akin to several humanderived broadly neutralizing antibodies.

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Jeffrey Copps

Open and closed structures reveal allostery and pliability in the HIV-1 envelope spike

HIV-1 vaccine design through minimizing envelope metastability

Tailored design of protein nanoparticle scaffolds for multivalent presentation of viral glycoprotein antigens

Mapping the immunogenic landscape of near-native HIV-1 envelope trimers in non-human primates

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