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Displaying record number 2073
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MAb ID |
3791 |
HXB2 Location |
Env |
Env Epitope Map
|
Author Location |
gp120 (V3) |
Epitope |
|
Subtype |
C |
Ab Type |
gp120 V3 // V3 glycan (V3g) |
Neutralizing |
tier 1, tier 2 View neutralization details |
Contacts and Features |
View contacts and features |
Species
(Isotype)
|
human(IgG1κ) |
Patient |
|
Immunogen |
HIV-1 infection |
Country |
India |
Keywords |
antibody binding site, antibody generation, antibody interactions, antibody sequence, binding affinity, neutralization, structure, subtype comparisons, vaccine antigen design, vaccine-induced immune responses, variant cross-reactivity |
Notes
Showing 8 of
8 notes.
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3791: The authors used nuclear magnetic resonance (NMR) to define the structure of the HIV-1 MPER when linked to the transmembrane domain (MPER-TMD) in the context of a lipid bilayer. In particular, they looked at the accessibility of the MPER-TMD to 2F5, 4E10, 10E8 and DH570. The MPER appears to be accessible up to ∼10% of the time to the 2F5, 4E10, and 10E8 Fabs but ∼40% of time to the DH570 Fab. To assess possible functional roles for the MPER in membrane fusion, they generated 17 Env mutants using the sequence of a clade A isolate, 92UG037.8, mutating each of the three structural elements: hydrophobic core, turn, and kink. Mutants W670A (hydrophobic core), F673A (turn), and W680A (kink), while still sensitive to VRC01, became much more resistant to the trimer-specific bNAbs and also gained sensitivity to b6, 3791, and 17b. All mutants with changes at W666 in the hydrophobic core and K683 at the kink lost infectivity almost completely. For the rest of the mutants, infectivity ranged from 4.3 to 50.8% of that of the wild type, showing that key residues important for stabilizing the MPER structure are also critical for Env-induced membrane fusion activity, especially in the context of viral infection.
Fu2018
(antibody binding site, antibody interactions, neutralization, variant cross-reactivity, binding affinity, structure)
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3791: Env from of a highly neutralization-resistant isolate, CH120.6, was shown to be very stable and conformationally-homogeneous. Its gp140 trimer retains many antigenic properties of the intact Env, while its monomeric gp120 exposes more epitopes. Thus trimer organization and stability are important determinants for occluding epitopes and conferring resistance to antibodies. Among a panel of 21 mAbs, CH120.6 was resistant to neutralization by all non-neutralizing and strain-specific mAbs (including 3791), regardless of the location of their epitopes. It was weakly neutralized by several broadly-neutralizing mAbs (VRC01, NIH45-46, 12A12, PG9, PG16, PGT128, 4E10, and 10E8), and well neutralized by only 2 (PGT145 and 10-1074).
Cai2017
(neutralization)
-
3791: 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. Non-neutralizing V3 Ab, 3791 did not bind cell surface or neutralize 92UG037.8 HIV-1 isolate though it did bind gp160 minus its C-terminus (gp160ΔCT) well, and was able to bind in the presence of sCD4.
Chen2015
(neutralization, binding affinity)
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3791: Neutralizing and binding activity of 18 anti-V3 MAbs from Cameroonian and Indian patients were compared. The Cameroonian patients had CRF02_AG (Env corresponding to clade A) and Indian patients had clade C. MAbs from Cameroonian patients were significantly more cross-neutralizing than those from India, suggesting the preference for CRF02_AG for vaccine design. This MAb was from patient from India, and the subtype of the infecting virus was C. MAb 3791 did not bind to any clade B virus that differed from clade C and A viruses by R at Env position 315.
Andrabi2013
(neutralization)
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3791: Signature motifs specific for neutralization epitopes present in the V3 loop crown were used to determine the presence or absence of MAb-specific epitopes in vaccine immunogens and in break-through viruses infecting vaccine and placebo recipients in the VAX003 and VAX004 Phase III clinical trials. Of the six epitopes present in the immunogens and targeted by known NAbs, only the one targeted by anti-V3 NAb 2219 exhibited a significant reduction in occurrence in vaccinated subjects from VAX003 Thailand cohort compared to the placebo group. The signature motif used for MAb 3791 is S11, R13, I14, Q18 in V3-loop position numbers.
Shmelkov2011
(vaccine-induced immune responses)
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3791: Structure of 3791 bound to a peptide containing the sequence of the V3 loop was used to derive sensitive and specific signature motifs for its neutralization epitope. 3791 epitope (11SxRIxxxQ18) was found conserved in 63% of circulating HIV-1 strains, predominantly appearing in subtype C strains.
Swetnam2010
(antibody binding site, neutralization, subtype comparisons, structure)
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3791: Two V3-scaffold immunogen constructs were designed and expressed using 3D structures of cholera toxin B (CTB), V3 in the gp120 context, and V3 bound to 447-52D MAb. The construct (V3-CTB) presenting the complete V3 was not recognized by 3791. 3791 also did not bind to the short V3-CTB construct, presenting a V3 fragment in conformation observed in complex with 447-52D.
Totrov2010
(vaccine antigen design, binding affinity, structure)
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3791: This Ab was derived from one of 12 individuals infected with non-B subtypes from Cameroon and India. The Ig usage for variable heavy chain of this Ab was as follows: IGHV:1-18*01, IGHD:4-17, D-RF:2, IGHJ:4. There was a preferential usage of the VH5-51 gene segment for V3 Abs. The usage of the VH4 family for the V3 Abs was restricted to only one gene segment, VH4-59, and the VH3 gene family was used at a significantly lower level by these Abs. The V3 Abs preferentially used the JH3 and D2-15 gene segments.
Gorny2009
(antibody generation, antibody sequence)
References
Showing 8 of
8 references.
Isolation Paper
Gorny2009
Miroslaw K. Gorny, Xiao-Hong Wang, Constance Williams, Barbara Volsky, Kathy Revesz, Bradley Witover, Sherri Burda, Mateusz Urbanski, Phillipe Nyambi, Chavdar Krachmarov, Abraham Pinter, Susan Zolla-Pazner, and Arthur Nadas. Preferential Use of the VH5-51 Gene Segment by the Human Immune Response to Code for Antibodies against the V3 Domain of HIV-1. Mol. Immunol., 46(5):917-926, Feb 2009. PubMed ID: 18952295.
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Andrabi2013
Raiees Andrabi, Constance Williams, Xiao-Hong Wang, Liuzhe Li, Alok K. Choudhary, Naveet Wig, Ashutosh Biswas, Kalpana Luthra, Arthur Nadas, Michael S. Seaman, Phillipe Nyambi, Susan Zolla-Pazner, and Miroslaw K. Gorny. Cross-Neutralizing Activity of Human Anti-V3 Monoclonal Antibodies Derived from Non-B Clade HIV-1 Infected Individuals. Virology, 439(2):81-88, 10 May 2013. PubMed ID: 23466102.
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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.
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Shmelkov2011
Evgeny Shmelkov, Arthur Nadas, James Swetnam, Susan Zolla-Pazner, and Timothy Cardozo. Indirect Detection of an Epitope-Specific Response to HIV-1 gp120 Immunization in Human Subjects. PLoS One, 6(11):e27279, 2011. PubMed ID: 22076145.
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Swetnam2010
James Swetnam, Evgeny Shmelkov, Susan Zolla-Pazner, and Timothy Cardozo. Comparative Magnitude of Cross-Strain Conservation of HIV Variable Loop Neutralization Epitopes. PLoS One, 5(12):e15994, 2010. PubMed ID: 21209919.
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Totrov2010
Maxim Totrov, Xunqing Jiang, Xiang-Peng Kong, Sandra Cohen, Chavdar Krachmarov, Aidy Salomon, Constance Williams, Michael S. Seaman, Ruben Abagyan, Timothy Cardozo, Miroslaw K. Gorny, Shixia Wang, Shan Lu, Abraham Pinter, and Susan Zolla-Pazner. Structure-Guided Design and Immunological Characterization of Immunogens Presenting the HIV-1 gp120 V3 Loop on a CTB Scaffold. Virology, 405(2):513-523, 30 Sep 2010. PubMed ID: 20663531.
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Cai2017
Yongfei Cai, Selen Karaca-Griffin, Jia Chen, Sai Tian, Nicholas Fredette, Christine E. Linton, Sophia Rits-Volloch, Jianming Lu, Kshitij Wagh, James Theiler, Bette Korber, Michael S. Seaman, Stephen C. Harrison, Andrea Carfi, and Bing Chen. Antigenicity-Defined Conformations of an Extremely Neutralization-Resistant HIV-1 Envelope Spike. Proc. Natl. Acad. Sci. U.S.A., 114(17):4477-4482, 25 Apr 2017. PubMed ID: 28396421.
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Fu2018
Qingshan Fu, Md Munan Shaik, Yongfei Cai, Fadi Ghantous, Alessandro Piai, Hanqin Peng, Sophia Rits-Volloch, Zhijun Liu, Stephen C. Harrison, Michael S. Seaman, Bing Chen, and James J. Chou. Structure of the Membrane Proximal External Region of HIV-1 Envelope Glycoprotein. Proc. Natl. Acad. Sci. U.S.A., 115(38):E8892-E8899, 18 Sep 2018. PubMed ID: 30185554.
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