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

The induction of a memory immune response to HIV, mediated by any kind of effector mechanism, requires the induction of T cell help. In previous studies performed in different murine MHC haplotypes, three immunodominant T cell epitopes (T1, T2, and TH4.1) had been identified in the HIV envelope glycoprotein. Moreover, these peptides were proliferative T cell epitopes in humans. In this study, rhesus monkeys, Macaca mulatta, were primed with these three peptides either in combination or given separately. Half of the monkeys had a proliferative response to one or more of the priming peptide(s). Those monkeys who had a T cell proliferative response also had a high antibody response after one boost with a suboptimal dose of the native protein gp 160, whereas three of four control monkeys who had received only the native protein immunization gave no detectable antibody response, and one displayed a very weak response. For reasons that are unclear, antibodies only to the gp41 portion of gp 160 could be detected in the sera. Thus, the peptides can prime Th cells in primates for an enhanced antibody response on first exposure to the whole protein. The three peptides belong to highly conserved and nonglycosylated regions of the envelope protein. The fact that the peptides acted as immunogenic T cell proliferative and helper epitopes in nonhuman primates is very encouraging for including them in future vaccine studies in humans.
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PMID:Priming with T helper cell epitope peptides enhances the antibody response to the envelope glycoprotein of HIV-1 in primates. 170 1

The high affinity binding site for human immunodeficiency virus (HIV) envelope glycoprotein gp120 resides within the amino-terminal domain (D1) of CD4. Mutational and antibody epitope analyses have implicated the region encompassing residues 40-60 in D1 as the primary binding site for gp120. Outside of this region, a single residue substitution at position 87 abrogates syncytium formation without affecting gp120 binding. We describe two groups of CD4 monoclonal antibodies (mAbs) which recognize distinct epitopes associated with these regions in D1. These mAbs distinguish between the gp120 binding event and virus infection and virus-induced cell fusion. One cluster of mAbs, which bind at or near the high affinity gp120 binding site, blocked gp120 binding to CD4 and, as expected, also blocked HIV infection of CD4+ cells and virus-induced syncytium formation. A second cluster of mAbs, which recognize the CDR-3 like loop, did not block gp120 binding as demonstrated by their ability to form ternary complexes with CD4 and gp120. Yet, these mAbs strongly inhibited HIV infection of CD4+ cells and HIV-envelope/CD4-mediated syncytium formation. The structure of D1 has recently been solved at atomic resolution and in its general features resembles IgVk regions as predicted from sequence homology and mAb epitopes. In the D1 structure, the regions recognized by these two groups of antibodies correspond to the C'C" (Ig CDR2) and FG (Ig CDR3) hairpin loops, respectively, which are solvent-exposed beta turns protruding in two different directions on a face of D1 distal to the D2 domain. This face is straddled by the longer BC (Ig CDR1) loop which bisects the plain formed by C'C'' and FG. This structure is consistent with C'C'' and FG forming two distinct epitope clusters within D1. We conclude that the initial interaction between gp120 and CD4 is not sufficient for HIV infection and syncytium formation and that CD4 plays a critical role in the subsequent virus-cell and cell-cell membrane fusion events. We propose that the initial binding of CD4 to gp120 induces conformational changes in gp120 leading to subsequent interactions of the FG loop with other regions in gp120 or with the fusogenic gp41 potion of the envelope gp160 glycoprotein.
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PMID:A region in domain 1 of CD4 distinct from the primary gp120 binding site is involved in HIV infection and virus-mediated fusion. 170 42

The envelope glycoprotein of HIV gp120 is a T cell Ag in experimental animals and in humans infected with HIV or deliberately immunized with gp120 in various forms. Inasmuch as T cell responses result from the interaction of Ag processed and presented by APC with the unprimed T cell repertoire, we have investigated the human T cell repertoire specific for gp120 in seronegative, normal individuals. T cell lines and clones specific for HIV gp120 were generated by repeated in vitro stimulation of peripheral blood T lymphocytes with gp120-pulsed APC, followed by IL-2 expansion. We observed that the T cell response to whole gp120 involved single restricted immunodominant epitopes in gp120 that differ between responding individuals. Focusing of the response to limited regions of gp120 when the whole Ag is used for priming suggests that one or more adjacent epitopes are immunodominant and mask responses to "immunorecessive" epitopes. We have been able to generate primary in vitro responses to recessive epitopes by stimulation in vitro with synthetic peptides of gp120. The results indicate that a much broader T repertoire can be detected when individual peptides are used for priming in vitro rather than gp120. This information has important implications for the development of vaccination protocols aimed at eliciting diverse immune responses to "immunorecessive" regions of envelope glycoprotein.
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PMID:The naive repertoire of human T helper cells specific for gp120, the envelope glycoprotein of HIV. 170 85

Until recently, much of the effort put into development of an AIDS vaccine has focussed on the elicitation of a neutralizing antibody response. The viral target of neutralization, HIV envelope glycoprotein, has been produced in bulk through recombinant techniques, but has had little success as a vaccine. The specific epitopes to which neutralizing antibodies bind have been mapped, and although the major epitope is hypervariable, others are conserved. This allows the design of second generation vaccines. Meanwhile, vaccine studies in the SIV animal model simply using inactivated virus as immunogen have demonstrated that an effective vaccine is at least possible. A variety of HIV vaccine preparations are now under investigation and the outlook for the future is promising.
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PMID:Neutralizing antibodies and antigens in AIDS. 170 55

The dipyridodiazepinone human immunodeficiency virus type 1 (HIV-1)-specific reverse transcriptase (RT) inhibitor BI-RG-587 was tested for its ability to inhibit HIV-1 replication in both acutely and chronically infected cell lines. The ability of BI-RG-587 to inhibit steps in the virus replicative cycle other than reverse transcription was also assessed. BI-RG-587 was found to be a potent inhibitor of HIV-1 replication in acutely infected cells (50% inhibitory concentration [IC50] = 37.2 nM), and the sensitivity and kinetics of that inhibition was similar to the known RT inhibitor zidovudine (AZT). Even at 100x IC50, BI-RG-587 had no effect on gp120/CD4 interaction, syncytia formation, or envelope glycoprotein processing. In addition, no inhibition of viral replication or protein production was noted in a chronically infected cell line that produces viral products in an RT-independent manner. Finally, no inhibition of acute HIV-2 replication was noted, even with very high (2500x IC50 for HIV-1) concentrations of BI-RG-587. These results demonstrate that BI-RG-587 is a potent inhibitor of HIV-1 replication and that this inhibition occurs at the point of reverse transcription.
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PMID:Inhibition of human immunodeficiency virus type 1 (HIV-1) replication by the dipyridodiazepinone BI-RG-587. 170

Antibody-reactive peptide scanning (Pepscan) using overlapping nonapeptides and human sera as probes allows the identification of amino acids contributing significantly to antigen-antibody interaction. Five-hundred and two overlapping nonapeptides derived from the human immunodeficiency virus type 2 strain Rod (HIV-2Rod) external envelope glycoprotein gp125 were synthesized to serve as probes for reactivity with eight sera of HIV-2-infected individuals. Fifteen antibody-binding regions were identified, among which two amino-terminal regions [E3, amino acids (aa) 118 to 132; E4, aa 125 to 141] and four carboxy-terminal regions (E11, aa 303 to 324; E12, aa 340 to 358; E14, aa 436 to 452; E15, aa 486 to 507) were the most antigenic. The amino acids in binding sites E3 and E4 were highly variable among simian immunodeficiency virus (SIV), HIV-2 and HIV-1. The antibody-binding domains E14 and E15 were highly conserved among HIV-2 strains (94% and 86% identity of HIV-2Rod to HIV-2Isy and HIV-2NIHZ, respectively). Both domains had more amino acids in common with SIV (88% for E14, 64% for E15) than with HIV-1 (41% for E14, 45% for E15). Epidemiological studies revealed that the sera of African HIV-2-infected individuals bound the E11 and E15 peptides best (31%, 8/26). The sera of African HIV-1-infected individuals showed significant levels of cross-reactivity to the HIV-2 peptides, especially to the E15 peptide, whereas the sera of European HIV-1-infected individuals showed only moderate levels of cross-reactivity. If peptides covering the E15 epitope were used, African HIV-2-positive sera showed only a low level of cross-reactivity (4%) to E15 of HIV-1 and SIV. African HIV-1-positive sera bound the HIV-1 E15 peptide best (81%, 52/64), but showed high levels of cross-reactivity to SIV E15 (17%, 11/64) and HIV-2 E15 (25%, 16/64). European HIV-1-positive sera showed a high level of reactivity of HIV-1 E15 (91%, 50/55) and a low level of cross-reactivity to the HIV-2 (2%, 1/55), and none to the SIV E15 (0/55) peptide. These results indicate that the immunodominant regions of the HIV-2 external envelope (E11 and E15) align with the most immunodominant regions of HIV-1.
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PMID:Characterization of human antibody-binding sites on the external envelope of human immunodeficiency virus type 2. 171 Jun 45

The production of immunoglobulin capable of neutralizing the infectivity of a virus represents one of the most remarkable molecular accomplishments of the host's available immune defenses. It should be no surprise that a virus that has existed in the parenchyma of the immune system has evolved as an equally dynamic molecule (i.e., viral envelope) for survival. Neutralizing immunoglobulin (Ig) can best serve the host under conditions where the invading pathogen requires a well-defined cell-free state for establishing an infection or transmission. Evidence for a controlling and therefore protective role of neutralizing Ig against lentiviruses has been defined in natural and experimental infections with equine infectious anemia virus of ungulate members in the family equidae. Rapid replication of the virus immediately after infection and its release in a cell-free state leads to the production of neutralizing Ig and subsequent control of the primary viremia. A similar cause-effect relationship exists in humans between the high-titered viremia, observed shortly after HIV-1 infection, and the subsequent production of neutralizing Ig. Partially controlling this acute stage of viral replication by neutralizing Ig and thus preventing an otherwise acute form of immunosuppression or immune complex disease may be viewed paradoxically as a survival property of the virus. Immunologically mediated control, in a Darwinian sense, selects for viruses that have optimized the parameters of longevity and transmission from host to host. This paradox of neutralization in HIV-1 infection appears to be mediated by the convergence of structural and functional roles of the third variable domain (V3) of the external envelope glycoprotein. During infection or envelope-based vaccination, antibody to this cross-reactive, immuno-dominant epitope dominates the antigenic repertoire. Once this occurs, the host is less able to respond to emerging viruses containing closely related V3 structures. Thus a relatively restricted clonal-dominance of the neutralization response results. The V3 domain, apparently in concert with the rest of the molecule, provides an epitope that can tolerate and utilize its conformational flexibility to allow immune escape while maintaining its functional role in infectivity. Sixteen other putative epitopes have been described as being involved in the induction of neutralizing Ig. Currently the biologically functional role of neutralizing Ig to these other epitopes are complicated by a prior lack of knowledge and appreciation of the in vitro variables affecting their measurements.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Neutralization of HIV-1: a paradox of humoral proportions. 171 28

The goal of the present study was to investigate the antigen-specific T-cell response to the recombinant HIV envelope glycoprotein (gp160) and to test the effect of various adjuvant formulations on the efficiency of T-cell priming as well as on magnitude and longevity of the gp160-specific T-cell response. Our studies revealed that, in combination with an appropriate adjuvant (lipid-based adjuvant or mineral carrier complex), immunization with recombinant gp160 led to the appearance of gp160-primed T cells. The T-cell response obtained was substantial (proliferative response of greater than 100,000 delta dpm after one primary and two booster immunizations), gp160-specific (proliferation only in response to gp160, no proliferation after addition of a mock gp160 preparation), and long-lasting (T cell responses of greater than 50,000 delta dpm were observed more than one year after the last booster). The results presented here differ from those of previous studies in that they show the presence of substantial and long-lasting T-cell memory toward the immunogen gp160. Therefore further investigations on the use of these preparations as HIV candidate vaccines appear to be justified.
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PMID:Immunization of chimpanzees with the HIV-1 glycoprotein gp160 induces long-lasting T-cell memory. 171 48

CTL constitute an essential part of the immune response against the HIV. CTL recognize peptides derived from viral proteins together with the MHC class I molecules on the surface of infected cells. The CTL response could be important in prevention or control of infection with HIV by destroying virus-producing cells. In this study we have attempted to identify peptide epitopes recognized by HIV-specific CTL. Using synthetic peptides, we have identified six conserved peptidic epitopes on the gp120 envelope glycoprotein recognized by polyclonal human CTL in association with HLA-A2 class I transplantation Ag. These results were confirmed by two approaches: i) blocking of CTL activities with antibodies specific for three of these conserved peptides; and ii) construction of doubly transfected P815-A2 target cells, using deletions of the HIV env gene. Vaccination or immunotherapy in HLA-A2 individuals can thus be considered using highly conserved HIV env peptidic sequences.
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PMID:Epitope recognition of conserved HIV envelope sequences by human cytotoxic T lymphocytes. 171 55

Recombinant native human immunodeficiency virus type 1 (HIV-1) envelope glycoproteins gp160 and gp120 (residues 1 to 511) expressed in insect cells quantitatively adsorbed the group-specific neutralizing antibodies found in human sera. However, these antibodies were not adsorbed by envelope fragment 1 to 471 or 472 to 857 or by both fragments sequentially, even though together they add up to the full-length gp160 sequence. A hybrid envelope glycoprotein was constructed with residues 342 to 511 of the HIV-1 sequence and residues 1 to 399 of the simian immunodeficiency virus type 1 sequence to vary the HIV-1 sequence while preserving its conformation. This hybrid glycoprotein quantitatively adsorbed human neutralizing antibodies, while native simian immunodeficiency virus type 1 envelope glycoprotein did not. These results identify a new neutralizing epitope that depends on conformation and maps to residues 342 to 511 of gp120. It overlaps the extended CD4-binding site but is distinct from the V3 loop described previously (K. Javaherian et al., Proc. Natl. Acad. Sci. USA 86:6768-6772, 1989; J. R. Rusche et al., Proc. Natl. Acad. Sci. USA 85:3198-3202). Since it is conserved among diverse HIV-1 isolates, this new epitope may be a suitable target for future vaccine development.
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PMID:A predominant group-specific neutralizing epitope of human immunodeficiency virus type 1 maps to residues 342 to 511 of the envelope glycoprotein gp120. 171 12

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