The human immunodeficiency virus envelope protein is the key element mediating entry into host cells. Conformational rearrangement of Env upon binding to the host CD4 receptor and chemokine coreceptor drives membrane fusion. We elucidated the quaternary arrangement of the soluble Env trimeric immunogen o-gp140ΔV2TV1, in both its native (unliganded) and CD4-induced (liganded) states by cryoelectron microscopy and molecular modeling. The liganded conformation was elicited by binding gp140 to the synthetic CD4-mimicking miniprotein CD4m. Upon CD4m binding, an outward domain shift of the three gp120 subunits diminishes gp120-gp41 interactions, whereas a "flat open" concave trimer apex is observed consequent to gp120 tilting away from threefold axis, likely juxtaposing the fusion peptide with the host membrane. Additional features observed in the liganded conformation include rotations of individual gp120 subunits that may release gp41 for N-and C-helix refolding and also may lead to optimal exposure of the elicited coreceptor binding site. Such quaternary arrangements of gp140 lead to the metastable liganded conformation, with putative locations of exposed epitopes contributing to a description of sequential events occurring prior to membrane fusion. Our observations imply a mechanism whereby a soluble Env trimeric construct, as opposed to trimers extracted from virions, may better expose crucial epitopes such as the CD4 binding site and V3, as well as epitopes in the vicinity of gp41, subsequent to conjugation with CD4m. Structural features gleaned from our studies should aid the design of Env-based immunogens for inducement of potent broadly neutralizing antibodies against exposed conformational epitopes.T he human immunodeficiency virus envelope proteins gp120 and gp41 associate in a trimeric arrangement (1-3) and mediate membrane fusion through conformational rearrangement and fusion peptide insertion into the host membrane. The gp120 tertiary conformational change observed via X-ray crystallography has not been definitively characterized in the context of a quaternary structure. Several observations have been gleaned from tomography studies, though with inconclusive and sometimes contradictory results. Quaternary structural features reported previously include trimer morphology, with some groups reporting a mushroom-like shape and others a more rod-like arrangement, as well as the relative location of the primary epitope, hypervariable loops, and N-and C-termini, which have some variation among the different tomograms. Another point of conflict is the presence of a cavity at the threefold axis, capped by a density. One final feature is the arrangement of gp41, with some groups reporting a thin, stalk-like rod arrangement of gp41 and another group reporting a more splayed out, tripod-like conformation of gp41 proximal to the viral membrane. Taken together, these contrasting features portray a heterogeneous set of registers that seem to hinder a cohesive and thorough model of ligand-induced quaternary arrangement...
Oral delivery with virus-like particles (VLPs) is advantageous because of the inherited entry pathway from their parental viral capsids, which enables VLP to withstand the harsh and enzymatic environment associated with human digestive tract. However, the repeat use of this system is challenged by the self-immunity. In order to overcome this problem, we engineered the recombinant capsid protein of hepatitis E virus by inserting p18 peptide, derived from the V3 loop of HIV-1 gp120, into the antibody-binding site. The chimeric VLP resembled the tertiary and quaternary structures of the wild type VLP and specifically reacted with an HIV-1 antibody against V3 loop. Different from the wild type VLP, the chimeric VLP was vulnerable to trypsin cleavage although it appeared as intact particle, suggesting that the intermolecular forces of attraction between the recombinant capsid proteins are strong enough to maintain the VLP icosahedral arrangement. Importantly, this VLP containing the V3 loop did not react with anti-HEV antibodies, in correspondence to the mutation at its antibody-binding site. Therefore, the insertion of peptides at the surface antigenic site could allow VLPs to escape pre-existing anti-HEV humoral immunity.
Eliciting broadly reactive functional antibodies remains a challenge in human immunodeficiency virus type 1 (HIV-1) vaccine development that is complicated by variations in envelope (Env) subtype and structure. The majority of new global HIV-1 infections are subtype C, and novel antigenic properties have been described for subtype C Env proteins. Thus, an HIV-1 subtype C Env protein (CO6980v0c22) from an infected person in the acute phase (Fiebig stage I/II) was developed as a research reagent and candidate immunogen. The gp145 envelope is a novel immunogen with a fully intact membrane-proximal external region (MPER), extended by a polylysine tail. Soluble gp145 was enriched for trimers that yielded the expected "fan blade" motifs when visualized by cryoelectron microscopy. CO6980v0c22 gp145 reacts with the 4E10, PG9, PG16, and VRC01 HIV-1 neutralizing monoclonal antibodies (MAbs), as well as the V1/V2-specific PGT121, 697, 2158, and 2297 MAbs. Different gp145 oligomers were tested for immunogenicity in rabbits, and purified dimers, trimers, and larger multimers elicited similar levels of crosssubtype binding and neutralizing antibodies to tier 1 and some tier 2 viruses. Immunized rabbit sera did not neutralize the highly resistant CO6980v0c22 pseudovirus but did inhibit the homologous infectious molecular clone in a peripheral blood mononuclear cell (PBMC) assay. This Env is currently in good manufacturing practice (GMP) production to be made available for use as a clinical research tool and further evaluation as a candidate vaccine. IMPORTANCEAt present, the product pipeline for HIV vaccines is insufficient and is limited by inadequate capacity to produce large quantities of vaccine to standards required for human clinical trials. Such products are required to evaluate critical questions of vaccine formulation, route, dosing, and schedule, as well as to establish vaccine efficacy. The gp145 Env protein presented in this study forms physical trimers, binds to many of the well-characterized broad neutralizing MAbs that target conserved Env epitopes, and induce cross-subtype neutralizing antibodies as measured in both cell line and primary cell assays. This subtype C Env gp145 protein is currently undergoing good manufacturing practice production for use as a reagent for preclinical studies and for human clinical research. This product will serve as a reagent for comparative studies and may represent a next-generation candidate HIV immunogen. Human immunodeficiency virus (HIV) vaccine candidates capable of eliciting broad, protective humoral immune responses would significantly advance prevention strategies to control the AIDS pandemic. The diversity of circulating HIV type 1 (HIV-1) envelope (Env) sequences and structures has complicated HIV-1 immunogen design and has impaired the development of a globally efficacious vaccine. Env diversity of up to 20% within a subtype and up to 35% between subtypes has been reported (1), leading vaccine developers to focus on common antigenic features most frequently r...
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