Edward T. Eng scite author profile

A central goal of HIV-1 vaccine research is the elicitation of antibodies capable of neutralizing diverse primary isolates of HIV-1. Here we show that focusing the immune response to exposed N-terminal residues of the fusion peptide, a critical component of the viral entry machinery and the epitope of antibodies elicited by HIV-1 infection, through immunization with fusion peptide-coupled carriers and prefusion stabilized envelope trimers, induces cross-clade neutralizing responses. In mice, these immunogens elicited monoclonal antibodies capable of neutralizing up to 31% of a cross-clade panel of 208 HIV-1 strains. Crystal and cryoelectron microscopy structures of these antibodies revealed fusion peptide conformational diversity as a molecular explanation for the cross-clade neutralization. Immunization of guinea pigs and rhesus macaques induced similarly broad fusion peptide-directed neutralizing responses, suggesting translatability. The N terminus of the HIV-1 fusion peptide is thus a promising target of vaccine efforts aimed at eliciting broadly neutralizing antibodies.

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A pH-regulated dimeric bouquet in the structure of von Willebrand factor

Zhou

et al. 2011

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At the acidic pH of the trans-Golgi and Weibel-Palade bodies (WPBs), but not at the alkaline pH of secretion, the C-terminal ∼1350 residues of von Willebrand factor (VWF) zip up into an elongated, dimeric bouquet. Six small domains visualized here for the first time between the D4 and cystine-knot domains form a stem. The A2, A3, and D4 domains form a raceme with three pairs of opposed, large, flower-like domains. N-terminal VWF domains mediate helical tubule formation in WPBs and template N-terminal disulphide linkage between VWF dimers, to form ultralong VWF concatamers. The dimensions we measure in VWF at pH 6.2 and 7.4, and the distance between tubules in nascent WPB, suggest that dimeric bouquets are essential for correct VWF dimer incorporation into growing tubules and to prevent crosslinking between neighbouring tubules. Further insights into the structure of the domains and flexible segments in VWF provide an overall view of VWF structure important for understanding both the biogenesis of ultralong concatamers at acidic pH and flow-regulated changes in concatamer conformation in plasma at alkaline pH that trigger hemostasis.

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Antibody Lineages with Vaccine-Induced Antigen-Binding Hotspots Develop Broad HIV Neutralization

Kong

Duan

Sheng

et al. 2019

Cell

119

145

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SUMMARY The vaccine-mediated elicitation of antibodies (Abs) capable of neutralizing diverse HIV-1 strains has been a long-standing goal. To understand how broadly neutralizing antibodies (bNAbs) can be elicited, we identified, characterized, and tracked five neutralizing Ab lineages targeting the HIV-1-fusion peptide (FP) in vaccinated macaques over time. Genetic and structural analyses revealed two of these lineages to belong to a reproducible class capable of neutralizing up to 59% of 208 diverse viral strains. B cell analysis indicated each of the five lineages to have been initiated and expanded by FP-carrier priming, with envelope (Env)-trimer boosts inducing cross-reactive neutralization. These Abs had binding-energy hotspots focused on FP, whereas several FP-directed Abs induced by immunization with Env trimer-only were less FP-focused and less broadly neutralizing. Priming with a conserved subregion, such as FP, can thus induce Abs with binding-energy hotspots coincident with the target subregion and capable of broad neutralization.

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Edward T. Eng

Sequence and structure relationships within von Willebrand factor

Epitope-based vaccine design yields fusion peptide-directed antibodies that neutralize diverse strains of HIV-1

A pH-regulated dimeric bouquet in the structure of von Willebrand factor

Antibody Lineages with Vaccine-Induced Antigen-Binding Hotspots Develop Broad HIV Neutralization

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