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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Serum antibody responses were studied in detail in four vaccinia-naive volunteers in a phase I trial evaluating primary vaccination with a recombinant vaccinia virus expressing the HIV-1 gp160 envelope glycoprotein (HIVAC-1e, Oncogen/Bristol-Myers Squibb), followed by booster immunization with baculovirus-derived rgp160 (VaxSyn, MicroGeneSys). Prior to boosting, low-titer Fc receptor (FcR)-mediated, antibody-dependent enhancing (ADE) activity was detected in two of four volunteers but no IgM, IgG, IgA, neutralizing activity, or complement-mediated ADE activity was detected. Two weeks after boosting, all four volunteers developed HIV-1-specific IgG with titers of 1:160 to 1:640 by immunofluorescence assay. IgG1 was present in sera from each individual, while IgG2 and IgG3 were present in sera from two individuals, and IgG4 was present in serum from one individual. IgM and IgA were undetectable in all sera. Only one volunteer had IgG to the heterologous HIV-1 isolates, RF, MN, and SF2, after boosting. Serum from this volunteer neutralized the vaccine strain, LAV/IIIB, but not the heterologous strains, RF, MN, and SF2. Antibodies from the remaining volunteers had no neutralizing activity. The neutralizing serum had a positive reaction in a peptide-based ELISA utilizing a peptide corresponding to the principal neutralizing domain of the third hypervariable region (i.e., V3 loop) of the envelope glycoprotein. Neutralizing activity was partially removed by adsorption to this peptide, suggesting that it contained a type-specific neutralizing vaccine epitope. A low titer (1:40 to 1:80) of complement-mediated ADE activity to HIV-1 IIIB was present in sera from three vaccinees after boosting. FcR-ADE activity for HIV-1 SF2 and SF-128A were present in sera from two of these three vaccinees. None of the volunteers developed antisyncytial antibodies. These results indicate that inoculation with recombinant vaccinia followed by rgp160 boosting is the most effective strategy to date for inducing serum antibodies to the envelope glycoproteins of HIV-1, but further study is needed to optimize the functionality and cross-reactivity of these responses.
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PMID:Serum antibodies to HIV-1 in recombinant vaccinia virus recipients boosted with purified recombinant gp160. NIAID AIDS Vaccine Clinical Trials Network. 128 35

The main goal of the present paper was to analyze the molecular diversity of the principal neutralizing domain (V3 loop) of the HIV 1 gp120 in samples from patients of Argentina. The study was carried out on a total of 30 HIV 1 positive blood samples, obtained during 1991-1992, belonging to 15 intravenous drug users (group A), 5 homosexual men (group B), 8 children born to HIV 1 positive mothers (group C) and 2 AIDS patients (group D). By using extracted DNA from peripheral blood lymphocytes and from infected cells of the viral isolates in the case of the 2 AIDS patients, the V3 loop region was amplified by means of polymerase chain reaction. Direct sequencing by Sanger methodology was then performed on DNA fragments and nucleotide sequences obtained were translated into the correspondent amino acids. Consensus sequences for each group and a general consensus sequence were established (Table 1). Its alignment with V3 loop amino acid sequences of the major HIV 1 strains isolated worldwide is showed in table 2. Homology analysis between each sequence of the study population and sequence of different HIV 1 isolates showed that most of these samples share high homology with SF2 and BH10 strains. In contrast a low homology was found with JH3 and MN isolated (table 3). The presence of highly conserved amino acid residues as substitutions and insertions was determined in the Argentinian V3 loop sequences giving them a local pattern. The present paper is of great importance for our country, considering that the V3 loop is the main neutralizing domain becoming a major target in the development of HIV 1 vaccine. To our knowledge, this is the first report on the sequencing of the principal neutralizing domain of the Human Immunodeficiency Virus type 1 in Latin America.
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PMID:[Molecular analysis of the principal neutralization epitope (V3 loop) of human immunodeficiency virus type 1 in Argentina]. 129 19

Four major neutralizing regions of the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein were identified and characterized with a panel of 80 HIV-1 antibody-positive human sera. Levels of neutralizing antibodies against the HIV-1 strains IIIB, SF2, and RF were compared with reactivity in ELISAs against peptides that correspond to certain regions of the HIV-1 envelope. A correlation between high neutralizing activity and strong seroreactivity against specific peptides suggested that the corresponding regions might be involved in neutralization. This was further substantiated by using peptides to inhibit neutralization by a panel of 10 HIV-1 antibody-positive sera. The positions of three neutralizing sites, defined earlier mostly by antisera from animals, were confirmed in the present study. Human sera thus recognize the strain-specific third variable region of gp120 (amino acids 304-318), the C-terminal end of gp120 (amino acids 489-508), and the conserved region in the intracellular part of gp41 (amino acids 732-746). It is likely that these different regions mediate help rather than self-sufficient neutralization. Furthermore, a human neutralizing region was detected in a conserved part of gp41 (amino acids 647-671). Accordingly, neutralizing antibodies directed to this region were found to be cross-reactive between HIV-1 strains. Peptides corresponding to these four regions were able to inhibit neutralization mediated by serum from HIV-1 antibody-positive individuals. These results indicate that this conserved B-cell epitope of the HIV-1 envelope elicits a virus-neutralizing antibody response during natural infection in humans and may therefore be considered for inclusion in a vaccine against HIV-1.
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PMID:Identification of human neutralization-inducing regions of the human immunodeficiency virus type 1 envelope glycoproteins. 137 May 80

The IgG1 kappa, human monoclonal antibody (HMAb), F105, was studied for functional activity in antibody-dependent cellular cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC). F105 reacts with a discontinuous epitope on the CD4 binding site of the HIV-1 envelope glycoprotein, gp120, expressed on the surfaces of infected cells and neutralizes diverse viral strains at antibody concentrations readily achievable in humans. Neither F105 nor serum (diluted 1:50) from HIV seropositive donors mediate CDC against an SF2-infected cell line with rabbit or human sera as a source of complement. F105 and HIV-1 sera mediate ADCC against the SF2 strain. Normal human serum reduced spontaneous lysis of SF2 by peripheral blood monocytes (PBM). Although mixing of F105 with normal human serum reduced the lysis observed (36 +/- 8 vs. 42 +/- 8%), this still was significantly greater than lysis in media (30 +/- 5%) or normal human serum (23 +/- 6%) (p less than .05). A murine antibody to CD16 significantly reduced spontaneous lysis observed with media (30 +/- 5 vs. 18 +/- 3%) while normal mouse serum had no effect (31 +/- 7%). ADCC mediated by F105 is completely abrogated by the anti-CD16 antibody (42 +/- 8 vs. 22 +/- 4%), while only a fraction of ADCC mediated by HIV sera is inhibited by anti-CD16 (60 +/- 9 vs. 46 +/- 6%), suggesting that several populations of effector cells function in ADCC mediated by the polyclonal sera. Thus, F105, as opposed to polyclonal sera, mediates ADCC through a CD16+ PBM population.
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PMID:Functional activity of an HIV-1 neutralizing IgG human monoclonal antibody: ADCC and complement-mediated lysis. 138 Dec 1

Human immunodeficiency virus (HIV) infection that generally causes a strong antibody response toward HIV may sometimes occur in a latent form, characterized by seronegativity in assays based on structural HIV proteins. Latently infected individuals, however, often have an antibody response against the nonstructural regulatory HIV-1 protein NEF, a factor implicated in down-regulation of viral expression. In order to define the specificity of NEF antibodies, we looked for antibody response against more than 600 overlapping nonapeptides representing the total NEF sequence of three different HIV-1 isolates BRU, SF2, and MAL. Nine distinct homologous antigenic epitopes were recognized by sera from seropositive HIV-1-infected individuals by the peptide ELISA. We further demonstrated that sera from "at risk" individuals, with no antibodies to HIV structural proteins but reacting with the recombinant NEF protein in Western blot, recognize the same epitopes. Immunological assays based on the defined NEF epitopes can therefore be used to diagnose early or latent HIV Infection.
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PMID:Antigenic epitopes of NEF proteins from different HIV-1 strains as recognized by sera from patients with manifest and latent HIV infection. 169 46

Sera, from HIV-1 and HIV-2 seropositive individuals, were tested for the presence of antibodies able to inhibit the binding (BI) of HIV-IIIB gp 160 (produced in mammalian cells using a vaccinia expression system) to the extracellular portion of the CD4 receptor. A competition enzyme immunoassay (EIA) with soluble CD4 (sCD4) was used. BI antibodies were highly prevalent among HIV-1 seropositives but not in HIV-2 infected individuals. Attempts to localize the binding site for these BI antibodies on the primary sequence of gp 120 by using synthetic peptides encompassing the putative CD4 binding site on gp 120 (aa 397-439) were not successful. This study did not reveal a significant correlation between the presence of BI antibodies and disease evolution. BI antibody titres correlated less well with anti-gp 160 titres (r = 0.51, P less than or equal to 0.011) than with neutralizing antibody (NA) titres using either the isolates HIV-SF2 (SF2) (r = 0.77, P less than or equal to 0.000) and HIV-MN (MN) (r = 0.61, P less than or equal to 0.002) or the isolate HIV-IIIB (HX10) (r = 0.89, P less than or equal to 0.000) of which the gp 160 for the assays was derived. An HIV-IIIB neutralizing serum, elicited in a rabbit by immunization with a 17-mer synthetic peptide derived from the third variable domain (V3) of gp 120, did bind gp 160 without inhibiting the subsequent attachment of sCD4 to gp 160.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Association of antibodies blocking HIV-1 gp 160-sCD4 attachment with virus neutralizing activity in human sera. 169 32

A human mAb (HmAb) termed F105 was obtained by fusion of antibody-producing EBV-transformed cells with the HMMA2.11TG/O cell line. F105 is an IgG1 kappa antibody that binds to the surfaces of cells infected with all HIV-1 strains tested: MN, RF, IIIB, and SF2, but not uninfected cells. The HmAb immunoprecipitates GP120 from all four strains. F105 does not react with denatured GP120 on Western blots, but does react with viral lysates and purified GP120 dotted onto nitrocellulose filter paper under nondenaturing conditions. rGP120 from SF2 and soluble rCD4 inhibit antibody binding to infected cells in a dose-dependent manner. F105 inhibits the binding of free, infectious virions to uninfected HT-H9 cells with 50% of maximal (100%) inhibition at approximately 1 microgram/ml. F105 inhibits infection of HT-H9 cells by 100 tissue culture infective dose 50% units of MN and IIIB strains with 50% inhibition at concentrations of HmAb readily achievable in man. It appears that the F105 HmAb reacts with a conformationally defined epitope on HIV-1/GP120 that is exposed on the free virion and is important for binding to the cell surface by the virion. The epitope, which is immunogenic in humans, appears to be within, or topographically near, the CD4-binding site. F105 and the F105 epitope are potentially useful in therapy and in the design of peptide or anti-Id based vaccines; monitoring of the expression of the Id may prove useful in evaluating immune responses in infected individuals or vaccinated volunteers.
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PMID:An IgG human monoclonal antibody that reacts with HIV-1/GP120, inhibits virus binding to cells, and neutralizes infection. 171 Feb 48

In a National Institutes of Health (NIH)/World Health Organization (WHO)-sponsored collaboration, 26 laboratories characterized a coded panel of monoclonal antibodies (MAb) to HIV-1 envelope protein. The MAb were evaluated by serological [radioimmunoprecipitation, immunoblot, enzyme-linked immunosorbent assay (ELISA) and peptide mapping] and neutralization assays. Although laboratories used diverse neutralization assays that vary considerably in sensitivity, qualitatively similar data were obtained. The MAb were classified into three neutralization specificities: type-specific for MN and SF2, type-specific for IIIB, and group-specific for MN, SF2, and IIIB. The group-specific MAb displayed much lower neutralizing titers than the type-specific MAb. The specificity of MAb for neutralization was greater than for serological recognition of gp120 protein or peptide epitopes. Some MAb that bound to the same or closely overlapping linear epitopes had very different neutralization properties. The distinction between serological recognition and neutralization may result from differences in affinity of the MAb or may indicate that MAb can neutralize by interactions at a site distinct from the antibody binding site.
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PMID:Evaluation of monoclonal antibodies to HIV-1 by neutralization and serological assays: an international collaboration. Collaborating Investigators. 171 20

We have investigated the role of conformation of HIV-1 gp120 on its potential efficacy as a subunit vaccine. The questions that we set out to answer were: 1) Are there neutralizing antibodies directed to conformational epitopes in gp120? 2) If so, what is the spectrum of virus isolates neutralized by these antibodies? 3) Is a conformationally correct gp120 subunit more effective in the induction of neutralizing antibodies than a denatured subunit? 4) Does native gp120 subunit vaccination induce a broader neutralizing response than a gp120 antigen that cannot display conformational epitopes? To address these questions, we characterized the gp120-specific antibody response of HIV-1-infected humans and of experimental animals immunized with recombinant native and nonnative gp120 subunits. Two versions of recombinant gp120 produced from the HIV-SF2 isolate of HIV-1 were employed in these studies: 1) a nonglycosylated, denatured version produced in genetically engineered yeast, which we presume is capable of presenting only linear determinants, and 2) a fully glycosylated, native version, produced in genetically engineered mammalian cells, that is capable of displaying linear as well as conformational epitopes. Antibodies directed exclusively to conformational epitopes in gp120 were purified from pooled HIV antibody-positive human sera using these two versions of HIV-SF2 gp120. These antibodies exhibited neutralizing activity, and this activity was effective in the neutralization of a different, broader spectrum of HIV-1 isolates than that of antibodies to linear determinants in gp120 purified from the same serum pool. When these two versions of HIV-SF2 gp120 were used as subunit immunogens in baboons, clear differences in their abilities to elicit neutralizing antibodies were observed. The native version was more effective in the induction of neutralizing antibodies effective against HIV-SF2, the homologous virus isolate. The isolate specificity of the neutralizing response to these two versions of HIV-SF2 gp120 also differed. The nonglycosylated version induced neutralizing antibodies that were effective against only the isolate, or closely related isolates, from which the antigen was derived. In contrast, the native version induced a neutralizing response that was effective against a broad panel of HIV-1 isolates, including at least one isolate that one would not expect to be neutralized by antibodies to the PND of HIV-SF2 gp120.
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PMID:Importance of conformation on the neutralizing antibody response to HIV-1 gp120. 172 63

The protection of individuals from human immunodeficiency virus type 1 (HIV-1) infection with an envelope subunit derived from a single isolate will require the presentation of conserved epitopes in gp120. The objective of the studies presented here was to test whether a native recombinant gp120 (rgp120) immunogen would elicit responses to conserved neutralization epitopes that are not present in a denatured recombinant gp120 antigen from the same virus isolate. In a large study of 51 baboons, we have generated heterologous neutralizing activity with native, glycosylated rgp120SF2 but not with denatured, nonglycosylated env 2-3SF2. After repeated exposure to rgp120SF2 formulated with one of several adjuvants, virus isolates from the United States, the Caribbean, and Africa were neutralized. The timing of the immunization regimen and the choice of adjuvant affected the virus neutralization titers both quantitatively and qualitatively. These results suggest that vaccination with native, glycosylated rgp120 from a single virus isolate, HIV-SF2, may elicit a protective immune response effective against geographically and sequentially distinct HIV-1 isolates.
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PMID:Native but not denatured recombinant human immunodeficiency virus type 1 gp120 generates broad-spectrum neutralizing antibodies in baboons. 172 80


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