Litcius/Paper detail

Structure of HIV-1 gp41 with its membrane anchors targeted by neutralizing antibodies

Christophe Caillat, Delphine Guilligay, Johana Torralba, Nikolas Friedrich, José L. Nieva, Alexandra Trkola, Christophe Chipot, François Dehez, Winfríed Weissenhorn

2021eLife33 citationsDOIOpen Access PDF

Abstract

The HIV-1 gp120/gp41 trimer undergoes a series of conformational changes in order to catalyze gp41-induced fusion of viral and cellular membranes. Here, we present the crystal structure of gp41 locked in a fusion intermediate state by an MPER-specific neutralizing antibody. The structure illustrates the conformational plasticity of the six membrane anchors arranged asymmetrically with the fusion peptides and the transmembrane regions pointing into different directions. Hinge regions located adjacent to the fusion peptide and the transmembrane region facilitate the conformational flexibility that allows high-affinity binding of broadly neutralizing anti-MPER antibodies. Molecular dynamics simulation of the MPER Ab-stabilized gp41 conformation reveals a possible transition pathway into the final post-fusion conformation with the central fusion peptides forming a hydrophobic core with flanking transmembrane regions. This suggests that MPER-specific broadly neutralizing antibodies can block final steps of refolding of the fusion peptide and the transmembrane region, which is required for completing membrane fusion.

Topics & Concepts

Gp41TrimerLipid bilayer fusionTransmembrane proteinFusionBiophysicsChemistryMembraneConformational changePeptideTransmembrane domainAntibodyBiologyBiochemistryEpitopeReceptorDimerImmunologyPhilosophyOrganic chemistryLinguisticsHIV Research and TreatmentProtein Structure and DynamicsRNA and protein synthesis mechanisms