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Displaying record number 2825
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| MAb ID |
3BC176 |
| HXB2 Location |
gp160 |
gp160 Epitope Map
|
| Author Location |
|
| Epitope |
|
| Ab Type |
gp41-gp41 interface |
| Neutralizing |
P View neutralization details |
| Contacts and Features |
View contacts and features |
|
Species
(Isotype)
|
human(IgG) |
| Patient |
Patient 3 |
| Immunogen |
HIV-1 infection |
| Country |
Germany |
| Keywords |
antibody binding site, antibody generation, antibody lineage, assay or method development, binding affinity, broad neutralizer, chimeric antibody, escape, genital and mucosal immunity, immunoprophylaxis, immunotherapy, neutralization, review, structure, vaccine antigen design |
Notes
Showing 13 of
13 notes.
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3BC176: 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 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 like 3BC176 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)
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3BC176: This review classified and mapped the binding regions of 32 bNAbs isolated 2010-2016.
Wu2016
(review)
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3BC176: bNAbs were found to have potent activating but not inhibitory FcγR-mediated effector function that can confer protection by blocking viral entry or suppressing viremia. bNAb activity is augmented with engineered Fc domains when assessed in in vivo models of HIV-1 entry or in therapeutic models using HIV-1-infected humanized mice. Enhanced FcγR engagement is not restricted by epitope specificity or neutralization potency as chimeras composed of human anti-V3/CD4i (a conformational epitope) 3BC176 Fab and mouse Fc had improved or reduced in vivo activity depending on the Fc used.
Bournazos2014
(neutralization, chimeric antibody)
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3BC176: Two stable homogenous gp140 Env trimer spikes, Clade A 92UG037.8 Env and Clade C C97ZA012 Env, were identified. 293T cells stably transfected with either presented fully functional surface timers, 50% of which were uncleaved. A panel of neutralizing and non-neutralizing Abs were tested for binding to the trimers. MPER Ab 3BC176 did not bind cell surface whether gp160 was missing C-terminal or not, but did neutralize 92UG037.8 HIV-1 isolate weakly.
Chen2015
(neutralization, binding affinity)
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3BC176: 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 bNAb 3BC176 to trimers was unaffected by trimer cross-linking.
Schiffner2016
(assay or method development, binding affinity, structure)
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3BC176: 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. bNAb 3BC176, neutralized BG505.T332N, the pseudoviral equivalent of the immunogen BG505 SOSIP.664 gp140, and was shown to recognize and bind the immunogen too.
Sanders2013
(assay or method development, neutralization, binding affinity)
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3BC176: Structural analyses mapped the epitopes of 3BC315 and 3BC176 using their Fabs bound to BG505.SOSIP.664. A conserved glycan at N88 was shown to play a role in the binding kinetics of the 2 mAbs. 3BC315 binds between two gp41 subunits and neutralizes the virus by accelerating trimer decay; this modality is unlike other between-subunit mAbs such as 35O22, though all 3 bNAbs do not require MPER to bind.
Lee2015
(antibody binding site, structure)
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3BC176: A subset of bNAbs that inhibit both cell-free and cell-mediated infection in primary CD4+ lymphocytes have been identified. These antibodies target either the CD4-binding site or the glycan/V3 loop on HIV-1 gp120 and act at low concentrations by inhibiting multiple steps of viral cell to cell transmission. This property of blocking viral transmission to plasmacytoid DCs and interfering with type-I IFN production should be considered an important characteristic defining the potency for therapeutic or prophylactic antiviral strategies. 3BC176 was only partially effective in blocking cell to cell transmission of viruses.
Malbec2013
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3BC176: This study reports the generation of a human CD4- and human CCR5-expressing transgenic luciferase reporter mouse that facilitates measurement of peritoneal and genitomucosal HIV-1 pseudovirus entry in vivo for the preclinical evaluation of prophylactic or vaccine candidates. Pretreatment with 3BC176 led to an ≈85% reduction of infection.
Gruell2013
(genital and mucosal immunity)
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3BC176: This is a review of a satellite symposium at the AIDS Vaccine 2012 conference, focusing on antibody gene transfer. Michel Nussenzweig presented studies exploring the possibility that antibodies might also be used to treat established infections. They found that combinations of five broadly neutralizing antibodies NIH45-46G54W, PG16, PGT128, 10-1074 and 3BC176 MAbs, controlled HIV-1 infection and suppressed the viral load to below the limit of detection during the entire therapy period of up to 60 days.
Balazs2013
(immunoprophylaxis, immunotherapy)
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3BC176: Somatic hypermutations are preferably found in CDR loops, which alter the Ab combining sites, but not the overall structure of the variable domain. FWR of CDR are usually resistant to and less tolerant of mutations. This study reports that most bnAbs require somatic mutations in the FWRs which provide flexibility, increasing Ab breadth and potency. To determine the consequence of FWR mutations the framework residues were reverted to the Ab's germline counterpart (FWR-GL) and binding and neutralizing properties were then evaluated. 3BNC176 was used in the experiment to study the effect of a FWR insertion and a C beta strand Proline in clone RU01.
Klein2013
(neutralization, structure, antibody lineage)
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3BC176: HIV therapy by combinations of 5 bNAbs was tested in YU2-infected humanized mice. Penta-mix (PG16, 45-46W, 3BC176, PGT128 and 10-1074) was the most effective in controlling viraemia compared to tri-mix (PG16, 45-46, 3BC176) and monotherapy (Fig S9). 3BC176 recognizes a conformational, yet-to-be-defined epitope and neutralizes CD4bs antibodies-resistant HIV-1 strains.
Klein2012a
(escape, immunotherapy)
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3BC176: A single-cell Ab cloning method is described to isolate neutralizing Abs using truncated gp160 transfected cells as bait. Among the 15 Abs reported, only 3BC176 and 3BC315 are found to be broadly neutralizing and bind to a novel conformational HIV-1 spike epitope. 3BC176 neutralized 10/36 viruses, mainly Clade C and D, complementing the spectrum of viruses neutralized by anti-CD4bs. 3BC176 recognized a conformational, yet-to-be-defined epitope in close proximity to the V3 loop and the CD4i site. The epitope differs from the epitopes that are recognized by traditional anti-V3 loop, anti-CD4bs, and anti-CD4i Abs.
Klein2012
(antibody binding site, antibody generation, neutralization, broad neutralizer)
References
Showing 13 of
13 references.
Isolation Paper
Klein2012
Florian Klein, Christian Gaebler, Hugo Mouquet, D. Noah Sather, Clara Lehmann, Johannes F. Scheid, Zane Kraft, Yan Liu, John Pietzsch, Arlene Hurley, Pascal Poignard, Ten Feizi, Lynn Morris, Bruce D. Walker, Gerd Fätkenheuer, Michael S. Seaman, Leonidas Stamatatos, and Michel C. Nussenzweig. Broad Neutralization by a Combination of Antibodies Recognizing the CD4 Binding Site and a New Conformational Epitope on the HIV-1 Envelope Protein. J. Exp. Med., 209(8):1469-1479, 30 Jul 2012. PubMed ID: 22826297.
Show all entries for this paper.
Balazs2013
Alejandro B. Balazs and Anthony P. West, Jr. Antibody Gene Transfer for HIV Immunoprophylaxis. Nat. Immunol., 14(1):1-5, Jan 2013. PubMed ID: 23238748.
Show all entries for this paper.
Bournazos2014
Stylianos Bournazos, Florian Klein, John Pietzsch, Michael S. Seaman, Michel C. Nussenzweig, and Jeffrey V. Ravetch. Broadly Neutralizing Anti-HIV-1 Antibodies Require Fc Effector Functions for In Vivo Activity. Cell, 158(6):1243-1253, 11 Sep 2014. PubMed ID: 25215485.
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Chen2015
Jia Chen, James M. Kovacs, Hanqin Peng, Sophia Rits-Volloch, Jianming Lu, Donghyun Park, Elise Zablowsky, Michael S. Seaman, and Bing Chen. Effect of the Cytoplasmic Domain on Antigenic Characteristics of HIV-1 Envelope Glycoprotein. Science, 349(6244):191-195, 10 Jul 2015. PubMed ID: 26113642.
Show all entries for this paper.
Gruell2013
Henning Gruell, Stylianos Bournazos, Jeffrey V. Ravetch, Alexander Ploss, Michel C. Nussenzweig, and John Pietzsch. Antibody and Antiretroviral Preexposure Prophylaxis Prevent Cervicovaginal HIV-1 Infection in a Transgenic Mouse Model. J. Virol., 87(15):8535-8544, Aug 2013. PubMed ID: 23720722.
Show all entries for this paper.
Klein2012a
Florian Klein, Ariel Halper-Stromberg, Joshua A. Horwitz, Henning Gruell, Johannes F. Scheid, Stylianos Bournazos, Hugo Mouquet, Linda A. Spatz, Ron Diskin, Alexander Abadir, Trinity Zang, Marcus Dorner, Eva Billerbeck, Rachael N. Labitt, Christian Gaebler, Paola M. Marcovecchio, Reha-Baris Incesu, Thomas R. Eisenreich, Paul D. Bieniasz, Michael S. Seaman, Pamela J. Bjorkman, Jeffrey V. Ravetch, Alexander Ploss, and Michel C. Nussenzweig. HIV Therapy by a Combination of Broadly Neutralizing Antibodies in Humanized Mice. Nature, 492(7427):118-122, 6 Dec 2012. PubMed ID: 23103874.
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Klein2013
Florian Klein, Ron Diskin, Johannes F. Scheid, Christian Gaebler, Hugo Mouquet, Ivelin S. Georgiev, Marie Pancera, Tongqing Zhou, Reha-Baris Incesu, Brooks Zhongzheng Fu, Priyanthi N. P. Gnanapragasam, Thiago Y. Oliveira, Michael S. Seaman, Peter D. Kwong, Pamela J. Bjorkman, and Michel C. Nussenzweig. Somatic Mutations of the Immunoglobulin Framework Are Generally Required for Broad and Potent HIV-1 Neutralization. Cell, 153(1):126-138, 28 Mar 2013. PubMed ID: 23540694.
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Lee2015
Jeong Hyun Lee, Daniel P. Leaman, Arthur S. Kim, Alba Torrents de la Peña, Kwinten Sliepen, Anila Yasmeen, Ronald Derking, Alejandra Ramos, Steven W. de Taeye, Gabriel Ozorowski, Florian Klein, Dennis R. Burton, Michel C. Nussenzweig, Pascal Poignard, John P. Moore, Per Johan Klasse, Rogier W. Sanders, Michael B. Zwick, Ian A. Wilson, and Andrew B. Ward. Antibodies to a Conformational Epitope on gp41 Neutralize HIV-1 by Destabilizing the Env spike. Nat. Commun., 6:8167, 25 Sep 2015. PubMed ID: 26404402.
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Malbec2013
Marine Malbec, Françoise Porrot, Rejane Rua, Joshua Horwitz, Florian Klein, Ari Halper-Stromberg, Johannes F. Scheid, Caroline Eden, Hugo Mouquet, Michel C. Nussenzweig, and Olivier Schwartz. Broadly Neutralizing Antibodies That Inhibit HIV-1 Cell to Cell Transmission. J. Exp. Med., 210(13):2813-2821, 16 Dec 2013. PubMed ID: 24277152.
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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.
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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.
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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.
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Wu2016
Xueling Wu and Xiang-Peng Kong. Antigenic Landscape of the HIV-1 Envelope and New Immunological Concepts Defined by HIV-1 Broadly Neutralizing Antibodies. Curr. Opin. Immunol., 42:56-64, Oct 2016. PubMed ID: 27289425.
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