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Displaying record number 2650
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MAb ID |
PGT143 (PGT-143) |
HXB2 Location |
Env |
Env Epitope Map
|
Author Location |
|
Epitope |
|
Ab Type |
gp120 V2 // V2 glycan(V2g) // V2 apex, quaternary structure |
Neutralizing |
P View neutralization details |
Contacts and Features |
View contacts and features |
Species
(Isotype)
|
human(IgG) |
Patient |
Donor 84 |
Immunogen |
HIV-1 infection |
Keywords |
antibody binding site, antibody gene transfer, antibody generation, antibody lineage, antibody sequence, broad neutralizer, computational prediction, immunoprophylaxis, neutralization, review, structure, vaccine antigen design, vaccine-induced immune responses, variant cross-reactivity |
Notes
Showing 15 of
15 notes.
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PGT143: Membrane-bound BG505-based ApexGT Env trimer vaccine candidates, which bind to inferred germline variants of bnAbs PCT64 and PG9, were developed through directed evolution and characterized. PCT64 and PG9/PG16 lineages were identified to have the highest and most consistent frequencies of precursors in 14 HIV-unexposed donors among 5 V2-apex-targeting bnAb classes which also included PGT141-145/PGDM1400-1414, CH01-CH04 and CAP256-VRC26 lineages. PGT141-145/PGDM1400-1414 heavy chain (HC) precursors were found in only 6/14 donors with a median frequency of 0.17 precursors per million BCRs.
Willis2022
(antibody lineage)
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PGT143: Extensive structural and biochemical analyses demonstrated that PGT145 achieves recognition and neutralization by targeting quaternary structure of the cationic trimer apex with long and unusually stabilized anionic β-hairpin HCDR3 loops. Solved X-ray structure of unliganded PGT143 Fabs exhibited PGT145-like long anti-parallel β-hairpin HCDR3 motifs with extensive inter-CDR stabilizing interactions. In BG505.Env.C2 alanine-scanning neutralization assays, PGT143 had similar results as PGT145 consistent with the proposed binding mechanism.
Lee2017
(antibody binding site, neutralization, structure)
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PGT143: This study demonstrated that bNAb signatures can be utilized to engineer HIV-1 Env vaccine immunogens eliciting Ab responses with greater neutralization breadth. Data from four large virus panels were used to comprehensively map viral signatures associated with bNAb sensitivity, hypervariable region characteristics, and clade effects. The bNAb signatures defined for the V2 epitope region were then employed to inform immunogen design in a proof-of-concept exploration of signature-based epitope targeted (SET) vaccines. V2 bNAb signature-guided mutations were introduced into Env 459C to create a trivalent vaccine which resulted in increased breadth of nAb responses compared with Env 459C alone. PGT143 was used for analyzing clade sensitivity and the V2Ab signature summaries (Table S1).
Bricault2019
(antibody binding site, neutralization, vaccine antigen design, computational prediction, broad neutralizer)
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PGT143: This review discusses the identification of super-Abs, where and how such Abs may be best applied and future directions for the field. Recombinant native-like HIV Env trimers have enabled the identification of PGT143, a potent ‘PG9-class’ bNAb. Antigenic region V2 apex (Table:1).
Walker2018
(antibody binding site, review, broad neutralizer)
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PGT143: HIV-1 bNAb eptiope networks were predicted using 4 algorithms informed by neutralization assays using 282 Env from multiclade viruses. Patch clusters of possible Ab epitope regions were tested for significant sensitivity by site-directed mutagenesis. Epitope (Ab binding site) networks of critical Env residues for 21 bNAb (b12, PG9, PG16, PGT121, PGT122, PGT123, PGT125, PGT126, PGT127, PGT128, PGT130, PGT131, PGT135, PGT136, PGT137, PGT141, PGT142, PGT143, PGT144, PGT145 and PGV04) were delineated and found to be located mostly in variable loops of gp120, particularly in V1/V2.
Evans2014
(antibody binding site, computational prediction)
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PGT143: For both PGT143 and PGT145, neutralization depended on the CDRH2 domain of the Ab heavy chain.
Andrabi2015
(neutralization)
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PGT143: Incomplete neutralization may decrease the ability of bnAbs to protect against HIV exposure. In order to determine the extent of non-sigmoidal slopes that plateau at <100% neutralization, a panel of 24 bnMAbs targeting different regions on Env was tested in a quantitative pseudovirus neutralization assay on a panel of 278 viral clones. All bNAbs had some viruses that they neutralized with a plateau <100%, but those targeting the V2 apex and MPER did so more often. All bnMAbs assayed had some viruses for which they had incomplete neutralization and non-sigmoidal neutralization curves. bNAbs were grouped into 3 groups based on their neutralization curves: group 1 antibodies neutralized more than 90% of susceptible viruses to >95% (PGT121-123, PGT125-128, PGT136, PGV04); group 2 was less effective, resulting in neutralization of 60-84% of susceptible viruses to >95% (b12, PGT130-131, PGT135, PGT137, PGT141-143, PGT145, 2G12, PG9); group 3 neutralized only 36-60% of susceptible viruses to >95% (PG16, PGT144, 2F5, 4E10).
McCoy2015
(neutralization)
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PGt143: Vectored Immuno Prophylaxis (VIP), involves passive immunization by viral vector-mediated delivery of genes encoding bnAbs for in vivo expression. Robust protection against virus infection was observed in preclinical settings when animals were given VIP to express monoclonal neutralizing Abs. This review article surveyed the status of antibody gene transfer, VIP experiments against HIV and its related virus conduced in humanized mice and macaque monkeys, and discuss the pros and cons of VIP and its opportunities and challenges towards clinical applications to control HIV/AIDS endemics.
Yang2014
(immunoprophylaxis, review, antibody gene transfer)
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PGT143: Computational prediction of bNAb epitopes from experimental neutralization activity data is presented. The approach relies on compressed sensing (CS) and mutual information (MI) methodologies and requires the sequences of the viral strains but does not require structural information. For PGT143, CS predicted 16 and MI predicted 1 position, overlapping in a position 166. Experimentally, PGT-143 binding was abolished by an alanine substitutions in both of these positions, causing a >6300 fold increase in the IC50 relative to wild type.
Ferguson2013
(computational prediction, broad neutralizer)
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PGT143: Although next-generation parallel sequencing techniques identify thousands of antibody somatic variants, the natural pairing between heavy and light chains is lost. This work suggests that it is possible to approximate them by comparing antibody heavy- and light-chain phylogenetic trees. Somatic variants of 10E8 from donor N152 and of antibodies PGT141-145 from donor 84 were studied. The heavy- and light-chain phylogenetic trees were remarkably similar in both cases.
Zhu2013
(antibody sequence)
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PGT143: This study uncovered a potentially significant contribution of VH replacement products which are highly enriched in IgH genes for the generation of anti-HIV Abs including anti-gp41, anti-V3 loop, anti-gp120, CD4i and PGT Abs. IgH encoding PGT Abs are likely generated from multiple rounds of VH replacements. The details of PGT143 VH replacement products in IgH gene and mutations and amino acid sequence analysis are described in Table 1, Table 2 and Fig 4.
Liao2013a
(antibody sequence)
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PGT143: Identification of broadly neutralizing antibodies, their epitopes on the HIV-1 spike, the molecular basis for their remarkable breadth, and the B cell ontogenies of their generation and maturation are reviewed. Ontogeny and structure-based classification is presented, based on MAb binding site, type (structural mode of recognition), class (related ontogenies in separate donors) and family (clonal lineage). This MAb's classification: gp120 V1V2 site, type not yet determined, PGt145 class, PGT145 family.
Kwong2012
(review, structure, broad neutralizer)
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PGT143: This review discusses how analysis of infection and vaccine candidate-induced antibodies and their genes may guide vaccine design. This MAb is listed as V1/V2 conformational epitope bnAb, isolated after 2009 by neutralization screening of cultured, unselected IgG+ memory B cells.
Bonsignori2012b
(vaccine antigen design, vaccine-induced immune responses, review)
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PGT143: The RV144 trial demonstrated 31% vaccine efficiency and antibodies against the HIV envelop V1/V2 inversely correlated with infection. This paper showed that vaccine induced immune responses against V1/V2 selectively impact or sieve HIV-1 break through viruses and the immune responses were associated with two signatures in V1/V2 at AA position 169 and 181. PGT143 was referred as a quaternary-structure-preferring (QSP) Ab which exhibited that mutations at 169 and 181 were associated with alterations in neutralization. These result suggest that K169X mutations could be a mechanism to avoid QSP and other V2-specific antibodies.
Rolland2012
(vaccine-induced immune responses)
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PGT143: Neutralizing antibody repertoires of 4 HIV-infected donors with remarkably broad and potent neutralizing responses were probed. 17 new monoclonal antibodies that neutralize broadly across clades were rescued. These MAbs were not polyreactive. All MAbs exhibited broad cross-clade neutralizing activity, but several showed exceptional potency. PGT143 neutralized 56% of 162 isolates from major HIV clades at IC50<50 μg/ml. PGT 141–145 MAbs exhibited a strong preference for membrane-bound, trimeric HIV Env, suggesting that these MAbs broadly bound to quaternary epitopes similar to those of PG9 and PG16. This hypothesis was confirmed by competition studies, N160K sensitivity and an inability to neutralize JR-CSF pseudoviruses expressing homogenous Man9GlcNAc2 glycans.
Walker2011
(antibody binding site, antibody generation, variant cross-reactivity, broad neutralizer)
References
Showing 15 of
15 references.
Isolation Paper
Walker2011
Laura M. Walker, Michael Huber, Katie J. Doores, Emilia Falkowska, Robert Pejchal, Jean-Philippe Julien, Sheng-Kai Wang, Alejandra Ramos, Po-Ying Chan-Hui, Matthew Moyle, Jennifer L. Mitcham, Phillip W. Hammond, Ole A. Olsen, Pham Phung, Steven Fling, Chi-Huey Wong, Sanjay Phogat, Terri Wrin, Melissa D. Simek, Protocol G. Principal Investigators, Wayne C. Koff, Ian A. Wilson, Dennis R. Burton, and Pascal Poignard. Broad Neutralization Coverage of HIV by Multiple Highly Potent Antibodies. Nature, 477(7365):466-470, 22 Sep 2011. PubMed ID: 21849977.
Show all entries for this paper.
Andrabi2015
Raiees Andrabi, James E. Voss, Chi-Hui Liang, Bryan Briney, Laura E. McCoy, Chung-Yi Wu, Chi-Huey Wong, Pascal Poignard, and Dennis R. Burton. Identification of Common Features in Prototype Broadly Neutralizing Antibodies to HIV Envelope V2 Apex to Facilitate Vaccine Design. Immunity, 43(5):959-973, 17 Nov 2015. PubMed ID: 26588781.
Show all entries for this paper.
Bonsignori2012b
Mattia Bonsignori, S. Munir Alam, Hua-Xin Liao, Laurent Verkoczy, Georgia D. Tomaras, Barton F. Haynes, and M. Anthony Moody. HIV-1 Antibodies from Infection and Vaccination: Insights for Guiding Vaccine Design. Trends Microbiol., 20(11):532-539, Nov 2012. PubMed ID: 22981828.
Show all entries for this paper.
Bricault2019
Christine A. Bricault, Karina Yusim, Michael S. Seaman, Hyejin Yoon, James Theiler, Elena E. Giorgi, Kshitij Wagh, Maxwell Theiler, Peter Hraber, Jennifer P. Macke, Edward F. Kreider, Gerald H. Learn, Beatrice H. Hahn, Johannes F. Scheid, James M. Kovacs, Jennifer L. Shields, Christy L. Lavine, Fadi Ghantous, Michael Rist, Madeleine G. Bayne, George H. Neubauer, Katherine McMahan, Hanqin Peng, Coraline Chéneau, Jennifer J. Jones, Jie Zeng, Christina Ochsenbauer, Joseph P. Nkolola, Kathryn E. Stephenson, Bing Chen, S. Gnanakaran, Mattia Bonsignori, LaTonya D. Williams, Barton F. Haynes, Nicole Doria-Rose, John R. Mascola, David C. Montefiori, Dan H. Barouch, and Bette Korber. HIV-1 Neutralizing Antibody Signatures and Application to Epitope-Targeted Vaccine Design. Cell Host Microbe, 25(1):59-72.e8, 9 Jan 2019. PubMed ID: 30629920.
Show all entries for this paper.
Evans2014
Mark C. Evans, Pham Phung, Agnes C. Paquet, Anvi Parikh, Christos J. Petropoulos, Terri Wrin, and Mojgan Haddad. Predicting HIV-1 Broadly Neutralizing Antibody Epitope Networks Using Neutralization Titers and a Novel Computational Method. BMC Bioinformatics, 15:77, 19 Mar 2014. PubMed ID: 24646213.
Show all entries for this paper.
Ferguson2013
Andrew L. Ferguson, Emilia Falkowska, Laura M. Walker, Michael S. Seaman, Dennis R. Burton, and Arup K. Chakraborty. Computational Prediction of Broadly Neutralizing HIV-1 Antibody Epitopes from Neutralization Activity Data. PLoS One, 8(12):e80562, 2013. PubMed ID: 24312481.
Show all entries for this paper.
Kwong2012
Peter D. Kwong and John R. Mascola. Human Antibodies that Neutralize HIV-1: Identification, Structures, and B Cell Ontogenies. Immunity, 37(3):412-425, 21 Sep 2012. PubMed ID: 22999947.
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Lee2017
Jeong Hyun Lee, Raiees Andrabi, Ching-Yao Su, Anila Yasmeen, Jean-Philippe Julien, Leopold Kong, Nicholas C. Wu, Ryan McBride, Devin Sok, Matthias Pauthner, Christopher A. Cottrell, Travis Nieusma, Claudia Blattner, James C. Paulson, Per Johan Klasse, Ian A. Wilson, Dennis R. Burton, and Andrew B. Ward. A Broadly Neutralizing Antibody Targets the Dynamic HIV Envelope Trimer Apex via a Long, Rigidified, and Anionic beta-Hairpin Structure. Immunity, 46(4):690-702, 18 Apr 2017. PubMed ID: 28423342.
Show all entries for this paper.
Liao2013a
Hongyan Liao, Jun-tao Guo, Miles D. Lange, Run Fan, Michael Zemlin, Kaihong Su, Yongjun Guan, and Zhixin Zhang. Contribution of V(H) Replacement Products to the Generation of Anti-HIV Antibodies. Clin. Immunol., 146(1):46-55, Jan 2013. PubMed ID: 23220404.
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McCoy2015
Laura E. McCoy, Emilia Falkowska, Katie J. Doores, Khoa Le, Devin Sok, Marit J. van Gils, Zelda Euler, Judith A. Burger, Michael S. Seaman, Rogier W. Sanders, Hanneke Schuitemaker, Pascal Poignard, Terri Wrin, and Dennis R. Burton. Incomplete Neutralization and Deviation from Sigmoidal Neutralization Curves for HIV Broadly Neutralizing Monoclonal Antibodies. PLoS Pathog., 11(8):e1005110, Aug 2015. PubMed ID: 26267277.
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Rolland2012
Morgane Rolland, Paul T. Edlefsen, Brendan B. Larsen, Sodsai Tovanabutra, Eric Sanders-Buell, Tomer Hertz, Allan C. deCamp, Chris Carrico, Sergey Menis, Craig A. Magaret, Hasan Ahmed, Michal Juraska, Lennie Chen, Philip Konopa, Snehal Nariya, Julia N. Stoddard, Kim Wong, Hong Zhao, Wenjie Deng, Brandon S. Maust, Meera Bose, Shana Howell, Adam Bates, Michelle Lazzaro, Annemarie O'Sullivan, Esther Lei, Andrea Bradfield, Grace Ibitamuno, Vatcharain Assawadarachai, Robert J. O'Connell, Mark S. deSouza, Sorachai Nitayaphan, Supachai Rerks-Ngarm, Merlin L. Robb, Jason S. McLellan, Ivelin Georgiev, Peter D. Kwong, Jonathan M. Carlson, Nelson L. Michael, William R. Schief, Peter B. Gilbert, James I. Mullins, and Jerome H. Kim. Increased HIV-1 Vaccine Efficacy against Viruses with Genetic Signatures in Env V2. Nature, 490(7420):417-420, 18 Oct 2012. PubMed ID: 22960785.
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Walker2018
Laura M. Walker and Dennis R. Burton. Passive Immunotherapy of Viral Infections: `Super-Antibodies' Enter the Fray. Nat. Rev. Immunol., 18(5):297-308, May 2018. PubMed ID: 29379211.
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Willis2022
Jordan R. Willis, Zachary T. Berndsen, Krystal M. Ma, Jon M. Steichen, Torben Schiffner, Elise Landais, Alessia Liguori, Oleksandr Kalyuzhniy, Joel D. Allen, Sabyasachi Baboo, Oluwarotimi Omorodion, Jolene K. Diedrich, Xiaozhen Hu, Erik Georgeson, Nicole Phelps, Saman Eskandarzadeh, Bettina Groschel, Michael Kubitz, Yumiko Adachi, Tina-Marie Mullin, Nushin B. Alavi, Samantha Falcone, Sunny Himansu, Andrea Carfi, Ian A. Wilson, John R. Yates III, James C. Paulson, Max Crispin, Andrew B. Ward, and William R. Schief. Human immunoglobulin repertoire analysis guides design of vaccine priming immunogens targeting HIV V2-apex broadly neutralizing antibody precursors. Immunity, 55(11):2149-2167e9 doi, Nov 2022. PubMed ID: 36179689
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Yang2014
Lili Yang and Pin Wang. Passive Immunization against HIV/AIDS by Antibody Gene Transfer. Viruses, 6(2):428-447, Feb 2014. PubMed ID: 24473340.
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Zhu2013
Jiang Zhu, Gilad Ofek, Yongping Yang, Baoshan Zhang, Mark K. Louder, Gabriel Lu, Krisha McKee, Marie Pancera, Jeff Skinner, Zhenhai Zhang, Robert Parks, Joshua Eudailey, Krissey E. Lloyd, Julie Blinn, S. Munir Alam, Barton F. Haynes, Melissa Simek, Dennis R. Burton, Wayne C. Koff, NISC Comparative Sequencing Program, James C. Mullikin, John R. Mascola, Lawrence Shapiro, and Peter D. Kwong. Mining the Antibodyome for HIV-1-Neutralizing Antibodies with Next-Generation Sequencing and Phylogenetic Pairing of Heavy/Light Chains. Proc. Natl. Acad. Sci. U.S.A., 110(16):6470-6475, 16 Apr 2013. PubMed ID: 23536288.
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