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• 39F: Lipid-based nanoparticles for the multivalent display of trimers have been shown to enhance humoral responses to trimer immunogens in the context of HIV vaccine development. After immunization with soluble MD39 SOSIP trimers (a stabilized version of BG505), trimer-conjugated liposomes improved both germinal center B cell and trimer-specific T follicular helper cell responses. In particular, MD39-liposomes showed high levels of binding by bNAbs such as V3 glycan specific PGT121, V1/V2 glycan specific PGT145, gp120/gp41 interface specific PGT151, CD4 binding site specific VRC01, and showed minimal binding by non-NAbs like CD4 binding site specific B6, and V3 specific 4025 or 39F. Tokatlian2018 (vaccine antigen design, binding affinity)
• 39F: The first cryo-EM structure of a cross-linked vaccine antigen was solved. The 4.2 Å structure of HIV-1 BG505 SOSIP soluble recombinant Env in complex with a bNAb PGV04 Fab fragment revealed how cross-linking affects key properties of the trimer. SOSIP and GLA-SOSIP trimers were compared for antigenicity by ELISA, using a large panel of mAbs previously determined to react with BG505 Env. Non-NAbs like 39F globally lost reactivity (7-fold median loss of binding), likely because of covalent stabilization of the cross-linked ‘closed’ form of the GLA-SOSIP trimer that binds non-NAbs weakly or not at all. V3-specific non-NAbs showed 2.1–3.3-fold reduced binding. Three autologous rabbit monoclonal NAbs to the N241/N289 ‘glycan-hole’ surface, showed a median ˜1.5-fold reduction in binding. V3 non-NAb 4025 showed residual binding to the GLA-SOSIP trimer. By contrast, bNAbs broadly retained reactivity significantly better than non-NAbs, with exception of PGT145 (3.3-5.3 fold loss of binding in ELISA and SPR). Schiffner2018 (vaccine antigen design, binding affinity, structure)
• 39F: SOSIP.664 trimer was modified at V3 positions 306 and 308 by Leucine substitution to create hydrophobic interactions with the tryptophan residue at position 316 and the V1V2 domain. These modifications stabilized the resulting SOSIP.v5.2 S306L R308L trimers. In vivo, the induction of V3 non-NAbs was significantly reduced compared with the SOSIP.v5.2 trimers. With S306L plus R308L substitutions, 39F did not bind to SOSIP.v5.2 and SOSIP.v5.2 constructs deTaeye2018 (antibody binding site, binding affinity)
• 39F: Three strategies were applied to perturb the structure of Env in order to make the protein more susceptible to neutralization: exposure to cold, Env-activating ligands, and a chaotropic agent. A panel of mAbs (E51, 48d, 17b, 3BNC176, 19b, 447-52D, 39F, b12, b6, PG16, PGT145, PGT126, 35O22, F240, 10E8, 7b2, 2G12) was used to test the neutralization resistance of a panel of subtype B and C pseudoviruses with and without these agents. Both cold and CD4 mimicking agents (CD4Ms) increased the sensitivity of some viruses. The chaotropic agent urea had little effect by itself, but could enhance the effects of cold or CD4Ms. Thus Env destabilizing agents can make Env more susceptible to neutralization and may hold promise as priming vaccine antigens. Johnson2017 (vaccine antigen design)
• 3.9F: LANL database note: This monoclonal antibody is a CHAVI reagent (http://chavi.org/); Species: human; Category: V3 MAbs; Contact person: James Robinson.
• 39F: This study investigated the ability of native, membrane-expressed JR-FL Env trimers to elicit NAbs. Rabbits were immunized with virus-like particles (VLPs) expressing trimers (trimer VLP sera) and DNA expressing native Env trimer, followed by a protein boost (DNA trimer sera). N197 glycan- and residue 230- removal conferred sensitivity to Trimer VLP sera and DNA trimer sera respectively, showing for the first time that strain-specific holes in the "glycan fence" can allow the development of tier 2 NAbs to native spikes. All 3 sera neutralized via quaternary epitopes and exploited natural gaps in the glycan defenses of the second conserved region of JR-FL gp120.N197 glycan mutants were tested against 39F showing a loss of tier 2 phenotype. The results are in Table S5. Crooks2015 (glycosylation, neutralization)
• 39F: PGT145 was used to positively isolate a subtype B Env trimer immunogen, B41 SOSIP.664, that exists in two conformations, closed and partially open. bNAbs tested against the trimer were able to neutralize the B41 pseudovirus with a wide range of potencies. Among non-NAbs to CD4bs (b6, F91, F105); to CD4i (17b); to gp41_ECTO (F240); and to V3 (447-52D, 39F, CO11, 19b and 14e), none neutralized B41 (IC₅₀ >50µg/ml). Pugach2015
• 39F: Two clade C recombinant Env glycoprotein trimers, DU422 and ZM197M, with native-like structural and antigenic properties involving epitopes for all known classes of bNAbs, were produced and characterized. These Clade C trimers (10-15% of which are in a partially open form) were more like B41 Clade B trimers which have 50-75% trimers in the partially open configuration than like B505 Clade B trimers, almost 100% in the closed, prefusion state. Clade C ZM197M trimer had low binding affinity to anti-V3 Ab 39F, while the DU422 trimer as well as both trimer-pseudotyped viruses did not bind 39F and were not neutralized by it either. Julien2015 (assay or method development, structure)
• 39F: Env trimer BG505 SOSIP.664 as well as the clade B trimer B41 SOSIP.664 were stabilized using a bifunctional aldehyde (glutaraldehye, GLA) or a heterobifunctional cross-linker, EDC/NHS with modest effects on antigenicity and barely any on biochemistry or structural morphology. ELISA, DSC and SPR were used to test recognition of the trimers by bNAbs, which was preserved and by weakly NAbs or non-NAbs, which was reduced. Cross-linking partially preserves quaternary morphology so that affinity chromatography by positive selection using quaternary epitope-specific bNAabs, and negative selection using non-NAbs, enriched antigenic characteristics of the trimers. Binding of anti-V3 non-NAb 39F to trimers was reduced by trimer cross-linking. Schiffner2016 (assay or method development, binding affinity, structure)
• 39F: A new trimeric immunogen, BG505 SOSIP.664 gp140, was developed that bound and activated most known neutralizing antibodies but generally did not bind antibodies lacking neuralizing activity. This highly stable immunogen mimics the Env spike of subtype A transmitted/founder (T/F) HIV-1 strain, BG505. Anti-V3 non-NAb 39F did not neutralize BG505.T332N, the pseudoviral equivalent of the immunogen BG505 SOSIP.664 gp140, but did recognize and bind the immunogen itself. Sanders2013 (assay or method development, neutralization, binding affinity)
• 39F: The study's goal was to produce modified SOSIP trimers that would reduce the exposure - and, by inference, the immunogenicity - of non-NAb epitopes such as V3. The binding of several modified SOSIP trimers was compared among 12 neutralizing (PG9, PG16, PGT145, PGT121, PGT126, 2G12, PGT135, VRC01, CH103, CD4, IgG2, PGT151, 35O22) and 3 non-neutralizing antibodies (14e, 19b, b6). The V3 non-NAbs 447-52D, 39F, 14e, and 19b bound less well to all A316W variant trimers compared to wild-type trimers. Mice and rabbits immunized with modified, stabilized SOSIP trimers developed fewer V3 Ab responses than those immunized with native trimers. deTaeye2015 (antibody binding site)
• 39F: This paper reported the nature of junk Env glycan that undermine the development of Ab responses against gp120/gp41 trimers and evaluated enzyme digestion as a way to remove aberrant Env to produce "trimer VLPs". 39F was used in the anti-gp120 cocktail in BN-PAGE and western blot experiments to prove that enzymes removed junk Env from VLPs and inactivated virus.. Crooks2011 (glycosylation)
• 39F: NIH AIDS Reagent program Catalog# 11437. Derived by EBV transformation of B cells from PBMCs of an asymptomatic HIV-1 infected patient. Antibody binds to a linear epitope involving the N-terminal side of the V3 loop. 39F neutralizes a small proportion of HIV-1 Clade B primary isolates.
• 39F: The goal of this study was to improve the humoral response to HIV-1 by targeting trimeric Env gp140 to B cells. The gp140 was fused to a proliferation-inducing ligand (APRIL), B cell activation factor (BAFF) and CD40 ligand (CD40L). These fusion proteins increased the expression of activation-induced-cytidine deaminase (AID) responsible for somatic hypermutation, Ab affinity maturation, and Ab class switching. The Env-APRIL induced high anti-Env responses against tier1 viruses. 39F was used in BN-PAGE trimer shift assay. Melchers2012 (neutralization)
• 39F: Polyclonal B cell responses to conserved neutralization epitopes are reported. Cross-reactive plasma samples were identified and evaluated from 308 subjects tested. 39F was used as a control mAb in the comprehensive set of assays performed. Tomaras2011 (neutralization, polyclonal antibodies)
• 39F: Antigenic properties of undigested VLPs and endo H-digested WT trimer VLPs were compared. Binding of 39F to WT VLPs is consistent with the recognition of non-functional Env. 39F recognized UNC WT VLPs far more than WT VLPs but did not neutralize trimer VLPs. Tong2012 (neutralization, binding affinity)
• 39F: To improve the immunogenicity of HIV-1 Env vaccines, a chimeric gp140 trimer in which V1V2 region was replaced by the GM-CSF cytokine was constructed. We selected GM-CSF was selected because of its defined adjuvant activity. Chimeric EnvGM-CSF protein enhanced Env-specific Ab and T cell responses in mice compared with wild-type Env. Probing with neutralizing antibodies showed that both the Env and GM-CSF components of the chimeric protein were folded correctly. 3 proteins were studied: Env-wild-type, Env-ΔV1V2, Env-hGM-CSF. V3 MAb 39F recognized the three Env proteins equally well. vanMontfort2011 (vaccine antigen design)
• 39F: The antigenic structure of Gag-Env pseudovirions was characterized and it was shown that these particles can recapitulate native HIV virion epitope structures. 39F hybridoma cell line was shown to specifically recognize the Gag-Env pseudovirions. The Gag-Env pseudovirions were further used to identify a subset of antigen-specific B cells in chronically infected HIV subjects. Hicar2010 (binding affinity, structure)
• 39F: A set of Env variants with deletions in V1/V2 was constructed. Replication competent Env variants with V1/V2 deletions were obtained using virus evolution of V1/V2 deleted variants. Sensitivity of the evolved ΔV1V2 viruses was evaluated to study accessibility of their neutralization epitopes. 39F bound better to all uncleaved ΔV1V2 variants than to the full-length trimer, indicating better exposure of the 39F epitope when V1V2 domain is removed. Bontjer2010 (antibody binding site, binding affinity)
• 39F: GnTI virus (complex glycans of the neutralizing face are replaced by fully trimmed oligomannose stumps), and the N301Q mutant virus (glycan at position 301 is removed), were both significantly more sensitive to neutralization by 39F compared to the parental virus. This suggests that the antennae of the complex glycans play a significant role in protecting the V3 loop from Ab binding. Removal of terminal sialic acids on complex glycans by neuraminidase treatment did not affect virus susceptibility to 39F. 39F did not bind to native Env trimers. Binley2010 (glycosylation, neutralization, binding affinity)
• 3.9F: This human Ab was compared to the Abs derived from B-cell cultures from SHIV-infected rhesus macaques and human MAbs 2909 and IgGb12. 3.9F captured SF162, SF162ΔV1, and SF162ΔV2 but did not capture ΔV3 virions. Robinson2010 (binding affinity)
• 39F: Resurfaced stabilized core 3 (RSC3) protein was designed to preserve the antigenic structure of the gp120 CD4bs neutralizing surface but eliminate other antigenic regions of HIV-1. RSC3 did not show binding to 39F. Wu2010 (binding affinity)
• 39F: Sera from both gp120 DNA prime-protein boost immunized rabbits and from protein-only immunized rabbits competed for binding to 39F, indicating elicitation of 39F-like Abs by both immunization regimens. Competitive virus capture assay revealed higher titers of 39F-like Abs in animals immunized with DNA prime-protein boost than in protein-only immunized animals. Vaine2008 (vaccine antigen design)
• 39F: In order to assess whether small molecule CCR5 inhibitor resistant viruses were more sensitive to neutralization by NAbs, two escape mutant viruses, CC101.19 and D1/85.16, were tested for their sensitivity to neutralization by 39F, compared to the sensitivity of CC1/85 parental isolate and the CCcon.19 control isolate. The CC101.19 escape mutant has 4 sequence changes in V3 while the D1/85.16 has no sequence changes in V3 and relies on other sequence changes for its resistance. None of the control or resistant viruses were sensitive for neutralization by 39F, although 39F bound strongly to gp120 from CC1/85. These results indicate that V3-dependent and -independent changes responsible for CCR5 inhibitor resistance do not necessarily alter the exposure of V3 to some of the V3 Abs. Pugach2008 (co-receptor, neutralization, binding affinity)
• 39F: 39F neutralized two of the 15 subtype B isolates tested, 93TH305 and 92BR020c. Binding affinity of MAb 39F to gp120 was strongly reduced upon substitutions of Lys305 or Ile307 to Ala, and was moderately reduced upon substitutions of Ser306 and Ile309. Substitutions of Arg298 or Arg304 also diminished binding but not substantially, indicating that 39F interacts principally with the N-terminal flank of the V3 loop. Of the 13 viruses that were not neutralized by 39F, the resistance of 6 viruses could be explained by substitutions at important contact residues, while neutralization resistance of 7 viruses could not be explained by this. The fine specificity of 39F was mapped onto V3 in the structural context of gp120. Residues Lys305, Ser306, Ile307, and Ile309 form a distinct binding site on the N-terminal flank of V3, supporting the indication that 39F interacts with the N-terminal part of V3. Pantophlet2008 (antibody binding site, neutralization, variant cross-reactivity, binding affinity, structure)
• 39F: 24 broadly neutralizing plasmas from HIV-1 subtype B and C infected individuals were investigated using a series of mapping methods to identify viral epitopes targeted by NAbs. V3 Ab activity was measured by the abilities of the plasmas to inhibit capture of JR-FL virus particles by 39F. Modest titers were exhibited by subtype B plasmas, while subtype C plasmas showed lower activities, suggesting subtype-specific V3 loop binding. Binley2008 (neutralization, subtype comparisons)
• 39F: This review summarizes data on the development of HIV-1 centralized genes (consensus and ancestral) for induction of neutralizing antibody responses. Functionality and conformation of native epitopes in proteins based on the centralized genes was tested and confirmed by binding to 39F and other MAbs. Gao2007 (antibody binding site, review)
• 39F: Guinea pigs were immunized with gp120 protein, or with three types of VLPs containing disulfide-shackled functional trimers (SOS-VLP), uncleaved nonfunctional Env (UNC-VLP), naked VLP bearing no Env. 39F was used in a capture assay showing that most of the SOS-VLP and UNC-VLP sera contained high titers of anti-V3 Abs. gp120 sera showed only moderate titers of V3 competing Abs. Crooks2007 (neutralization)
• 39F: Interactions of this Ab with gp120 monomer and two cleavage-defective gp140 trimers were studied. It was shown that 39F interactions with the soluble monomers and trimers were minimally affected by GA cross-linking of the proteins, indicating that the 39F epitope was maintained after cross-linking. This Ab was associated with a small entropy change upon gp120 binding. This Ab was shown to have a kinetic advantage as it bound to gp120 faster than other less neutralizing Abs. 39F successfully recognized untreated trimers and monomer expressed on cell surfaces but this recognition was decreased by cross-linking indicating that differences exist between the soluble trimers and native proteins. Yuan2006 (antibody binding site, antibody interactions, kinetics, binding affinity)
• 39F: A stable trimerization motif, GCN4, was appended to the C terminus of YU2gp120 to obtain stable gp120 trimers (gp120-GCN4). Each trimer subunit was capable of binding IgG1b12, indicating that they were at least 85% active. D457V mutation in the CD4 binding site resulted in a decreased affinity of the gp120-GCN4 for CD4, but the mutation did not affect binding of 39F. 39F was able to bind to both wildtype gp120, gp120-GCN4, and to the respective corresponding mutant molecules D457Vgp120 and D457Vgp120-GCN4 with the similar affinities. Pancera2005a (binding affinity)
• 39F: R-FL and YU2 HIV-1 strains were not neutralized by39F. 39F and other non-neutralizing Abs only recognized JR-FL cleavage-defective glycoproteins, while the neutralizing Abs (2G12 and IgG1b12) recognized both cleavage competent and cleavage-defective glycoproteins. It is suggested that an inefficient env glycoprotein precursor cleavage exposes non-neutralizing determinants, while only neutralizing regions remain accessible on efficiently cleaved spikes. For YU2, both cleavage-competent and -defective glycoproteins were recognized by both neutralizing and non-neutralizing Abs. 39F, along with other Abs able to neutralize lab-adapted isolates, displayed enhanced viral entry at higher Ab concentrations, whereas the Abs that cannot neutralize any virus did not display such enhancement. Pancera2005 (antibody binding site, enhancing activity, neutralization, binding affinity)
• 39F: CXCR4-using HXBc2 strain and CCR5-using YU2 strain differed from each other in amino acid residues 325 and 326 at the base of the V3 loop. Changing the residues 325 and 326 in the HXBc2 from the amino acids predominant in the CXCR4-using strains to amino acids predominant in the CCR5-using strains did not result in binding of 39F to HXBc2. Xiang2005 (antibody binding site, co-receptor)
• 39F: 29 subtype B V3 peptides were designed and used for immunization of guinea pigs. Peptides that induced Abs that neutralized more than 3 HIV isolates were shown to bind to this Ab better than peptides unable to induce neutralization of any of the HIV-1 primary isolates. Haynes2006 (neutralization, binding affinity)
• 39F: The gp140δCFI protein of CON-S M group consensus protein and gp140CFI and gp140CF proteins of CON6 and WT viruses from HIV-1 subtypes A, B and C were expressed in recombinant vaccinia viruses and tested as immunogens in guinea pigs. 39F was shown to bind specifically to all recombinant proteins except for the gp140δFI derived from subtype C virus. The specific binding of this Ab to CON-S indicated that its conformational epitope was intact. 39F also bound specifically to the two subtype B gp120 proteins tested. Liao2006 (antibody binding site, vaccine antigen design, subtype comparisons)
• 39F: Antigens were designed to attempt to target immune responses toward the IgG1b12 epitope, while minimizing antibody responses to less desirable epitopes. One construct had a series of substitutions near the CD4 binding site (GDMR), the other had 7 additional glycans (mCHO). The 2 constructs did not elicit b12-like neutralizing antibodies, but both antigens successfully dampened other responses that were intended to be dampened, while not obscuring b12 binding. V3 MAbs (447-52D, 19b, F245-B4e8 and 39F) bound to the GDMR antigen, but either did not bind or had diminished binding to mCHO. Selvarajah2005 (vaccine antigen design, vaccine-induced immune responses)
• 39F: By adding N-linked glycosylation sites to gp120, epitope masking of non-neutralizing epitopes can be achieved leaving the IgG1b12 binding site intact. This concept was originally tested with the addition of four glycosylation sites, but binding to b12 was reduced. It was modified here to exclude the C1 N-terminal region, and to include only three additional glycosylation sites. This modified protein retains full b12 binding affinity and it masks other potentially competing epitopes, and does not bind to 21 other MAbs to 7 epitopes on gp120, including 39F. To inhibit 39F binding, Arg 304 and Lys 305 had to be changed to Ala. Pantophlet2004 (vaccine antigen design)
• 39F: Thermodynamics of binding to gp120 was measured using isothermal titration calorimetry for sCD4, 17b, b12, 48d, F105, 2G12 and C11 to intact YU2 and the HXBc2 core. The free energy of binding was similar, and not only CD4 but MAb ligands induced thermodynamic changes in gp120 that were independent of whether the core or the full gp120 protein was used. Non-neutralizing CD4BS and CD4i MAbs had large entropy contributions to free energy (mean: 26.1 kcal/mol) of binding to the gp120 monomer, except the potent CD4BS neutralizing MAb b6 had a much smaller value of 5.7 kcal/mol. High values suggest surface burial or protein folding and ordering of amino acids. Variable loop MAbs (L17, L78, 19b, 39F, Ag1211, D0142, and G3-2999) MAbs that bind to the N and C termini (211/c, A32, L100, P35, and C11) do not have dramatic entropy changes. These results suggest that while the trimeric Env complex has four surfaces, a non-neutralizing face (occluded on the oligomer), a variable face, a neutralizing face and a silent face (protected by carbohydrate masking), gp120 monomers further protect receptor binding sites by conformational or entropic masking, requiring a large energy handicap for Ab binding not faced by other anti-gp120 Abs. Kwong2002 (antibody binding site)
• 39F: HIV-1 gp160deltaCT (cytoplasmic tail-deleted) proteoliposomes (PLs) containing native, trimeric envelope glycoproteins from R5 strains YU2 and JRFL, and X4 strain HXBc2, were made in a physiologic membrane setting as candidate immunogens for HIV vaccines -- 2F5 bound to gp160deltaCT with a reconstituted membrane ten-fold better than the same protein on beads -- anti-CD4BS MAbs IgG1b12 and F105, A32 (C1-C4), C11 (C1-C5), and 39F (V3) MAbs bound gp160deltaCT PLs indistinguishably from gp160deltaCT expressed on the cell surface. Grundner2002
• 39F: Uncleaved soluble gp140 (YU2 strain, R5 primary isolate) can be stabilized in an oligomer by fusion with a C-term trimeric GCN4 motif or using a T4 trimeric motif derived from T4 bacteriophage fibritin -- stabilized oligomer gp140 delta683(-FT) showed strong preferential recognition by NAbs IgG1b12 and 2G12 relative to the gp120 monomer, in contrast to poorly neutralizing MAbs F105, F91, 17b, 48d, and 39F which showed reduced levels of binding, and C11, A32, and 30D which did not bind the stabilized oligomer. Yang2002

References

Showing 37 of 37 references.

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Julien2015 Jean-Philippe Julien, Jeong Hyun Lee, Gabriel Ozorowski, Yuanzi Hua, Alba Torrents de la Peña, Steven W. de Taeye, Travis Nieusma, Albert Cupo, Anila Yasmeen, Michael Golabek, Pavel Pugach, P. J. Klasse, John P. Moore, Rogier W. Sanders, Andrew B. Ward, and Ian A. Wilson. Design and Structure of Two HIV-1 Clade C SOSIP.664 Trimers That Increase the Arsenal of Native-Like Env Immunogens. Proc. Natl. Acad. Sci. U.S.A., 112(38):11947-11952, 22 Sep 2015. PubMed ID: 26372963. Show all entries for this paper.

Kwong2002 Peter D. Kwong, Michael L. Doyle, David J. Casper, Claudia Cicala, Stephanie A. Leavitt, Shahzad Majeed, Tavis D. Steenbeke, Miro Venturi, Irwin Chaiken, Michael Fung, Hermann Katinger, Paul W. I. H. Parren, James Robinson, Donald Van Ryk, Liping Wang, Dennis R. Burton, Ernesto Freire, Richard Wyatt, Joseph Sodroski, Wayne A. Hendrickson, and James Arthos. HIV-1 Evades Antibody-Mediated Neutralization through Conformational Masking of Receptor-Binding Sites. Nature, 420(6916):678-682, 12 Dec 2002. Comment in Nature. 2002 Dec 12;420(6916):623-4. PubMed ID: 12478295. Show all entries for this paper.

Liao2006 Hua-Xin Liao, Laura L. Sutherland, Shi-Mao Xia, Mary E. Brock, Richard M. Scearce, Stacie Vanleeuwen, S. Munir Alam, Mildred McAdams, Eric A. Weaver, Zenaido Camacho, Ben-Jiang Ma, Yingying Li, Julie M. Decker, Gary J. Nabel, David C. Montefiori, Beatrice H. Hahn, Bette T. Korber, Feng Gao, and Barton F. Haynes. A Group M Consensus Envelope Glycoprotein Induces Antibodies That Neutralize Subsets of Subtype B and C HIV-1 Primary Viruses. Virology, 353(2):268-282, 30 Sep 2006. PubMed ID: 17039602. Show all entries for this paper.

Melchers2012 Mark Melchers, Ilja Bontjer, Tommy Tong, Nancy P. Y. Chung, Per Johan Klasse, Dirk Eggink, David C. Montefiori, Maurizio Gentile, Andrea Cerutti, William C. Olson, Ben Berkhout, James M. Binley, John P. Moore, and Rogier W. Sanders. Targeting HIV-1 Envelope Glycoprotein Trimers to B Cells by Using APRIL Improves Antibody Responses. J. Virol., 86(5):2488-2500, Mar 2012. PubMed ID: 22205734. Show all entries for this paper.

Pancera2005 Marie Pancera and Richard Wyatt. Selective Recognition of Oligomeric HIV-1 Primary Isolate Envelope Glycoproteins by Potently Neutralizing Ligands Requires Efficient Precursor Cleavage. Virology, 332(1):145-156, 5 Feb 2005. PubMed ID: 15661147. Show all entries for this paper.

Pancera2005a Marie Pancera, Jacob Lebowitz, Arne Schön, Ping Zhu, Ernesto Freire, Peter D. Kwong, Kenneth H. Roux, Joseph Sodroski, and Richard Wyatt. Soluble Mimetics of Human Immunodeficiency Virus Type 1 Viral Spikes Produced by Replacement of the Native Trimerization Domain with a Heterologous Trimerization Motif: Characterization and Ligand Binding Analysis. J. Virol., 79(15):9954-9969, Aug 2005. PubMed ID: 16014956. Show all entries for this paper.

Pantophlet2004 R. Pantophlet, I. A. Wilson, and D. R. Burton. Improved Design of an Antigen with Enhanced Specificity for the Broadly HIV-Neutralizing Antibody b12. Protein Eng. Des. Sel., 17(10):749-758, Oct 2004. PubMed ID: 15542540. Show all entries for this paper.

Pantophlet2008 Ralph Pantophlet, Terri Wrin, Lisa A. Cavacini, James E. Robinson, and Dennis R. Burton. Neutralizing Activity of Antibodies to the V3 Loop Region of HIV-1 gp120 Relative to Their Epitope Fine Specificity. Virology, 381(2):251-260, 25 Nov 2008. PubMed ID: 18822440. Show all entries for this paper.

Pugach2008 Pavel Pugach, Thomas J. Ketas, Elizabeth Michael, and John P. Moore. Neutralizing Antibody and Anti-Retroviral Drug Sensitivities of HIV-1 Isolates Resistant to Small Molecule CCR5 Inhibitors. Virology, 377(2):401-407, 1 Aug 2008. PubMed ID: 18519143. Show all entries for this paper.

Pugach2015 Pavel Pugach, Gabriel Ozorowski, Albert Cupo, Rajesh Ringe, Anila Yasmeen, Natalia de Val, Ronald Derking, Helen J. Kim, Jacob Korzun, Michael Golabek, Kevin de Los Reyes, Thomas J. Ketas, Jean-Philippe Julien, Dennis R. Burton, Ian A. Wilson, Rogier W. Sanders, P. J. Klasse, Andrew B. Ward, and John P. Moore. A Native-Like SOSIP.664 Trimer Based on an HIV-1 Subtype B env Gene. J. Virol., 89(6):3380-3395, Mar 2015. PubMed ID: 25589637. Show all entries for this paper.

Robinson2010 James E. Robinson, Kelly Franco, Debra Holton Elliott, Mary Jane Maher, Ashley Reyna, David C. Montefiori, Susan Zolla-Pazner, Miroslaw K. Gorny, Zane Kraft, and Leonidas Stamatatos. Quaternary Epitope Specificities of Anti-HIV-1 Neutralizing Antibodies Generated in Rhesus Macaques Infected by the Simian/Human Immunodeficiency Virus SHIVSF162P4. J. Virol., 84(7):3443-3453, Apr 2010. PubMed ID: 20106929. Show all entries for this paper.

Sanders2013 Rogier W. Sanders, Ronald Derking, Albert Cupo, Jean-Philippe Julien, Anila Yasmeen, Natalia de Val, Helen J. Kim, Claudia Blattner, Alba Torrents de la Peña, Jacob Korzun, Michael Golabek, Kevin de los Reyes, Thomas J. Ketas, Marit J. van Gils, C. Richter King, Ian A. Wilson, Andrew B. Ward, P. J. Klasse, and John P. Moore. A Next-Generation Cleaved, Soluble HIV-1 Env Trimer, BG505 SOSIP.664 gp140, Expresses Multiple Epitopes for Broadly Neutralizing but not Non-Neutralizing Antibodies. PLoS Pathog., 9(9):e1003618, Sep 2013. PubMed ID: 24068931. Show all entries for this paper.

Schiffner2016 Torben Schiffner, Natalia de Val, Rebecca A. Russell, Steven W. de Taeye, Alba Torrents de la Peña, Gabriel Ozorowski, Helen J. Kim, Travis Nieusma, Florian Brod, Albert Cupo, Rogier W. Sanders, John P. Moore, Andrew B. Ward, and Quentin J. Sattentau. Chemical Cross-Linking Stabilizes Native-Like HIV-1 Envelope Glycoprotein Trimer Antigens. J. Virol., 90(2):813-828, 28 Oct 2015. PubMed ID: 26512083. Show all entries for this paper.

Schiffner2018 Torben Schiffner, Jesper Pallesen, Rebecca A. Russell, Jonathan Dodd, Natalia de Val, Celia C. LaBranche, David Montefiori, Georgia D. Tomaras, Xiaoying Shen, Scarlett L. Harris, Amin E. Moghaddam, Oleksandr Kalyuzhniy, Rogier W. Sanders, Laura E. McCoy, John P. Moore, Andrew B. Ward, and Quentin J. Sattentau. Structural and Immunologic Correlates of Chemically Stabilized HIV-1 Envelope Glycoproteins. PLoS Pathog., 14(5):e1006986, May 2018. PubMed ID: 29746590. Show all entries for this paper.

Selvarajah2005 Suganya Selvarajah, Bridget Puffer, Ralph Pantophlet, Mansun Law, Robert W. Doms, and Dennis R. Burton. Comparing Antigenicity and Immunogenicity of Engineered gp120. J. Virol., 79(19):12148-12163, Oct 2005. PubMed ID: 16160142. Show all entries for this paper.

Tokatlian2018 Talar Tokatlian, Daniel W. Kulp, Andrew A. Mutafyan, Christopher A. Jones, Sergey Menis, Erik Georgeson, Mike Kubitz, Michael H. Zhang, Mariane B. Melo, Murillo Silva, Dong Soo Yun, William R. Schief, and Darrell J. Irvine. Enhancing Humoral Responses Against HIV Envelope Trimers via Nanoparticle Delivery with Stabilized Synthetic Liposomes. Sci. Rep., 8(1):16527, 8 Nov 2018. PubMed ID: 30410003. Show all entries for this paper.

Tomaras2011 Georgia D. Tomaras, James M. Binley, Elin S. Gray, Emma T. Crooks, Keiko Osawa, Penny L. Moore, Nancy Tumba, Tommy Tong, Xiaoying Shen, Nicole L. Yates, Julie Decker, Constantinos Kurt Wibmer, Feng Gao, S. Munir Alam, Philippa Easterbrook, Salim Abdool Karim, Gift Kamanga, John A. Crump, Myron Cohen, George M. Shaw, John R. Mascola, Barton F. Haynes, David C. Montefiori, and Lynn Morris. Polyclonal B Cell Responses to Conserved Neutralization Epitopes in a Subset of HIV-1-Infected Individuals. J. Virol., 85(21):11502-11519, Nov 2011. PubMed ID: 21849452. Show all entries for this paper.

Tong2012 Tommy Tong, Ema T. Crooks, Keiko Osawa, and James M. Binley. HIV-1 Virus-Like Particles Bearing Pure Env Trimers Expose Neutralizing Epitopes but Occlude Nonneutralizing Epitopes. J. Virol., 86(7):3574-3587, Apr 2012. PubMed ID: 22301141. Show all entries for this paper.

Vaine2008 Michael Vaine, Shixia Wang, Emma T. Crooks, Pengfei Jiang, David C. Montefiori, James Binley, and Shan Lu. Improved Induction of Antibodies against Key Neutralizing Epitopes by Human Immunodeficiency Virus Type 1 gp120 DNA Prime-Protein Boost Vaccination Compared to gp120 Protein-Only Vaccination. J. Virol., 82(15):7369-7378, Aug 2008. PubMed ID: 18495775. Show all entries for this paper.

vanMontfort2011 Thijs van Montfort, Mark Melchers, Gözde Isik, Sergey Menis, Po-Ssu Huang, Katie Matthews, Elizabeth Michael, Ben Berkhout, William R. Schief, John P. Moore, and Rogier W. Sanders. A Chimeric HIV-1 Envelope Glycoprotein Trimer with an Embedded Granulocyte-Macrophage Colony-Stimulating Factor (GM-CSF) Domain Induces Enhanced Antibody and T Cell Responses. J. Biol. Chem., 286(25):22250-22261, 24 Jun 2011. PubMed ID: 21515681. Show all entries for this paper.

Wu2010 Xueling Wu, Zhi-Yong Yang, Yuxing Li, Carl-Magnus Hogerkorp, William R. Schief, Michael S. Seaman, Tongqing Zhou, Stephen D. Schmidt, Lan Wu, Ling Xu, Nancy S. Longo, Krisha McKee, Sijy O'Dell, Mark K. Louder, Diane L. Wycuff, Yu Feng, Martha Nason, Nicole Doria-Rose, Mark Connors, Peter D. Kwong, Mario Roederer, Richard T. Wyatt, Gary J. Nabel, and John R. Mascola. Rational Design of Envelope Identifies Broadly Neutralizing Human Monoclonal Antibodies to HIV-1. Science, 329(5993):856-861, 13 Aug 2010. PubMed ID: 20616233. Show all entries for this paper.

Xiang2005 Shi-Hua Xiang, Michael Farzan, Zhihai Si, Navid Madani, Liping Wang, Eric Rosenberg, James Robinson, and Joseph Sodroski. Functional Mimicry of a Human Immunodeficiency Virus Type 1 Coreceptor by a Neutralizing Monoclonal Antibody. J. Virol., 79(10):6068-6077, May 2005. PubMed ID: 15857992. Show all entries for this paper.

Yang2002 Xinzhen Yang, Juliette Lee, Erin M. Mahony, Peter D. Kwong, Richard Wyatt, and Joseph Sodroski. Highly Stable Trimers Formed by Human Immunodeficiency Virus Type 1 Envelope Glycoproteins Fused with the Trimeric Motif of T4 Bacteriophage Fibritin. J. Virol., 76(9):4634-4642, 1 May 2002. PubMed ID: 11932429. Show all entries for this paper.

Yuan2006 Wen Yuan, Jessica Bazick, and Joseph Sodroski. Characterization of the Multiple Conformational States of Free Monomeric and Trimeric Human Immunodeficiency Virus Envelope Glycoproteins after Fixation by Cross-Linker. J. Virol., 80(14):6725-6737, Jul 2006. PubMed ID: 16809278. Show all entries for this paper.