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Query: UMLS:C0021051 (immunodeficiency)
 71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of antibody induced by vaccination with recombinant gp160 (rgp160) to bind to native and recombinant human immunodeficiency virus type 1 (HIV-1) envelope glycoproteins was measured. Thirty-three HIV-1-seronegative healthy adult volunteers were injected four times with 40 or 80 micrograms of an HIV-1LAV envelope glycoprotein candidate vaccine per dose. The vaccine consisted of rgp160 produced in insect tissue culture cells infected with a recombinant baculovirus which contains the gp160 gene from the HIV-1LAV strain. By using a flow cytometric indirect immunofluorescence assay (FIFA) to detect vaccine-induced antibody to native envelope glycoprotein expressed by target cells infected with HIV-1IIIB, sera from 9 of the 33 vaccinees were positive. These included sera from eight vaccinees which stained HIV-1IIIB-infected cells and sera from two vaccinees which stained target cells infected with HIV-1MN, a heterologous virus strain. None of the sera stained cells infected with the HIV-1RF strain. Envelope glycoprotein-binding antibody was more frequently detectable in an enzyme-linked immunosorbent assay (ELISA) by using rgp160 compared with that which was detectable in the FIFA with uninfected target cells which were pulsed with rgp160 antigen. Positive correlations were observed between the rgp160 FIFA and a whole-virus-lysate enzyme immunoassay, between the rgp160 FIFA and the rgp160 ELISA, and between the rgp160 ELISA and the whole-virus-lysate enzyme immunoassay. The ability of sera from some volunteers who received rgp160 vaccine to bind to HIV-1-infected cells suggests that further studies with this vaccine should be done.
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PMID:Detection of binding antibodies to native and recombinant human immunodeficiency virus type 1 envelope glycoproteins following recombinant gp160 immunization measured by flow cytometry and enzyme immunoassays. The AIDS Vaccine Clinical Trials Network. 140 Sep 60

The third hypervariable (V3) domain of the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein has been proposed to play an important role in mediating viral entry. Antibodies to the V3 domain block HIV-1 infection but not virus binding to CD4. At the center of the V3 domain is a relatively conserved sequence of amino acids, GPGRA. It has previously been shown that mutation of some of these amino acids reduced the ability of gp160 expressed on the surface of cells to induce fusion with CD4-bearing cells. In order to analyze the role of V3 domain sequences in mediating HIV entry, we introduced several amino acid substitution mutations in the GPGRA sequence of gp160 derived from HIV-1 strain HXB2 and in the analogous sequence of strain SF33, GPGKV. Virus was generated by cotransfecting the env constructs and a selectable env-negative HIV vector, HIV-gpt. When complemented with a retrovirus env gene, infectious virus capable of a single round of replication was produced. The viral particles produced were analyzed biochemically for core and envelope proteins and for infectious titer. The transfected envs were also analyzed for ability to bind to CD4 and mediate cell fusion. Several of the amino acid substitutions resulted in moderate to severe decreases in virus infectivity and fusion activity. Envelope glycoprotein assembly onto particles and CD4 binding were not affected. These results provide evidence that V3 sequences are involved in mediating the fusion step of HIV-1 entry.
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PMID:Analysis of mutations in the V3 domain of gp160 that affect fusion and infectivity. 172 97

Envelope glycoprotein gp120 of human immunodeficiency virus type 1 (HIV-1) is known to inhibit T-cell function, but little is known about the mechanisms of this immunosuppression. Pretreatment of a CD4+ tetanus toxoid-specific T-cell clone with soluble gp120 was found to exert a dose-dependent inhibition of soluble antigen-driven or anti-CD3 monoclonal antibody-driven proliferative response, interleukin 2 (IL-2) production, and surface IL-2 receptor (IL-2R) alpha-chain expression, all of which were reversed by the addition of exogenous IL-2. mRNA for the gene encoding IL-2 was suppressed by treatment with gp120, but IL-2R gene transcription was not inhibited. Bypass activation of the T-cell clone with phorbol 12-myristate 13-acetate plus ionomycin was unaffected by gp120 pretreatment. Thus, gp120-CD4 interaction interferes with an essential role of the CD4 molecule in signal transduction through the CD3-antigen receptor (Ti) complex. Such a mechanism of gp120-induced immunosuppression, if operative in vivo, could contribute to the depressed specific immune responses associated with HIV infection.
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PMID:Human immunodeficiency virus type 1 envelope glycoprotein gp120 produces immune defects in CD4+ T lymphocytes by inhibiting interleukin 2 mRNA. 231 27

External envelope glycoprotein from cell membranes and culture media of H9 cells infected with human immunodeficiency virus type 1 (HIV-1) isolate HTLV-IIIRF was isolated by immunoaffinity chromatography and compared with similar materials isolated from another variant, HTLV-IIIB. Envelope glycoprotein from IIIB and IIIRF appears to be identical, whether isolated from infected cell membranes or culture media. The molecular size of the IIIRF external envelope glycoprotein was 110 kilodaltons, whereas the relative size of IIIB gp120 was 123 kilodaltons. Amino-terminal sequence analysis of purified external envelope glycoprotein isolated from infected cell membranes or culture fluids revealed identical single sequences for the first 20 amino acids for each variant. The sequences obtained for IIIB gp120 were identical to those reported for the BH10 clone of the IIIB isolate, and the sequences determined for IIIRF gp110 matched the amino acid sequence predicted for the HAT3 clone of the Haitian HIV isolate. The amino-terminal sequences of external envelope glycoproteins isolated from either HIV-1 variant corresponded to the sequence starting at the proposed proteolytic cleavage site for the processing of the signal peptide of gp160. Immunization with external envelope glycoprotein isolated from either of the two HIV-1 variants yielded goat antibodies that primarily precipitated the homologous antigen. Sequential immunization of a single goat with gp120 and then gp110 resulted in the generation of antibodies that precipitated external envelope glycoprotein from both variants.
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PMID:Purification and characterization of the external envelope glycoprotein from two human immunodeficiency virus type 1 variants, HTLV-IIIB and HTLV-IIIRF. 316 39

The alpha-chemokine receptor CXCR4 has recently been shown to support syncytium formation mediated by strains of feline immunodeficiency virus (FIV) that have been selected for growth in the Crandell feline kidney cell line (CrFK-tropic virus). Given that both human and feline CXCR4 support syncytium formation mediated by FIV, we investigated whether human stromal cell-derived factor (SDF-1) would inhibit infection with FIV. Human SDF-1alpha and SDF-1beta bound with a high affinity (K(D)s of 12.0 and 10.4 nM, respectively) to human cells stably expressing feline CXCR4, and treatment of CrFK cells with human SDF-1alpha resulted in a dose-dependent inhibition of infection by FIV(PET). No inhibitory activity was detected when the interleukin-2 (IL-2)-dependent feline T-cell line Mya-1 was used in place of CrFK cells, suggesting the existence of a CXCR4-independent mechanism of infection. Furthermore, neither the human beta-chemokines RANTES, MIP-1alpha, MIP-1beta, and MCP-1 nor the alpha-chemokine IL-8 had an effect on infection of either CrFK or Mya-1 cells with CrFK-tropic virus. Envelope glycoprotein purified from CrFK-tropic virus competed specifically for binding of SDF-1alpha to feline CXCR4 and CXCR4 expression was reduced in FIV-infected cells, suggesting that the inhibitory activity of SDF-1alpha in CrFK cells may be the result of steric hindrance of the virus-receptor interaction following the interaction between SDF and CXCR4. Prolonged incubation of CrFK cells with SDF-1alpha led to an enhancement rather than an inhibition of infection. Flow cytometric analysis revealed that this effect may be due largely to up-regulation of CXCR4 expression by SDF-1alpha on CrFK cells, an effect mimicked by treatment of the cells with phorbol myristate acetate. The data suggest that infection of feline cells with FIV can be mediated by CXCR4 and that, depending on the assay conditions, infection can be either inhibited or enhanced by SDF-1alpha. Infection with FIV may therefore prove a valuable model in which to study the development of novel therapeutic interventions for the treatment of AIDS.
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PMID:Modulation of feline immunodeficiency virus infection by stromal cell-derived factor. 949 65

A chimeric protein consisting of CXC-chemokine receptor 4 (CXCR4) and the green fluorescent protein (GFP) was used for studying receptor localization and trafficking in real time in stably transduced HeLa, U-937, CEM, and NIH/3T3 cells. CXCR4-GFP was fully active as a co-receptor in mediating human immunodeficiency virus (HIV) entry. Both CXCR4 and CXCR4-GFP were found to undergo significant spontaneous endocytosis. Only 51.5 +/- 7.8% of receptor molecules were found on the plasma membrane in CD4-positive cells, 43.9 +/- 8.5% were found in CD4-negative HeLa cells, 75.6 +/- 9.7% were found in U-937 cells, 72.5 +/- 7.9 were found in CEM cells, and almost none were found in in NIH/3T3 cells. Stromal cell-derived factor-1alpha induced rapid endocytosis of cell surface receptor molecules. A significant part of CXCR4 was targeted to lysosomes upon binding of the ligands, and recycling of internalized CXCR4 was not efficient. Only about 30% of receptor molecules recycled back to the cell surface in HeLa cells, 5% recycled in U937, and 10% recycled in CEM cells, suggesting that the protective effect of chemokines against HIV infection can be attributed not only to competition for binding but also to depletion of the co-receptor molecules from the cell surface. Envelope glycoprotein gp120 of syncytia-inducing/lymphocyte tropic HIV-1 strains induced rapid internalization of CXCR4 in both CD4-negative and CD4-positive cells, suggesting that gp120 is a high affinity ligand of CXCR4.
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PMID:Spontaneous and ligand-induced trafficking of CXC-chemokine receptor 4. 963 31

Envelope glycoprotein incorporation is an essential process in formation of infectious particles of human immunodeficiency virus. Accumulated data have indicated that the cytoplasmic tail of Env gp41 is required for efficient incorporation. By analyzing mutant viruses with truncated cytoplasmic tails, we found that the domain was required in a cell-type-dependent manner for maintaining virus infectivity. Although the viruses with truncated cytoplasmic tails produced from HeLa, A3.01 and SupT1 cells showed a greatly reduced infectivity, those from SW480 and MT-4 cells retained a significant infectivity. To clarify the different effect of the cytoplasmic tail mutation on virus infectivity, we performed biochemical studies on the virions produced from HeLa and SW480 cells. Although the truncation of cytoplasmic tail appeared to reduce the Env incorporation in both cell lines, it caused a significant incorporation of Env precursor with HeLa cells. The results suggested that the cytoplasmic tail regulated selective incorporation of processed Env into virions in a cell-type-dependent manner.
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PMID:Modification of virus infectivity by cytoplasmic tail of HIV-1 TM protein. 1122 76

Human immunodeficiency virus binds and enters cells via the Envelope glycoprotein gp160 at its surface. In infected cells, gp160 is found not only on the plasma membrane but also in the endoplasmic reticulum (ER). Our aim was to establish rate-determining steps in the maturation process of gp160, using a radioactive pulse-chase approach. We found that gp160 has an intricate folding process: disulfide bonds start to form during synthesis but undergo extensive isomerization until the correct native conformation is reached. Removal of the leader peptide critically depends on formation of at least some disulfide bonds in subunit gp120 during folding. Envelope folds extremely slowly and therefore resides in the ER longer than other proteins, but the yield of properly folded molecules is high and degradation is undetectable. The large quantity of gp160 in the ER hence is a result of its slow transit through this compartment. We show here that newly synthesized HIV-1 Envelope glycoprotein apparently follows a slow but high-yield folding path in which co- and post-translational formation of disulfide bonds in gp120, disulfide isomerization and conformation dependent removal of the leader sequence are determining and intertwined events.
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PMID:Folding of HIV-1 envelope glycoprotein involves extensive isomerization of disulfide bonds and conformation-dependent leader peptide cleavage. 1277 88

The human immunodeficiency virus (HIV-1) exterior envelope glycoprotein, gp120, mediates receptor binding and is the major target for neutralizing antibodies. Primary HIV-1 isolates are characteristically more resistant to broadly neutralizing antibodies, although the structural basis for this resistance remains obscure. Most broadly neutralizing antibodies are directed against functionally conserved gp120 regions involved in binding to either the primary virus receptor, CD4, or the viral coreceptor molecules that normally function as chemokine receptors. These antibodies are known as CD4 binding site (CD4BS) and CD4-induced (CD4i) antibodies, respectively. Inspection of the gp120 crystal structure reveals that although the receptor-binding regions lack glycosylation, sugar moieties lie proximal to both receptor-binding sites on gp120 and thus in proximity to both the CD4BS and the CD4i epitopes. In this study, guided by the X-ray crystal structure of gp120, we deleted four N-linked glycosylation sites that flank the receptor-binding regions. We examined the effects of selected changes on the sensitivity of two prototypic HIV-1 primary isolates to neutralization by antibodies. Surprisingly, removal of a single N-linked glycosylation site at the base of the gp120 third variable region (V3 loop) increased the sensitivity of the primary viruses to neutralization by CD4BS antibodies. Envelope glycoprotein oligomers on the cell surface derived from the V3 glycan-deficient virus were better recognized by a CD4BS antibody and a V3 loop antibody than were the wild-type glycoproteins. Absence of all four glycosylation sites rendered a primary isolate sensitive to CD4i antibody-mediated neutralization. Thus, carbohydrates that flank receptor-binding regions on gp120 protect primary HIV-1 isolates from antibody-mediated neutralization.
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PMID:Structure-based, targeted deglycosylation of HIV-1 gp120 and effects on neutralization sensitivity and antibody recognition. 1295 7

The elicitation of broadly neutralizing antibodies directed against the human immunodeficiency virus type 1 (HIV-1) envelope glycoproteins, gp120 and gp41, remains a major challenge. Attempts to utilize monomeric gp120 as an immunogen to elicit high titers of neutralizing antibodies have been disappointing. Envelope glycoprotein constructs that better reflect the trimeric structure of the functional envelope spike have exhibited improved immunogenicity compared with monomeric gp120. We have described soluble gp140 ectodomain constructs with a heterologous trimerization motif; these have previously been shown to elicit antibodies in mice that were able to neutralize a number of HIV-1 isolates, among them primary isolate viruses. Recently, solid-phase proteoliposomes retaining the envelope glycoproteins as trimeric spikes in a physiologic membrane setting have been described. Here, we compare the immunogenic properties of these two trimeric envelope glycoprotein formulations and monomeric gp120 in rabbits. Both trimeric envelope glycoprotein preparations generated neutralizing antibodies more effectively than gp120. In contrast to monomeric gp120, the trimeric envelope glycoproteins elicited neutralizing antibodies with some breadth of neutralization. Furthermore, repeated boosting with the soluble trimeric formulations resulted in an increase in potency that allowed neutralization of a subset of neutralization-resistant HIV-1 primary isolates. We demonstrate that the neutralization is concentration-dependent, is mediated by serum IgG and that the major portion of the neutralizing activity is not directed against the gp120 V3 loop. Thus, mimics of the trimeric envelope glycoprotein spike described here elicit HIV-1-neutralizing antibodies that could contribute to a protective immune response and provide platforms for further modifications to improve the efficiency of this process.
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PMID:Analysis of the neutralizing antibody response elicited in rabbits by repeated inoculation with trimeric HIV-1 envelope glycoproteins. 1558 51


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