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Found 4 matching records:

Displaying record number 414

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MAb ID 9284 (NEA 9284)
HXB2 Location Env(301-312)
DNA(7125..7160)
Env Epitope Map
Author Location gp120(307-318 IIIB)
Research Contact Dupont de Nemours, Wilmington, Delaware
Epitope NNTRKSIRIQRG Epitope Alignment
NNTRKSIRIQRG epitope logo
Subtype B
Ab Type gp120 V3 // V3 glycan (V3g)
Neutralizing L
Species (Isotype) mouse(IgG1)
Patient  
Immunogen vaccine
Keywords antibody binding site

Vaccine Details

Vaccine type inactivated HIV
Vaccine strain B clade IIIB
Vaccine component HIV-1

Notes

Showing 19 of 19 notes.

References

Showing 27 of 27 references.

Binley1997 J. M. Binley, H. Arshad, T. R. Fouts, and J. P. Moore. An investigation of the high avidity antibody response to gp120 of human immunodeficiency virus type 1. AIDS Res. Hum. Retroviruses, 13:1007-1015, 1997. PubMed ID: 9264287. Show all entries for this paper.

Cao1997 J. Cao, N. Sullivan, E. Desjardin, C. Parolin, J. Robinson, R. Wyatt, and J. Sodroski. Replication and Neutralization of Human Immunodeficiency Virus Type 1 Lacking the V1 and V2 Variable Loops of the gp120 Envelope Glycoprotein. J. Virol., :9808-9812, 1997. An HIV-1 mutant lacking the V1-V2 loops can replicate in Jurkat cells and revertants that replicate with wild-type efficiency rapidly evolve in culture. These viruses exhibited increased neutralization susceptibility to V3 loop or CD4i MAbs, but not to sCD4 or anti-CD4BS MAbs. Thus the gp120 V1 and V2 loops protect HIV-1 from some subsets of neutralizing antibodies. PubMed ID: 9371651. Show all entries for this paper.

Cook1994 D. G. Cook, J. Fantini, S. L. Spitalnik, and F. Gonzalez-Scarano. Binding of Human Immunodeficiency Virus Type 1 HIV-1 gp120 to Galactosylceramide (GalCer): Relationship to the V3 Loop. Virol., 201:206-214, 1994. Antibodies against GalCer can block infection of CD4-negative cells from the brain and colon that are susceptible to HIV infection. This paper explores the ability of a panel of MAbs to inhibit binding of gp120 to GalCer, and also of the binding of GalCer to inhibit MAb-gp120 interaction. MAbs to the V3 loop and GalCer showed mutual inhibition of binding to gp120, and anti-CD4 binding site MAbs showed reduced inhibition. N- and C-terminal MAbs didn't influence GalCer binding. PubMed ID: 8184533. Show all entries for this paper.

Este1998 José A. Este, Cecillia Cabrera, Dominique Schols, Peter Cherepanov, Arantxa Gutierrez, Myriam Witvrouw, Christophe Pannecouque, Zeger Debyser, Robert F. Rando, Bonaventura Clotet, Jan Desmyter, and Eric De Clercq. Human Immunodeficiency Virus Glycoprotein gp120 as the Primary Target for the Antiviral Action of AR177 (Zintevir). Mol. Pharmacol., 53(2):340-345, Feb 1998. PubMed ID: 9463493. Show all entries for this paper.

Fontenot1995 J. D. Fontenot, T. C. VanCott, B. S. Parekh, C. P. Pau, J. R. George, D. L. Birx, S. Zolla-Pazner, M. K. Gorny, and J. M. Gatewood. Presentation of HIV V3 Loop Epitopes for Enhanced Antigenicity, Immunogenicity and Diagnostic Potential. AIDS, 9:1121-1129, 1995. PubMed ID: 8519447. Show all entries for this paper.

Ho1991a D. D. Ho, J. A. McKeating, X. L. Li, T. Moudgil, E. S. Daar, N.-C. Sun, and J. E. Robinson. Conformational Epitope of gp120 Important in CD4 Binding and Human Immunodeficiency Virus Type 1 Neutralization Identified by a Human Monoclonal Antibody. J. Virol., 65:489-493, 1991. A description of the neutralizing human MAb 15e. It binds to HIV-1 with a broad specificity, and blocks gp120 binding to CD4, and is a discontinuous epitope; DTT reduction of env abrogates binding. PubMed ID: 1702163. Show all entries for this paper.

Ivanoff1991 L. A. Ivanoff, D. J. Looney, C. McDanal, J. F. Morris, F. Wong-Staal, A. J. Langlois, S. R. Petteway, Jr., and T. J. Matthews. Alteration of HIV-1 Infectivity and Neutralization by a Single Amino Acid Replacement in the V3 Loop Domain. AIDS Res. Hum. Retroviruses, 7(7):595-603, Jul 1991. PubMed ID: 1768461. Show all entries for this paper.

McKeating1992a J. A. McKeating, J. Cordell, C. J. Dean, and P. Balfe. Synergistic Interaction between Ligands Binding to the CD4 Binding Site and V3 Domain of Human Immunodeficiency Virus Type I gp120. Virology, 191:732-742, 1992. PubMed ID: 1280382. Show all entries for this paper.

Moore1993c J. P. Moore, M. Thali, B. A. Jameson, F. Vignaux, G. K. Lewis, S.-W. Poon, M. S. Fung, P. J. Durda, L. Akerblom, B. Wahren, D. D. Ho, Q. J. Sattentau, and J. Sodroski. Immunochemical Analysis of the gp120 Surface Glycoprotein of Human Immunodeficiency Virus Type 1: Probing the Structure of the C4 and V4 Domains and the Interaction of the C4 Domain with the V3 Loop. J. Virol., 73:4785-4796, 1993. General observations: C4 and V3 MAbs are sensitive to the way the epitopes are presented, and this sensitivity cannot be correlated to peptide binding. Some V3-C4 domain interaction was indicated based on mutation and interference studies. PubMed ID: 7687303. Show all entries for this paper.

Moore1996 J. P. Moore and J. Sodroski. Antibody cross-competition analysis of the human immunodeficiency virus type 1 gp120 exterior envelope glycoprotein. J. Virol., 70:1863-1872, 1996. 46 anti-gp120 monomer MAbs were used to create a competition matrix, and MAb competition groups were defined. The data suggests that there are two faces of the gp120 glycoprotein: a face occupied by the CD4BS, which is presumably also exposed on the oligomeric envelope glycoprotein complex, and a second face which is presumably inaccessible on the oligomer and interacts with a number of nonneutralizing antibodies. PubMed ID: 8627711. Show all entries for this paper.

Okada1994 T. Okada, B. K. Patterson, P. A. Otto, and M. E. Gurney. HIV Type 1 Infection of CD4+ T-Cells Depends Critically on Basic Amino Acid Residues in the V3 Domain of Envelope Glycoprotein 120. AIDS Res. Hum. Retroviruses, 10:803-811, 1994. PubMed ID: 7986586. Show all entries for this paper.

Parren1998 P. W. Parren, I. Mondor, D. Naniche, H. J. Ditzel, P. J. Klasse, D. R. Burton, and Q. J. Sattentau. Neutralization of human immunodeficiency virus type 1 by antibody to gp120 is determined primarily by occupancy of sites on the virion irrespective of epitope specificity. J. Virol., 72:3512-9, 1998. The authors propose that the occupancy of binding sites on HIV-1 virions is the major factor in determining neutralization, irrespective of epitope specificity. Neutralization was assayed T-cell-line-adapted HIV-1 isolates. Binding of Fabs to monomeric rgp120 was not correlated with binding to functional oligomeric gp120 or neutralization, while binding to functional oligomeric gp120 was highly correlated with neutralization. The ratios of oligomer binding/neutralization were similar for antibodies to different neutralization epitopes, with a few exceptions. PubMed ID: 9557629. Show all entries for this paper.

Poignard1996b P. Poignard, T. Fouts, D. Naniche, J. P. Moore, and Q. J. Sattentau. Neutralizing antibodies to human immunodeficiency virus type-1 gp120 induce envelope glycoprotein subunit dissociation. J. Exp. Med., 183:473-484, 1996. Binding of Anti-V3 and the CD4I neutralizing MAbs induces shedding of gp120 on cells infected with the T-cell line-adapted HIV-1 molecular clone Hx10. This was shown by significant increases of gp120 in the supernatant, and exposure of a gp41 epitope that is masked in the oligomer. MAbs binding either to the V2 loop or to CD4BS discontinuous epitopes do not induce gp120 dissociation. This suggests HIV neutralization probably is caused by several mechanisms, and one of the mechanisms may involve gp120 dissociation. PubMed ID: 8627160. Show all entries for this paper.

Sattentau1991 Q. J. Sattentau and J. P. Moore. Conformational Changes Induced in the Human Immunodeficiency Virus Envelope Glycoprotein by Soluble CD4 Binding. J. Exp. Med., 174:407-415, 1991. sCD4 binding to gp120 induces conformational changes within envelope oligomers. This was measured on HIV-1-infected cells by the increased binding of gp120/V3 loop specific MAbs, and on the surface of virions by increased cleavage of the V3 loop by an exogenous proteinase. PubMed ID: 1713252. Show all entries for this paper.

Sattentau1993 Q. J. Sattentau, J. P. Moore, F. Vignaux, F. Traincard, and P. Poignard. Conformational changes induced in the envelope glycoproteins of the human and simian immunodeficiency viruses by soluble receptor binding. J. Virol., 67:7383-7393, 1993. PubMed ID: 7693970. Show all entries for this paper.

Sattentau1995a Q. J. Sattentau and J. P. Moore. Human immunodeficiency virus type 1 neutralization is determined by epitope exposure on the gp120 oligomer. J. Exp. Med., 182:185-196, 1995. This study suggests that antibodies specific for one of five different binding regions on gp120 are associated with viral neutralization: V2, V3, C4, the CD4 binding site, and a complex discontinuous epitope that does not interfere with CD4 binding. Kinetic binding properties of a set of MAbs that bind to these regions were studied, analyzing binding to both functional oligomeric LAI gp120 and soluble monomeric LAI BH10 gp120; neutralization ID$_50$s were also evaluated. It was found that the neutralization ID$_50$s was related to the ability to bind oligomeric, not monomeric, gp120, and concluded that with the exception of the V3 loop, regions of gp120 that are immunogenic will be poorly presented on cell-line-adapted virions. Further, the association rate, estimated as the t$_1/2$ to reach equilibrium binding to multimeric, virion associated, gp120, appears to be a major factor relating to affinity and potency of the neutralization response to cell-line-adapted virus. PubMed ID: 7540648. Show all entries for this paper.

Schonning1998 K. Schonning, A. Bolmstedt, J. Novotny, O. S. Lund, S. Olofsson, and J. E. Hansen. Induction of Antibodies against Epitopes Inaccessible on the HIV Type 1 Envelope Oligomer by Immunization with Recombinant Monomeric Glycoprotein 120. AIDS Res. Hum. Retroviruses, 14:1451-1456, 1998. PubMed ID: 9824323. Show all entries for this paper.

Skinner1988 M. A. Skinner, R. Ting, A. J. Langlois, K. J. Weinhold, H. K. Lyerly, K. Javaherian, and T. J. Matthews. Characteristics of a Neutralizing Monoclonal Antibody to the HIV Envelope Glycoprotein. AIDS Res. Hum. Retroviruses, 4:187-197, 1988. PubMed ID: 2456088. Show all entries for this paper.

Skinner1988a M. A. Skinner, A. J. Langlois, C. B. McDanal, J. S. McDougal, D. P. Bolognesi, and T. J. Matthews. Neutralizing Antibodies to an Immunodominant Envelope Sequence Do Not Prevent gp120 Binding to CD4. J. Virol., 62:4195-4200, 1988. This report was an early suggestion that there are at least two classes of biologically active antibodies to HIV: one class is isolate restricted, primarily directed to a hypervariable loop structure of gp120 and not involved in CD4 binding; the second class is directed at more conserved structures that may directly block CD4 binding. PubMed ID: 2845130. Show all entries for this paper.

Sorensen1994 A. M. M. Sorensen, C. Nielsen, M. Arendrup, H. Clausen, J. O. Nielsen, E. Osinaga, A. Roseto, and J.-E. S. Hansen. Neutralization epitopes on HIV pseudotyped with HTLV-I: Conservation of carbohydrate epitopes. J. Acquir. Immune Defic. Syndr., 7:116-123, 1994. Pseudotypes were formed with HIV and HTLV-I. MAb 9284, directed at the V3 loop of gp120, failed to inhibit the infection of CD-4 negative cells with pseudotypes, but anti-HTLV serum did inhibit infection. HIV and HTLV-I appear to induce common carbohydrate neutralizing epitopes. PubMed ID: 7507991. Show all entries for this paper.

Thali1992a M. Thali, C. Furman, D. D. Ho, J. Robinson, S. Tilley, A. Pinter, and J. Sodroski. Discontinuous, Conserved Neutralization Epitopes Overlapping the CD4-Binding Region of Human Immunodeficiency Virus Type 1 gp120 Envelope Glycoprotein. J. Virol., 66:5635-5641, 1992. Maps the relationship between amino acid substitutions that reduce CD4-gp120 interaction, and amino acid substitutions that reduce the binding of discontinuous epitope MAbs that inhibit CD4 binding. PubMed ID: 1380099. Show all entries for this paper.

Thali1993 M. Thali, J. P. Moore, C. Furman, M. Charles, D. D. Ho, J. Robinson, and J. Sodroski. Characterization of Conserved Human Immunodeficiency Virus Type 1 gp120 Neutralization Epitopes Exposed upon gp120-CD4 Binding. J. Virol., 67:3978-3988, 1993. Five regions are likely to contribute to the 48d and 17b discontinuous epitopes, either directly or through local conformational effects: the hydrophobic ring-like structure formed by the disulfide bond that links C3 and C4, the base of the stem-loop that contains V1 and V2, and the hydrophobic region in C2 from Arg 252 to Asp 262. Additionally changes in Glu 370, and Met 475 in C5, affected binding and neutralization. The hydrophobic character of these critical regions is consistent with the limited exposure on gp120 prior to CD4 binding. PubMed ID: 7685405. Show all entries for this paper.

Thali1994 M. Thali, M. Charles, C. Furman, L. Cavacini, M. Posner, J. Robinson, and J. Sodroski. Resistance to Neutralization by Broadly Reactive Antibodies to the Human Immunodeficiency Virus Type 1 gp120 Glycoprotein Conferred by a gp41 Amino Acid Change. J. Virol., 68:674-680, 1994. A T->A amino acid substitution at position 582 of gp41 conferred resistance to neutralization to 30\% of HIV positive sera (Wilson et al. J Virol 64:3240-48 (1990)). Monoclonal antibodies that bound to the CD4 binding site were unable to neutralize this virus, but the mutation did not reduce the neutralizing capacity of a V2 region MAb G3-4, V3 region MAbs, or gp41 neutralizing MAb 2F5. PubMed ID: 7507184. Show all entries for this paper.

Trujillo1993 J. R. Trujillo, M. F. McLane, T.-H. Lee, and M. Essex. Molecular Mimicry between the Human Immunodeficiency Virus Type 1 gp120 V3 Loop and Human Brain Proteins. J. Virol., 67:7711-7715, 1993. PubMed ID: 8230494. Show all entries for this paper.

VanCott1994 T. C. VanCott, F. R. Bethke, V. R. Polonis, M. K. Gorny, S. Zolla-Pazner, R. R. Redfield, and D. L. Birx. Dissociation Rate of Antibody-gp120 Binding Interactions Is Predictive of V3-Mediated Neutralization of HIV-1. J. Immunol., 153:449-459, 1994. Using surface plasmon resonance it was found that the rate of the dissociation of the MAb-gp120 complex, but not the association rate, correlated with MAbs ability to neutralize homologous virus (measured by 50\% inhibition of p24 production). Association constants were similar for all MAbs tested, varying less than 4-fold. Dissociation rate constants were quite variable, with 100-fold differences observed. PubMed ID: 7515931. Show all entries for this paper.

VanCott1995 T. C. VanCott, F. R. Bethke, D. S. Burke, R. R. Redfield, and D. L. Birx. Lack of Induction of Antibodies Specific for Conserved, Discontinuous Epitopes of HIV-1 Envelope Glycoprotein by Candidate AIDS Vaccines. J. Immunol., 155:4100-4110, 1995. The Ab response in both HIV-1 infected and uninfected volunteers immunized with HIV-1 rec envelope subunit vaccines (Genentech gp120IIIB, MicroGeneSys gp160IIIB, or ImmunoAG gp160IIIB) preferentially induced Abs reactive only to the denatured form of gp120. This may explain the inability of the vaccinee sera to neutralize primary HIV-1 isolates. PubMed ID: 7561123. Show all entries for this paper.

Wyatt1992 R. Wyatt, M. Thali, S. Tilley, A. Pinter, M. Posner, D. Ho, J. Robinson, and J. Sodroski. Relationship of the Human Immunodeficiency Virus Type 1 gp120 Third Variable Loop to Elements of the CD4 Binding Site. J. Virol., 66:6997-7004, 1992. This paper examines mutations which alter MAb binding and neutralization. Anti-V3 MAb 9284 has enhanced binding due to a mutation in the C4 region that is also important for CD4 binding, and anti-CD4 binding MAbs F105, 1.5e and 1125H show increased precipitation of a gp120 from which the V3 loop was deleted, relative to wild type, in RIPA buffer containing non-ionic detergents. PubMed ID: 1279195. Show all entries for this paper.


Displaying record number 487

Download this epitope record as JSON.

MAb ID 0.5β (0.5 beta, 0.5beta)
HXB2 Location Env(311-324)
DNA(7155..7196)
Env Epitope Map
Author Location gp120(316-330 HXB2)
Research Contact Shuzo Matsushita or Toshio Hattori of Kumamoto University
Epitope RGPGRAFVTIGKIG Epitope Alignment
RGPGRAFVTIGKIG epitope logo
Subtype B
Ab Type gp120 V3 // V3 glycan (V3g)
Neutralizing L (IIIB)
Species (Isotype) mouse(IgG1κ)
Patient  
Immunogen vaccine
Keywords anti-idiotype, antibody binding site, antibody generation, antibody interactions, binding affinity, brain/CSF, co-receptor, complement, enhancing activity, escape, mimics, neutralization, review, structure, variant cross-reactivity

Vaccine Details

Vaccine type protein
Vaccine strain B clade IIIB
Vaccine component Env

Notes

Showing 42 of 42 notes.

References

Showing 45 of 45 references.

Isolation Paper
Matsushita1988 S. Matsushita, M. Rober-Guroff, J. Rusche, A. Koito, T. Hattori, H. Hoshino, K. Javaherian, K. Takatsuki, and S. Putney. Characterization of a Human Immunodeficiency Virus neutralizing monoclonal antibody and mapping the neutralizing epitope. J. Virol., 62:2107-2114, 1988. PubMed ID: 2452899. Show all entries for this paper.

Boudet1994 F. Boudet, J. Theze, and M. Zouali. Anti-Idiotypic Antibodies to the Third Variable Domain of gp120 Induce an Anti-HIV-1 Antibody Response in Mice. Virology, 200:176-188, 1994. PubMed ID: 7510435. Show all entries for this paper.

Broder1994 C.C. Broder, P.L. Earl, D. Long, S.T. Abedon, B. Moss, and R.W. Doms. Antigenic implications of human immunodeficiency virus type 1 envelope quaternary structure: Oligomer-specific and -sensitive monoclonal antibodies. Proc. Natl. Acad. Sci. U.S.A., 91:11699-11703, 1994. 35 anti-gp41 and 27 anti-gp120 murine MAbs generated by immunization with oligomeric HIV-1 IIIB envelope were studied. These MAbs tended to react with conformational epitopes. 21 of the anti-gp41 MAbs reacted preferentially with oligomeric env, while only 1 of the anti-gp120 MAbs reacted more strongly with the oligomer, and 14 of the anti-gp120 preferentially recognized monomeric env. PubMed ID: 7972127. Show all entries for this paper.

Cook1994 D. G. Cook, J. Fantini, S. L. Spitalnik, and F. Gonzalez-Scarano. Binding of Human Immunodeficiency Virus Type 1 HIV-1 gp120 to Galactosylceramide (GalCer): Relationship to the V3 Loop. Virol., 201:206-214, 1994. Antibodies against GalCer can block infection of CD4-negative cells from the brain and colon that are susceptible to HIV infection. This paper explores the ability of a panel of MAbs to inhibit binding of gp120 to GalCer, and also of the binding of GalCer to inhibit MAb-gp120 interaction. MAbs to the V3 loop and GalCer showed mutual inhibition of binding to gp120, and anti-CD4 binding site MAbs showed reduced inhibition. N- and C-terminal MAbs didn't influence GalCer binding. PubMed ID: 8184533. Show all entries for this paper.

DSouza1991 M. P. D'Souza, P. Durda, C. V. Hanson, G. Milman, and Collaborating Investigators. Evaluation of Monoclonal Antibodies to HIV-1 by Neutralization and Serological Assays: An International Collaboration. AIDS, 5:1061-1070, 1991. PubMed ID: 1718320. Show all entries for this paper.

Emini1992 E. A. Emini, W. A. Schleif, J. H. Nunberg, A. J. Conley, Y. Eda, S. Tokiyoshi, S. D. Putney, S. Matsushita, K. E. Cobb, C. M. Jett, J. W. Eichberg, and K. K. Murthy. Prevention of HIV-1 Infection in Chimpanzees by gp120 V3 Domain-Specific Monoclonal Antibody. Nature, 355:728-730, 1992. PubMed ID: 1741059. Show all entries for this paper.

Faiman1996 Gabriel A. Faiman, Rena Levy, Jacob Anglister, and Amnon Horovitz. Contribution of Arginine Residues in the RP135 Peptide Derived from the V3 Loop of gp120 to Its Interaction with the Fv Fragment of the 0.5beta HIV-1 Neutralizing Antibody. J. Biol. Chem., 271(23):13829-13833, 7 Jun 1996. PubMed ID: 8662780. Show all entries for this paper.

Faiman1997 G. A. Faiman and A. Horovitz. Thermodynamic Analysis of the Interaction between the 0.5beta Fv Fragment and the RP135 Peptide Antigen Derived from the V3 Loop of HIV-1 gp120. J. Biol. Chem., 272:31407-31411, 1997. PubMed ID: 9395472. Show all entries for this paper.

Fortin2000 J. F. Fortin, R. Cantin, M. G. Bergeron, and M. J. Tremblay. Interaction between Virion-Bound Host Intercellular Adhesion Molecule-1 and the High-Affinity State of Lymphocyte Function-Associated Antigen-1 on Target Cells Renders R5 and X4 Isolates of Human Immunodeficiency Virus Type 1 More Refractory to Neutralization. Virology, 268:493-503, 2000. PubMed ID: 10704357. Show all entries for this paper.

Garcia2006 Julian Garcia, Pascal Dumy, Osnat Rosen, and Jacob Anglister. Stabilization of the Biologically Active Conformation of the Principal Neutralizing Determinant of HIV-1(IIIB) Containing a cis-Proline Surrogate: 1H NMR and Molecular Modeling Study. Biochemistry, 45(13):4284-4294, 4 Apr 2006. PubMed ID: 16566603. Show all entries for this paper.

Harada2004 Shinji Harada, Keisuke Yusa, and Yosuke Maeda. Heterogeneity of Envelope Molecules Shown by Different Sensitivities to anti-V3 Neutralizing Antibody and CXCR4 Antagonist Regulates the Formation of Multiple-Site Binding of HIV-1. Microbiol. Immunol., 48(4):357-365, 2004. PubMed ID: 15107547. Show all entries for this paper.

Harada2008 Shinji Harada, Kazuaki Monde, Yuetsu Tanaka, Tetsuya Kimura, Yosuke Maeda, and Keisuke Yusa. Neutralizing Antibodies Decrease the Envelope Fluidity of HIV-1. Virology, 370(1):142-150, 5 Jan 2008. PubMed ID: 17900650. Show all entries for this paper.

Huang1997 X. Huang, J. J. Barchi, Jr., F. D. Lung, P. P. Roller, P. L. Nara, J. Muschik, and R. R. Garrity. Glycosylation Affects Both the Three-Dimensional Structure and Antibody Binding Properties of the HIV-1IIIB GP120 Peptide. Biochemistry, 36:10846-10856, 1997. Glycosylated analogues of the V3 loop of gp120 were studied using NMR and circular dichroism spectroscopies, and by AB binding properties to MAb 0.5 $\beta$. A 24-residue peptide from the HIV-1 IIIB isolate (residues 308-331) designated RP135, was glycosylated with both N- and O- linked sugars. PubMed ID: 9312273. Show all entries for this paper.

Huang2005 Chih-chin Huang, Min Tang, Mei-Yun Zhang, Shahzad Majeed, Elizabeth Montabana, Robyn L. Stanfield, Dimiter S. Dimitrov, Bette Korber, Joseph Sodroski, Ian A. Wilson, Richard Wyatt, and Peter D. Kwong. Structure of a V3-Containing HIV-1 gp120 Core. Science, 310(5750):1025-1028, 11 Nov 2005. PubMed ID: 16284180. Show all entries for this paper.

Jagodzinski1996 P. P. Jagodzinski, J. Wustner, D. Kmieciak, T. J. Wasik, A. Fertala, A. L. Sieron, M. Takahashi, T. Tsuji, T. Mimura, M. S. Fung, M. K. Gorny, M. Kloczewiak, Y. Kaneko, and D. Kozbor. Role of the V2, V3, and CD4-Binding Domains of GP120 in Curdlan Sulfate Neutralization Sensitivity of HIV-1 during Infection of T Lymphocytes. Virology, 226:217-227, 1996. PubMed ID: 8955041. Show all entries for this paper.

Jagodzinski2000 P. P. Jagodzinski and W. H. Trzeciak. Application of monoclonal antibodies to monitor the synthesis of a glycoprotein core of envelope glycoproteins of human immunodeficiency virus (HIV-1). Biomed. Pharmacother., 54:50-3, 2000. PubMed ID: 10721463. Show all entries for this paper.

Jeffs1996 S. A. Jeffs, J. McKeating, S. Lewis, H. Craft, D. Biram, P. E. Stephens, and R. L. Brady. Antigenicity of truncated forms of the human immunodeficiency virus type 1 envelope glycoprotein. J. Gen. Virol., 77:1403-1410, 1996. PubMed ID: 8757980. Show all entries for this paper.

Kawai2003 Masahiro Kawai, Lianying He, Takeshi Kawamura, Shinya Omoto, Yoichi R. Fujii, and Noriko Okada. Chimeric Human/Murine Monoclonal IgM Antibodies to HIV-1 Nef Antigen Expressed on Chronically Infected Cells. Microbiol. Immunol., 47(3):247-253, 2003. PubMed ID: 12725296. Show all entries for this paper.

Klasse1993b P. Klasse, J. A. McKeating, M. Schutten, M. S. Reitz, Jr., and M. Robert-Guroff. An Immune-Selected Point Mutation in the Transmembrane Protein of Human Immunodeficiency Virus Type 1 (HXB2-Env:Ala 582(--> Thr)) Decreases Viral Neutralization by Monoclonal Antibodies to the CD4-Binding Site. Virology, 196:332-337, 1993. PubMed ID: 8356803. Show all entries for this paper.

Maeda1992 Y. Maeda, S. Matsushita, T. Hattori, T. Murakami, and K. Takatsuki. Changes in the Reactivity and Neutralizing Activity of a Type-Specific Neutralizing Monoclonal Antibody Induced by Interaction of Soluble CD4 with gp120. AIDS Res. Hum. Retroviruses, 8:2049-2054, 1992. PubMed ID: 1493053. Show all entries for this paper.

Matsushita1992 S. Matsushita, H. Maeda, K. Kimachi, Y. Eda, Y. Maeda, T. Murakami, S. Tokiyoshi, and K. Takatsuki. Characterization of a Mouse/Human Chimeric Monoclonal Antibody (C-beta-1) to a Principal Neutralizing Domain of the Human Immunodeficiency Virus Type 1 Envelope Protein. AIDS Res. Hum. Retroviruses, 8:1107-1115, 1992. PubMed ID: 1380258. Show all entries for this paper.

McDougal1996 J. S. McDougal, M. S. Kennedy, S. L. Orloff, J. K. A. Nicholson, and T. J. Spira. Mechanisms of Human Immunodeficiency Virus Type 1 (HIV-1) Neutralization: Irreversible Inactivation of Infectivity by Anti-HIV-1 Antibody. J. Virol., 70:5236-5245, 1996. Studies of polyclonal sera autologous virus inactivation indicates that in individuals over time, viral populations emerge that are resistant to inactivating effects of earlier sera. PubMed ID: 8764033. Show all entries for this paper.

McKeating1992a J. A. McKeating, J. Cordell, C. J. Dean, and P. Balfe. Synergistic Interaction between Ligands Binding to the CD4 Binding Site and V3 Domain of Human Immunodeficiency Virus Type I gp120. Virology, 191:732-742, 1992. PubMed ID: 1280382. Show all entries for this paper.

Moore1993c J. P. Moore, M. Thali, B. A. Jameson, F. Vignaux, G. K. Lewis, S.-W. Poon, M. S. Fung, P. J. Durda, L. Akerblom, B. Wahren, D. D. Ho, Q. J. Sattentau, and J. Sodroski. Immunochemical Analysis of the gp120 Surface Glycoprotein of Human Immunodeficiency Virus Type 1: Probing the Structure of the C4 and V4 Domains and the Interaction of the C4 Domain with the V3 Loop. J. Virol., 73:4785-4796, 1993. General observations: C4 and V3 MAbs are sensitive to the way the epitopes are presented, and this sensitivity cannot be correlated to peptide binding. Some V3-C4 domain interaction was indicated based on mutation and interference studies. PubMed ID: 7687303. Show all entries for this paper.

Mor2009 Amit Mor, Eugenia Segal, Brenda Mester, Boris Arshava, Osnat Rosen, Fa-Xiang Ding, Joseph Russo, Amnon Dafni, Fabian Schvartzman, Tali Scherf, Fred Naider, and Jacob Anglister. Mimicking the Structure of the V3 Epitope Bound to HIV-1 Neutralizing Antibodies. Biochemistry, 48(15):3288-3303, 21 Apr 2009. PubMed ID: 19281264. Show all entries for this paper.

Nara1990 P. L. Nara, L. Smit, N. Dunlop, W. Hatch, M. Merges, D. Waters, J. Kelliher, R. C. Gallo, P. J. Fischinger, and J. Goudsmit. Emergence of viruses resistant to neutralization by V3-specific antibodies in experimental human immunodeficiency virus type 1 IIIB infection of chimpanzees. J. Virol., 64:3779-3791, 1990. PubMed ID: 2370681. Show all entries for this paper.

Okada1994 T. Okada, B. K. Patterson, P. A. Otto, and M. E. Gurney. HIV Type 1 Infection of CD4+ T-Cells Depends Critically on Basic Amino Acid Residues in the V3 Domain of Envelope Glycoprotein 120. AIDS Res. Hum. Retroviruses, 10:803-811, 1994. PubMed ID: 7986586. Show all entries for this paper.

Okada2005 Noriko Okada, Shuping Yin, Suzuka Asai, Noriaki Kimbara, Natsuki Dohi, Masato Hosokawa, Xiaoshan Wu, and Hidechika Okada. Human IgM Monoclonal Antibodies Reactive with HIV-1-Infected Cells Generated Using a Trans-Chromosome Mouse. Microbiol. Immunol., 49(5):447-459, 2005. PubMed ID: 15905607. Show all entries for this paper.

Reitz1988 M. S. Reitz, Jr., C. Wilson, C. Naugle, and M. Robert-Guroff. Generation of a Neutralization-Resistant Variant of HIV-1 Is Due to Selection for a Point Mutation in the Envelope Gene. Cell, 54:57-63, 1988. Growth of HXB2 in the constant presence of a neutralizing antiserum yielded a viral population resistant to the same serum. gp41 mutation 582 (Ala to Thr) conferred the resistant phenotype. PubMed ID: 2838179. Show all entries for this paper.

Rosen2005 Osnat Rosen, Jordan Chill, Michal Sharon, Naama Kessler, Brenda Mester, Susan Zolla-Pazner, and Jacob Anglister. Induced Fit in HIV-Neutralizing Antibody Complexes: Evidence for Alternative Conformations of the gp120 V3 Loop and the Molecular Basis for Broad Neutralization. Biochemistry, 44(19):7250-7158, 17 May 2005. PubMed ID: 15882063. Show all entries for this paper.

Sirois2007 Suzanne Sirois, Mohamed Touaibia, Kuo-Chen Chou, and Rene Roy. Glycosylation of HIV-1 gp120 V3 Loop: Towards the Rational Design of a Synthetic Carbohydrate Vaccine. Curr. Med. Chem., 14(30):3232-3242, 2007. PubMed ID: 18220757. Show all entries for this paper.

Skinner1988 M. A. Skinner, R. Ting, A. J. Langlois, K. J. Weinhold, H. K. Lyerly, K. Javaherian, and T. J. Matthews. Characteristics of a Neutralizing Monoclonal Antibody to the HIV Envelope Glycoprotein. AIDS Res. Hum. Retroviruses, 4:187-197, 1988. PubMed ID: 2456088. Show all entries for this paper.

Skinner1988a M. A. Skinner, A. J. Langlois, C. B. McDanal, J. S. McDougal, D. P. Bolognesi, and T. J. Matthews. Neutralizing Antibodies to an Immunodominant Envelope Sequence Do Not Prevent gp120 Binding to CD4. J. Virol., 62:4195-4200, 1988. This report was an early suggestion that there are at least two classes of biologically active antibodies to HIV: one class is isolate restricted, primarily directed to a hypervariable loop structure of gp120 and not involved in CD4 binding; the second class is directed at more conserved structures that may directly block CD4 binding. PubMed ID: 2845130. Show all entries for this paper.

Sperlagh1993 M. Sperlagh, K. Stefano, F. Gonzalez-Scarano, S. Liang, J. Hoxie, H. Maruyama, M. Prewett, S. Matsushito, and D. Herlyn. Monoclonal Anti-Idiotype Antibodies That Mimic the Epitope on gp120 Defined by the Anti-HIV-1 Monoclonal Antibody 0.5beta. AIDS, 7:1553-1559, 1993. PubMed ID: 7506914. Show all entries for this paper.

Thali1994 M. Thali, M. Charles, C. Furman, L. Cavacini, M. Posner, J. Robinson, and J. Sodroski. Resistance to Neutralization by Broadly Reactive Antibodies to the Human Immunodeficiency Virus Type 1 gp120 Glycoprotein Conferred by a gp41 Amino Acid Change. J. Virol., 68:674-680, 1994. A T->A amino acid substitution at position 582 of gp41 conferred resistance to neutralization to 30\% of HIV positive sera (Wilson et al. J Virol 64:3240-48 (1990)). Monoclonal antibodies that bound to the CD4 binding site were unable to neutralize this virus, but the mutation did not reduce the neutralizing capacity of a V2 region MAb G3-4, V3 region MAbs, or gp41 neutralizing MAb 2F5. PubMed ID: 7507184. Show all entries for this paper.

Tugarinov1999 Vitali Tugarinov, Anat Zvi, Rina Levy, and Jacob Anglister. A cis Proline Turn Linking Two Beta-Hairpin Strands in the Solution Structure of an Antibody-Bound HIV-1 IIIB V3 Peptide. Nat. Struct. Biol., 6(4):331-335, Apr 1999. PubMed ID: 10201400. Show all entries for this paper.

Tugarinov2000 V. Tugarinov, A. Zvi, R. Levy, Y. Hayek, S. Matsushita, and J. Anglister. NMR Structure of an Anti-gp120 Antibody Complex with a V3 Peptide Reveals a Surface Important for Co-Receptor Binding. Structure, 8:385-395, 2000. PubMed ID: 10801487. Show all entries for this paper.

Veronese1993 F. di Marzo Veronese, M. S. Reitz, Jr., G. Gupta, M. Robert-Guroff, C. Boyer-Thompson, A. Louie, R. C. Gallo, and P. Lusso. Loss of a Neutralizing Epitope by a Spontaneous Point Mutation in the V3 Loop of HIV-1 Isolated from an Infected Laboratory Worker. J. Biol. Chem., 268:25894-25901, 1993. The MAb M77 cannot neutralize a virus isolated from a IIIB infected lab-worker that has a single point mutation in the defined linear epitope. M77 cannot bind to the mutant native gp120, but can bind to a peptide that carries the substitution. PubMed ID: 7503990. Show all entries for this paper.

Vijh-Warrier1996 Sujata Vijh-Warrier, Abraham Pinter, William J. Honnen, and Shermaine A. Tilley. Synergistic Neutralization of Human Immunodeficiency Virus Type 1 by a Chimpanzee Monoclonal Antibody against the V2 Domain of gp120 in Combination with Monoclonal Antibodies against the V3 Loop and the CD4-Binding Site. J. Virol., 70(7):4466-4473, Jul 1996. PubMed ID: 8676471. Show all entries for this paper.

Watkins1993 B. A. Watkins, M. S. Reitz, Jr., C. A. Wilson, K. Aldrich, A. E. Davis, and M. Robert-Guroff. Immune escape by human immunodeficiency virus type 1 from neutralizing antibodies: evidence for multiple pathways. J. Virol., 67:7493-7500, 1993. A neutralization resistance point mutation (HXB2 A281V) was studied using a variety of MAbs, and it was shown that this substitution affects a different epitope than a previously characterized neutralization escape mutant (A582T) (Reitz 1988, Wilson 1990). PubMed ID: 7693973. Show all entries for this paper.

Wyatt1997 R. Wyatt, E. Desjardin, U. Olshevsky, C. Nixon, J. Binley, V. Olshevsky, and J. Sodroski. Analysis of the Interaction of the Human Immunodeficiency Virus Type 1 gp120 Envelope Glycoprotein with the gp41 Transmembrane Glycoprotein. J. Virol., 71:9722-9731, 1997. This study characterized the binding of gp120 and gp41 by comparing Ab reactivity to soluble gp120 and to a soluble complex of gp120 and gp41 called sgp140. The occlusion of gp120 epitopes in the sgp140 complex provides a guide to the gp120 domains that interact with gp41, localizing them in C1 and C5 of gp120. Mutations that disrupt the binding of the occluded antibodies do not influence NAb binding or CD4 binding, thus if the gp41 binding domain is deleted, the immunologically desirable features of gp120 for vaccine design are still intact. PubMed ID: 9371638. Show all entries for this paper.

Zvi1995 A. Zvi, I. Kustanovich, Y. Hayek, S. Matsushita, and J. Anglister. The Principal Neutralizing Determinant of HIV-1 Located in V3 of gp120 Forms a 12-Residue Loop by Internal Hydrophobic Interactions. FEBS Lett., 368:267-270, 1995. PubMed ID: 7543061. Show all entries for this paper.

Zvi1995a A. Zvi, I. Kustanovich, D. Feigelson, R. Levy, M. Eisenstein, S. Matsushita, P. Richalet-Secordel, M. H. Regenmortel, and J. Anglister. NMR Mapping of the Antigenic Determinant Recognized by an Anti-gp120, Human Immunodeficiency Virus Neutralizing Antibody. Eur. J. Biochem., 229:178-187, 1995. PubMed ID: 7538073. Show all entries for this paper.

Zvi1997 A. Zvi, D. J. Feigelson, Y. Hayek, and J. Anglister. Conformation of the principal neutralizing determinant of human immunodeficiency virus type 1 in complex with an anti-gp120 virus neutralizing antibody studied by two-dimensional nuclear magnetic resonance difference spectroscopy. Biochemistry, 36:8619-27, 1997. PubMed ID: 9214308. Show all entries for this paper.

Zvi2000 A. Zvi, V. Tugarinov, G. A. Faiman, A. Horovitz, and J. Anglister. A Model of a gp120 V3 Peptide in Complex with an HIV-Neutralizing Antibody Based on NMR and Mutant Cycle-Derived Constraints. Eur. J. Biochem., 267:767-779, 2000. PubMed ID: 10651813. Show all entries for this paper.


Displaying record number 506

Download this epitope record as JSON.

MAb ID 694/98-D (694/98, 694.8, 694/98D, 694-98D)
HXB2 Location Env(314-317)
DNA(7164..7175)
Env Epitope Map
Author Location gp120( IIIB)
Research Contact Dr. Zolla-Pazner, Veterans Affairs Center, NY, NY. zollas01@endeavor.med.nyu.edu
Epitope GRAF Epitope Alignment
GRAF epitope logo
Subtype B
Ab Type gp120 V3 // V3 glycan (V3g)
Neutralizing L
Species (Isotype) human(IgG1λ)
Patient  
Immunogen HIV-1 infection
Keywords antibody binding site, antibody interactions, antibody sequence, binding affinity, effector function, enhancing activity, neutralization, review, structure, vaccine antigen design, variant cross-reactivity

Notes

Showing 36 of 36 notes.

References

Showing 39 of 39 references.

Isolation Paper
Gorny1992 M. K. Gorny, A. J. Conley, S. Karwowska, A. Buchbinder, J.-Y. Xu, E. A. Emini, S. Koenig, and S. Zolla-Pazner. Neutralization of Diverse Human Immunodeficiency Virus Type 1 Variants by an Anti-V3 Human Monoclonal Antibody. J. Virol., 66:7538-7542, 1992. PubMed ID: 1433529. Show all entries for this paper.

Altmeyer1999 R. Altmeyer, E. Mordelet, M. Girard, and C. Vidal. Expression and detection of macrophage tropic HIV-1 gp120 in the brain using conformation-dependent antibodies. Virology, 259:314-21, 1999. PubMed ID: 10388656. Show all entries for this paper.

Andrus1998 L. Andrus, A. M. Prince, I. Bernal, P. McCormack, D. H. Lee, M. K. Gorny, and S. Zolla-Pazner. Passive immunization with a human immunodeficiency virus type 1- neutralizing monoclonal antibody in Hu-PBL-SCID mice: isolation of a neutralization escape variant. J. Infect. Dis., 177:889-97, 1998. PubMed ID: 9534960. Show all entries for this paper.

Cavacini1993 L. A. Cavacini, C. L. Emes, J. Power, A. Buchbinder, S. Zolla-Pazner, and M. R. Posner. Human Monoclonal Antibodies to the V3 Loop of HIV-1 gp120 Mediate Variable and Distinct Effects on Binding and Viral Neutralization by a Human Monoclonal Antibody to the CD4 Binding Site. J. Acquir. Immune Defic. Syndr., 6:353-358, 1993. PubMed ID: 8455141. Show all entries for this paper.

Cook1994 D. G. Cook, J. Fantini, S. L. Spitalnik, and F. Gonzalez-Scarano. Binding of Human Immunodeficiency Virus Type 1 HIV-1 gp120 to Galactosylceramide (GalCer): Relationship to the V3 Loop. Virol., 201:206-214, 1994. Antibodies against GalCer can block infection of CD4-negative cells from the brain and colon that are susceptible to HIV infection. This paper explores the ability of a panel of MAbs to inhibit binding of gp120 to GalCer, and also of the binding of GalCer to inhibit MAb-gp120 interaction. MAbs to the V3 loop and GalCer showed mutual inhibition of binding to gp120, and anti-CD4 binding site MAbs showed reduced inhibition. N- and C-terminal MAbs didn't influence GalCer binding. PubMed ID: 8184533. Show all entries for this paper.

EdwardsBH2002 Bradley H. Edwards, Anju Bansal, Steffanie Sabbaj, Janna Bakari, Mark J. Mulligan, and Paul A. Goepfert. Magnitude of Functional CD8+ T-Cell Responses to the Gag Protein of Human Immunodeficiency Virus Type 1 Correlates Inversely with Viral Load in Plasma. J. Virol., 76(5):2298-2305, Mar 2002. PubMed ID: 11836408. Show all entries for this paper.

Forthal1995 D. N. Forthal, G. Landucci, M. K. Gorny, S. Zolla-Pazner, and W. E. Robinson, Jr. Functional Activities of 20 Human Immunodeficiency Virus Type 1 (HIV-1)-Specific Human Monoclonal Antibodies. AIDS Res. Hum. Retroviruses, 11:1095-1099, 1995. A series of tests were performed on 20 human monoclonal antibodies to assess their potential therapeutic utility. Antibodies were tested for potentially harmful complement-mediated antibody enhancing activity (C-ADE), and for potentially beneficial neutralizing activity and antibody dependent cellular cytotoxicity ADCC. PubMed ID: 8554906. Show all entries for this paper.

Gorny1993 M. K. Gorny, J.-Y. Xu, S. Karwowska, A. Buchbinder, and S. Zolla-Pazner. Repertoire of Neutralizing Human Monoclonal Antibodies Specific for The V3 Domain of HIV-1 gp120. J. Immunol., 150:635-643, 1993. Characterizaton of 12 human MAbs that bind and neutralize the MN isolate with 50\% neutralization. Two of these antibodies also bound and neutralized IIIB: 447-52-D and 694/98-D; all others could not bind HXB2 peptides. All but two, 418-D and 412-D could bind to SF2 peptides. PubMed ID: 7678279. Show all entries for this paper.

Gorny1994 M. K. Gorny, J. P. Moore, A. J. Conley, S. Karwowska, J. Sodroski, C. Williams, S. Burda, L. J. Boots, and S. Zolla-Pazner. Human Anti-V2 Monoclonal Antibody That Neutralizes Primary but Not Laboratory Isolates of Human Immunodeficiency Virus Type 1. J. Virol., 68:8312-8320, 1994. Detailed characterization of the MAb 697-D. PubMed ID: 7525987. Show all entries for this paper.

Gorny2003 Miroslaw K. Gorny and Susan Zolla-Pazner. Human Monoclonal Antibodies that Neutralize HIV-1. In Bette T. M. Korber and et. al., editors, HIV Immunology and HIV/SIV Vaccine Databases 2003. pages 37--51. Los Alamos National Laboratory, Theoretical Biology \& Biophysics, Los Alamos, N.M., 2004. URL: http://www.hiv.lanl.gov/content/immunology/pdf/2003/zolla-pazner_article.pdf. LA-UR 04-8162. Show all entries for this paper.

Gorny2004 Miroslaw K. Gorny, Kathy Revesz, Constance Williams, Barbara Volsky, Mark K. Louder, Christopher A. Anyangwe, Chavdar Krachmarov, Samuel C. Kayman, Abraham Pinter, Arthur Nadas, Phillipe N. Nyambi, John R. Mascola, and Susan Zolla-Pazner. The V3 Loop is Accessible on the Surface of Most Human Immunodeficiency Virus Type 1 Primary Isolates and Serves as a Neutralization Epitope. J. Virol., 78(5):2394-2404, Mar 2004. PubMed ID: 14963135. Show all entries for this 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. Show all entries for this paper.

Haldar2011 Bijayesh Haldar, Sherri Burda, Constance Williams, Leo Heyndrickx, Guido Vanham, Miroslaw K. Gorny, and Phillipe Nyambi. Longitudinal Study of Primary HIV-1 Isolates in Drug-Naïve Individuals Reveals the Emergence of Variants Sensitive to Anti-HIV-1 Monoclonal Antibodies. PLoS One, 6(2):e17253, 2011. PubMed ID: 21383841. Show all entries for this paper.

Harada2008 Shinji Harada, Kazuaki Monde, Yuetsu Tanaka, Tetsuya Kimura, Yosuke Maeda, and Keisuke Yusa. Neutralizing Antibodies Decrease the Envelope Fluidity of HIV-1. Virology, 370(1):142-150, 5 Jan 2008. PubMed ID: 17900650. Show all entries for this paper.

He2002 Yuxian He, William J. Honnen, Chavdar P. Krachmarov, Michael Burkhart, Samuel C. Kayman, Jose Corvalan, and Abraham Pinter. Efficient Isolation of Novel Human Monoclonal Antibodies with Neutralizing Activity Against HIV-1 from Transgenic Mice Expressing Human Ig Loci. J. Immunol., 169(1):595-605, 1 Jul 2002. PubMed ID: 12077293. Show all entries for this paper.

Hioe2009 Catarina E. Hioe, Maria Luisa Visciano, Rajnish Kumar, Jianping Liu, Ethan A. Mack, Rachel E. Simon, David N. Levy, and Michael Tuen. The Use of Immune Complex Vaccines to Enhance Antibody Responses against Neutralizing Epitopes on HIV-1 Envelope gp120. Vaccine, 28(2):352-360, 11 Dec 2009. PubMed ID: 19879224. Show all entries for this paper.

Laal1994 Suman Laal, Sherri Burda, Miroslav K. Gorny, Sylwia Karwowska, Aby Buchbinder, and Susan Zolla-Pazner. Synergistic Neutralization of Human Immunodeficiency Virus Type 1 by Combinations of Human Monoclonal Antibodies. J. Virol., 68(6):4001-4008, Jun 1994. PubMed ID: 7514683. Show all entries for this paper.

Li1997 A. Li, T. W. Baba, J. Sodroski, S. Zolla-Pazner, M. K. Gorny, J. Robinson, M. R. Posner, H. Katinger, C. F. Barbas III, D. R. Burton, T.-C. Chou, and R. M Ruprecht. Synergistic Neutralization of a Chimeric SIV/HIV Type 1 Virus with Combinations of Human Anti-HIV Type 1 Envelope Monoclonal Antibodies or Hyperimmune Globulins. AIDS Res. Hum. Retroviruses, 13:647-656, 1997. Multiple combinations of MAbs were tested for their ability to synergize neutralization of a SHIV construct containing HIV IIIB env. All of the MAb combinations tried were synergistic, suggesting such combinations may be useful for passive immunotherapy or immunoprophylaxis. Because SHIV can replicate in rhesus macaques, such approaches can potentially be studied in an it in vivo monkey model. PubMed ID: 9168233. Show all entries for this paper.

Li1998 A. Li, H. Katinger, M. R. Posner, L. Cavacini, S. Zolla-Pazner, M. K. Gorny, J. Sodroski, T. C. Chou, T. W. Baba, and R. M. Ruprecht. Synergistic Neutralization of Simian-Human Immunodeficiency Virus SHIV-vpu+ by Triple and Quadruple Combinations of Human Monoclonal Antibodies and High-Titer Anti-Human Immunodeficiency Virus Type 1 Immunoglobulins. J. Virol., 72:3235-3240, 1998. PubMed ID: 9525650. Show all entries for this paper.

Ling2004 Hong Ling, Peng Xiao, Osamu Usami, and Toshio Hattori. Thrombin Activates Envelope Glycoproteins of HIV Type 1 and Enhances Fusion. Microbes Infect., 6(5):414-420, Apr 2004. PubMed ID: 15109955. Show all entries for this paper.

Nyambi1998 P. N. Nyambi, M. K. Gorny, L. Bastiani, G. van der Groen, C. Williams, and S. Zolla-Pazner. Mapping of Epitopes Exposed on Intact Human Immunodeficiency Virus Type 1 (HIV-1) Virions: A New Strategy for Studying the Immunologic Relatedness of HIV-1. J. Virol., 72:9384-9391, 1998. 18 human MAbs binding to gp120 and gp41 were tested using a novel assay to test binding to intact HIV-1 virions. The new method involves using MAbs to the host proteins incorporated into virions to bind them to ELIZA plates. Antigenic conservation in epitopes of HIV-1 in clades A, B, D, F, G, and H was studied. MAbs were selected that were directed against V2, V3, CD4bd, C5 or gp41 regions. Antibodies against V2, the CD4BS, and sp41 showed weak and sporadic reactivities, while binding strongly to gp120, suggesting these epitopes are hidden when gp120 is in its native, quaternary structure. PubMed ID: 9765494. Show all entries for this paper.

Nyambi2000 P. N. Nyambi, H. A. Mbah, S. Burda, C. Williams, M. K. Gorny, A. Nadas, and S. Zolla-Pazner. Conserved and Exposed Epitopes on Intact, Native, Primary Human Immunodeficiency Virus Type 1 Virions of Group M. J. Virol., 74:7096-7107, 2000. PubMed ID: 10888650. Show all entries for this paper.

Park2000 E. J. Park, M. K. Gorny, S. Zolla-Pazner, and G. V. Quinnan. A global neutralization resistance phenotype of human immunodeficiency virus type 1 is determined by distinct mechanisms mediating enhanced infectivity and conformational change of the envelope complex. J. Virol., 74:4183-91, 2000. PubMed ID: 10756031. Show all entries for this paper.

Pollara2013 Justin Pollara, Mattia Bonsignori, M. Anthony Moody, Marzena Pazgier, Barton F. Haynes, and Guido Ferrari. Epitope Specificity of Human Immunodeficiency Virus-1 Antibody Dependent Cellular Cytotoxicity (ADCC) Responses. Curr. HIV Res., 11(5):378-387, Jul 2013. PubMed ID: 24191939. Show all entries for this paper.

Schonning1998 K. Schonning, A. Bolmstedt, J. Novotny, O. S. Lund, S. Olofsson, and J. E. Hansen. Induction of Antibodies against Epitopes Inaccessible on the HIV Type 1 Envelope Oligomer by Immunization with Recombinant Monomeric Glycoprotein 120. AIDS Res. Hum. Retroviruses, 14:1451-1456, 1998. PubMed ID: 9824323. Show all entries for this paper.

Skinner1988 M. A. Skinner, R. Ting, A. J. Langlois, K. J. Weinhold, H. K. Lyerly, K. Javaherian, and T. J. Matthews. Characteristics of a Neutralizing Monoclonal Antibody to the HIV Envelope Glycoprotein. AIDS Res. Hum. Retroviruses, 4:187-197, 1988. PubMed ID: 2456088. Show all entries for this paper.

Smith1998 A. D. Smith, S. C. Geisler, A. A. Chen, D. A. Resnick, B. M. Roy, P. J. Lewi, E. Arnold, and G. F. Arnold. Human Rhinovirus Type 14: Human Immunodeficiency Virus Type 1 (HIV-1) V3 Loop Chimeras from a Combinatorial Library Induce Potent Neutralizing Antibody Responses against HIV-1. J. Virol., 72:651-659, 1998. The tip of the MN V3 loop, IGPGRAFYTTKN, was inserted into cold-causing human rhinovirus 14 (HRV14) and chimeras were immunoselected using MAbs 447-52-D, 694/98-D, NM-01, and 59.1, for good presentation of the V3 antigenic region. The selected chimeric viruses were neutralized by anti-V3 loop MAbs. The chimeric viruses elicited potent NAbs against ALA-1 and MN in guinea pigs. PubMed ID: 9420270. Show all entries for this paper.

Spear1993 G. T. Spear, D. M. Takefman, B. L. Sullivan, A. L. Landay, and S. Zolla-Pazner. Complement activation by human monoclonal antibodies to human immunodeficiency virus. J. Virol., 67:53-59, 1993. This study looked at the ability of 16 human MAbs to activate complement. MAbs directed against the V3 region could induce C3 deposition on infected cells and virolysis of free virus, but antibodies to the CD4BS and C-terminal region and two regions in gp41 could induce no complement mediated effects. Pre-treatment with sCD4 could increase complement-mediated effects of anti-gp41 MAbs, but decreased the complement-mediated effects of V3 MAbs. Anti-gp41 MAbs were able to affect IIIB but not MN virolysis, suggesting spontaneous shedding of gp120 on IIIB virions exposes gp41 epitopes. IgG isotype did not appear to have an effect on virolysis or C3 deposition. PubMed ID: 7677959. Show all entries for this paper.

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. Show all entries for this paper.

Tuen2005 Michael Tuen, Maria Luisa Visciano, Peter C. Chien, Jr., Sandra Cohen, Pei-de Chen, James Robinson, Yuxian He, Abraham Pinter, Miroslaw K Gorny, and Catarina E Hioe. Characterization of Antibodies that Inhibit HIV gp120 Antigen Processing and Presentation. Eur. J. Immunol., 35(9):2541-2551, Sep 2005. PubMed ID: 16106369. Show all entries for this paper.

VanCott1994 T. C. VanCott, F. R. Bethke, V. R. Polonis, M. K. Gorny, S. Zolla-Pazner, R. R. Redfield, and D. L. Birx. Dissociation Rate of Antibody-gp120 Binding Interactions Is Predictive of V3-Mediated Neutralization of HIV-1. J. Immunol., 153:449-459, 1994. Using surface plasmon resonance it was found that the rate of the dissociation of the MAb-gp120 complex, but not the association rate, correlated with MAbs ability to neutralize homologous virus (measured by 50\% inhibition of p24 production). Association constants were similar for all MAbs tested, varying less than 4-fold. Dissociation rate constants were quite variable, with 100-fold differences observed. PubMed ID: 7515931. Show all entries for this paper.

VanCott1995 T. C. VanCott, F. R. Bethke, D. S. Burke, R. R. Redfield, and D. L. Birx. Lack of Induction of Antibodies Specific for Conserved, Discontinuous Epitopes of HIV-1 Envelope Glycoprotein by Candidate AIDS Vaccines. J. Immunol., 155:4100-4110, 1995. The Ab response in both HIV-1 infected and uninfected volunteers immunized with HIV-1 rec envelope subunit vaccines (Genentech gp120IIIB, MicroGeneSys gp160IIIB, or ImmunoAG gp160IIIB) preferentially induced Abs reactive only to the denatured form of gp120. This may explain the inability of the vaccinee sera to neutralize primary HIV-1 isolates. PubMed ID: 7561123. Show all entries for this paper.

Visciano2008 Maria Luisa Visciano, Michael Tuen, Miroslaw K. Gorny, and Catarina E. Hioe. In Vivo Alteration of Humoral Responses to HIV-1 Envelope Glycoprotein gp120 by Antibodies to the CD4-Binding Site of gp120. Virology, 372(2):409-420, 15 Mar 2008. PubMed ID: 18054978. Show all entries for this paper.

Zhang2002 Peng Fei Zhang, Peter Bouma, Eun Ju Park, Joseph B. Margolick, James E. Robinson, Susan Zolla-Pazner, Michael N. Flora, and Gerald V. Quinnan, Jr. A Variable Region 3 (V3) Mutation Determines a Global Neutralization Phenotype and CD4-Independent Infectivity of a Human Immunodeficiency Virus Type 1 Envelope Associated with a Broadly Cross-Reactive, Primary Virus-Neutralizing Antibody Response. J. Virol., 76(2):644-655, Jan 2002. PubMed ID: 11752155. Show all entries for this paper.

Zolla-Pazner1995 S. Zolla-Pazner, J. O'Leary, S. Burda, M. K. Gorny, M. Kim, J. Mascola, and F. McCutchan. Serotyping of primary human immunodeficiency virus type 1 isolates from diverse geographic locations by flow cytometry. J. Virol., 69:3807-3815, 1995. A set of 13 human MAbs to a variety of epitopes were tested against a panel of primary isolates of HIV-1, representing different genetic clades. The V3 loop tended to be B clade restricted, and a single gp120 C-terminus binding antibody was clade specific. Two other gp120 C-terminus binding antibodies were group specific. PubMed ID: 7745728. Show all entries for this paper.

Zolla-Pazner1997 S. Zolla-Pazner, C. Alving, R. Belshe, P. Berman, S. Burda, P. Chigurupati, M. L. Clements ML, A. M. Duliege, J. L. Excler, C. Hioe, J. Kahn, M. J. McElrath, S. Sharpe, F. Sinangil, K. Steimer, M. C. Walker, N. Wassef, and S. Xu. Neutralization of a clade B primary isolate by sera from human immunodeficiency virus-uninfected recipients of candidate AIDS vaccines. J. Infect. Dis., 175:764-774, 1997. Comment in J Infect Dis 1997 Nov;176(5):1410-2. Clade B primary isolate BZ167 was neutralized, using a new assay, by sera from HIV-uninfected volunteers in vaccine trials. PubMed ID: 9086128. Show all entries for this paper.

Zolla-Pazner1999a S. Zolla-Pazner, M. K. Gorny, P. N. Nyambi, T. C. VanCott, and A. Nadas. Immunotyping of Human Immunodeficiency Virus Type 1 (HIV): An Approach to Immunologic Classification of HIV. J. Virol., 73:4042-4051, 1999. 21 human anti-V3 MAbs were studied with respect to cross-clade reactivity and immunological relationship to other human anti-V3 MAbs. Broad cross-reactivities were observed, and V3 peptides were grouped into immunotypes that contained peptides from several clades. PubMed ID: 10196300. Show all entries for this paper.

Zolla-Pazner1999b S. Zolla-Pazner, M. K. Gorny, and P. N. Nyambi. The implications of antigenic diversity for vaccine development. Immunol. Lett., 66:159-64, 1999. PubMed ID: 10203049. Show all entries for this paper.

Zwick2003a Michael B. Zwick, Robert Kelleher, Richard Jensen, Aran F. Labrijn, Meng Wang, Gerald V. Quinnan, Jr., Paul W. H. I. Parren, and Dennis R. Burton. A Novel Human Antibody against Human Immunodeficiency Virus Type 1 gp120 Is V1, V2, and V3 Loop Dependent and Helps Delimit the Epitope of the Broadly Neutralizing Antibody Immunoglobulin G1 b12. J. Virol., 77(12):6965-6978, Jun 2003. PubMed ID: 12768015. Show all entries for this paper.


Displaying record number 563

Download this epitope record as JSON.

MAb ID 9301
HXB2 Location Env(471-490)
DNA(7635..7694)
Env Epitope Map
Author Location gp120(471-490 LAI)
Research Contact Dupont, commercial
Epitope GGGDMRDNWRSELYKYKVVK Epitope Alignment
GGGDMRDNWRSELYKYKVVK epitope logo
Subtype B
Ab Type gp120 C5
Neutralizing  
Species (Isotype) mouse(IgG)
Patient  
Immunogen vaccine
Keywords  

Vaccine Details

Vaccine type protein
Vaccine strain B clade LAI
Vaccine component Env

Notes

Showing 3 of 3 notes.

References

Showing 5 of 5 references.

Skinner1988 M. A. Skinner, R. Ting, A. J. Langlois, K. J. Weinhold, H. K. Lyerly, K. Javaherian, and T. J. Matthews. Characteristics of a Neutralizing Monoclonal Antibody to the HIV Envelope Glycoprotein. AIDS Res. Hum. Retroviruses, 4:187-197, 1988. PubMed ID: 2456088. Show all entries for this paper.

Moore1993a J. P. Moore and D. D. Ho. Antibodies to discontinuous or conformationally sensitive epitopes on the gp120 glycoprotein of human immunodeficiency virus type 1 are highly prevalent in sera of infected humans. J. Virol., 67:863-875, 1993. CD4BS antibodies are prevalent in HIV-1-positive sera, while neutralizing MAbs to C4, V2, and V3 and MAbs to linear epitopes are less common. Most linear epitope MAbs in human sera are directed against the V3 region, and cross-reactive MAbs tend to be directed against discontinuous epitopes. PubMed ID: 7678308. Show all entries for this paper.

Moore1994a J. P. Moore, Q. J. Sattentau, R. Wyatt, and J. Sodroski. Probing the Structure of the Human Immunodeficiency Virus Surface Glycoprotein gp120 with a Panel of Monoclonal Antibodies. J. Virol., 68:469-484, 1994. This study compared a large number of MAbs that bind to linear epitopes of gp120, and compared binding affinities for: i) native and SDS-DDT denatured gp120, (clone BH10 of the LAI isolate expressed in CHO cells); ii) recombinant gp120 lacking the V1, V2, V3 loops; iii) a panel of 20 mer peptides; iv) a panel of gp120 mutants; and v) oligomeric versus monomeric gp120. The binding ratio of native versus denatured monomeric gp120 is included in the table in this database. These numbers should be considered with the following points in mind: a continuous epitope may be partially exposed on the surface; and a preparation of rgp120 is not homogeneous and contains fully folded, partly denatured, and some completely unfolded species, so the conformation of what is considered to be a native protein will not only reflect fully folded gp120. The authors suggest that a fivefold increase in the affinity for a MAb binding to denatured versus native gp120 indicates that the epitope is inaccessible in the native form. We also have included here information extracted from Moore et al's list of the gp120 mutations that reduced the binding of a particular MAb. In mapping of exposed regions of gp120, C2, C3, and C5 domain epitopes were found to bind preferentially to denatured gp120. V1, V2 and V3, part of C4, and the extreme carboxy terminus of C5 were exposed on the native monomer. In the oligomeric form of the molecule, only V2, V3 and part of C4 are well exposed as continuous epitopes. PubMed ID: 7504741. Show all entries for this paper.

Moore1994c J. P. Moore, R. L. Willey, G. K. Lewis, J. Robinson, and J. Sodroski. Immunological evidence for interactions between the first, second and fifth conserved domains of the gp120 surface glycoprotein of human immunodeficiency virus type 1. J. Virol., 68:6836-6847, 1994. Mutation 267N/Q in C2 region results in exposing the carboxy-terminal end gp120. PubMed ID: 7933065. Show all entries for this paper.

Wagner1996 R. Wagner, L. Deml, R. Schirmbeck, M. Niedrig, J. Reimann, and H. Wolf. Construction, Expression, and Immunogenicity of Chimeric HIV-1 Virus-Like Particles. Virology, 220:128-140, 1996. PubMed ID: 8659105. Show all entries for this paper.


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