UMLS:C0021051 - FACTA Search

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

Two novel enzyme-linked immunoassays (ELISA) for the quantitation of human immunodeficiency virus type 1 (HIV-1) coded glycoprotein with an Mr 120 (gp120) are described. These are based on the highly specific interaction between gp120 and the mannose-specific lectins from Narcissus pseudonarcissus (NPL) and Galanthus nivalis (GNL). Two systems were developed: (1) an HIV-protein ELISA using HIV-protein (also containing HIV-gp120) for the solid phase and NPL as a detector and (2) a lectin-ELISA using the NPL bound to the solid phase and GNL as detector. The HIV-protein ELISA was validated for quantitation of gp120 within the range 3 to 600 ng/ml; the lectin-ELISA for concentrations between 0.6 and 20000 ng gp120/ml. Serum components did not interfere with the binding of gp120 to the lectins. The ELISAs were used for the quantitation of gp120 in HIV-infected CEM cells in vitro. It was found that gp120 appeared in the medium earlier after infection than HIV-p24 and reverse transcriptase, suggesting that gp120 is released as free glycoprotein. Moreover, the ELISAs were also applied successfully for the detection of compounds that bind to gp120 and for the identification of antibodies directed against the highly pathogenic mannan portion of gp120. These ELISAs are considered to be suitable also for the detection of gp120 in the serum of HIV-infected individuals.
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PMID:Human immunodeficiency virus: novel enzyme-linked immunoassays for quantitation of envelope glycoprotein 120. 187 21

Immunization with an inactivated whole-virus vaccine is highly effective in preventing lentivirus infection. The viral protein(s) essential to the induction of protective responses, however, have not been identified. To define the role of virion components in the induction of protective immunity, we evaluated the efficacy of glycoprotein-enriched and glycoprotein-depleted simian immunodeficiency virus (SIV) subunit vaccines prepared by lentil-lectin affinity chromatography of gradient-purified virions using the immunization and challenge regimen previously found successful with an inactivated whole-virus vaccine. Infection was determined by successful recovery of virus, the induction of SIV-specific antibody responses, and infection of naive recipients by inoculation with lymph-node-derived lymphocytes from the vaccinates. Immunization with the glycoprotein-enriched preparation prevented infection in two out of four monkeys, whereas the glycoprotein-depleted vaccine failed to prevent infection in all four vaccinates tested. However, the glycoprotein-depleted vaccine appeared to moderate the progression of SIV-induced disease compared with non-immunized infected control monkeys inoculated with the same challenge dose. These data suggest that subunit vaccines containing sufficient quantities of viral glycoproteins can protect against SIV infection, whereas subunit vaccines composed predominantly of viral core proteins cannot. The development of effective vaccines against HIV infection should include studies on the optimum presentation of the viral envelope glycoproteins to produce long-term broadly protective immune responses.
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PMID:Efficacy of SIV/deltaB670 glycoprotein-enriched and glycoprotein-depleted subunit vaccines in protecting against infection and disease in rhesus monkeys. 188 40

Several parameters which may affect the infectivity of human immunodeficiency virus type 1 in tissue culture were analyzed. In particular, we used gel exclusion chromatography to investigate how the loss of the surface glycoprotein gp120 from virions of the HTLV-IIIB (IIIB), HTLV-IIIRF (RF), and SF-2 isolates modulates infectivity. In IIIB and RF cultures, a high proportion of the total gp120 was virion bound initially but was gradually lost from the virions over time. In contrast, most of the gp120 (and p24) in SF-2-infected cultures was soluble and the few particles present had a fivefold-lower level of virus-bound gp120. However, this reduced level of virion-bound gp120 was more resistant to shedding. Loss of a major proportion of gp120 from IIIB and RF virions resulted in reduced infectivities, and in addition, the resulting accumulation of soluble gp120 in the cultures could competitively inhibit viral infection, especially with SF-2. Increased shedding of virion gp120 also affected the neutralization of IIIB and RF particles. However, the high sensitivity to human serum neutralization characteristic of SF-2 was unaffected by soluble gp120 in cultures, suggesting that the epitopes responsible are not present on soluble gp120.
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PMID:Differential loss of envelope glycoprotein gp120 from virions of human immunodeficiency virus type 1 isolates: effects on infectivity and neutralization. 189 72

Patients with human immunodeficiency virus (HIV) infections have aberrant production of a number of lymphokines and monokines. Envelope glycoproteins are believed to be important in HIV pathogenesis and may influence the production of these cytokines. Therefore, synthetic peptides corresponding to amino acid sequences 735-752 and 846-860 of glycoprotein gp41 and to amino acid sequence 304-328 of gp120 were investigated for their abilities to affect the production of the following cytokines by normal peripheral blood mononuclear cells in the presence of appropriate inducers: interferon (IFN)-alpha, IFN-gamma, interleukin (IL)-1, IL-2, and tumor necrosis factor (TNF). In contrast to cells and inducers alone (or in the presence of a control peptide), gp41 or gp120 synthetic peptides were able to depress the production of IFN-alpha, IFN-gamma and IL-2. In contrast, these peptides produced an elevation of the production of IL-1 and TNF. The effect of the gp41 peptides was more marked than that of gp120 peptides in most cases. These studies indicate that these HIV envelope glycoproteins may be directly responsible for aberrant lymphokine and monokine production in patients infected with this virus and therefore may be at least partially responsible for the pathogenesis of AIDS.
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PMID:Synthetic peptides corresponding to sequences in HIV envelope gp41 and gp120 enhance in vitro production of interleukin-1 and tumor necrosis factor but depress production of interferon-alpha, interferon-gamma and interleukin-2. 190 33

Simian immunodeficiency virus (SIV), a lymphocytopathic lentivirus, induces an AIDS-like disease in rhesus macaques (Macaca mulatta). A pathogenic molecular clone of rhesus macaque SIV (SIVmac), SIVmac-239, replicates and induces cytopathology in T lymphocytes but is restricted for replication in macrophages. In contrast, a nonpathogenic molecular clone of SIVmac, SIVmac-1A11, replicates and induces syncytia (multinucleated giant cells) in cultures of both T lymphocytes and macrophages. SIVmac-1A11 does not cause disease in macaques. To map the viral determinants of macrophage tropism, reciprocal recombinant genomes were constructed between molecular clones of SIVmac-239 and SIVmac-1A11. Infectious recombinant viruses were rescued by transfection of cloned viral genomes into permissive lymphoid cells. Analysis of one pair of reciprocal recombinants revealed that an internal 6.2-kb DNA fragment of SIVmac-1A11 was necessary and sufficient for both syncytium formation and efficient replication in macrophages. This region includes the coding sequences for a portion of the gag gene, all of the pol, vif, vpr, and vpx genes, the first coding exons of tat and rev, and the external env glycoprotein gp130. Thus, the transmembrane glycoprotein of env, the nef gene, the second coding exons of tat and rev, and the long terminal repeats are not essential for in vitro macrophage tropism. Analysis of additional recombinants revealed that syncytium formation, but not virus production, was controlled by a 1.4-kb viral DNA fragment in SIVmac-1A11 encoding only the external env glycoprotein gp130. Thus, gp130 env of SIVmac-1A11 is necessary for entry of virus into macrophages but is not sufficient for a complete viral replication cycle in this cell type. We therefore conclude that gp130 env and one or more genetic elements (exclusive of the long terminal repeats, transmembrane glycoprotein of env, and second coding exons of tat and rev, and nef) are essential for a complete replication cycle of SIVmac in rhesus macaque macrophages.
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PMID:Identification of viral determinants of macrophage tropism for simian immunodeficiency virus SIVmac. 192 Jun 17

Previous studies have demonstrated that the principal neutralizing determinant of human immunodeficiency virus type 1 (HIV-1) is located in the V3 loop of glycoprotein gp120. Antibodies prepared against this region using gp120 or peptides as immunogens have been predominantly HIV-1-isolate-specific. In the present studies, murine monoclonal antibodies (mAbs) were prepared against the HIV-1MN strain. One mAb, designated NM-01, was selected for its ability to neutralize both the MN and IIIB strains. Neutralization of H9-cell infectivity as determined by reverse transcriptase assay demonstrated an ID50 of less than 1 microgram/ml for both MN and IIIB. mAb NM-01 also blocked MN and IIIB infectivity in the MT-2 assay and inhibited their reactivity in syncytium formation. The results further demonstrate that mAb NM-01 binds to the V3 loop of gp120 at amino acids 312-326. This mAb reacted equally well with loop peptides from the MN, IIIB, RF, and CDC4 isolates. In contrast, there was less affinity with a similar peptide from the NY5 strain and little if any reactivity with loop peptides from the Z2, Z6, and ELI strains. We also demonstrate that peptides corresponding to the V3 loops of MN and IIIB, but not Z6, block neutralization of IIIB virus by mAb NM-01. These findings indicate that mAb NM-01 reacts with diverse HIV-1 isolates through the Gly-Pro-Gly-Arg sequence of the V3 loop.
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PMID:A broadly neutralizing monoclonal antibody that recognizes the V3 region of human immunodeficiency virus type 1 glycoprotein gp120. 196 39

CD4 (T4), a glycoprotein expressed largely on the surface of cells in the immune system, serves as the receptor for the human immunodeficiency virus, HIV. The isolation of the CD4 gene has permitted an analysis of the structure of CD4 and its role in both HIV infection and the immune response. Recently, new classes of CD4-based therapeutics have been generated that interfere with HIV attachment to target cells. Soluble CD4 proteins and CD4-based chimeric molecules are currently undergoing clinical evaluation in HIV-infected individuals.
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PMID:The CD4 molecule and HIV infection. 197 16

The FeLV-FAIDS strain of feline leukemia virus consistently induces fatal immunodeficiency. To investigate the immunopathogenesis and viral genetic determinants responsible for the induction of immunodeficiency disease in vivo, we have generated chimeras between the two major viral genomes in the original virus isolate, designated common form clone 61E and major variant clone 61C, which were molecularly cloned directly from DNA of the same animal and tissue. Each of three 61E/C chimeras, containing at minimum a 34-amino-acid segment (including a 6-amino-acid insertion and one amino acid substitution) near the C terminus of the 61C surface glycoprotein (gp70), induced fatal immunodeficiency disease in all (12 of 12) infected animals over a course of 33 +/- 10 weeks. By contrast, animals infected with virus 61E, although persistently antigenemic, remained asymptomatic throughout a 48-week observation period. Beginning 14 weeks after infection, a significant decrease (8 to 10%) in the percent of circulating CD4+ T lymphocytes developed in the 61E/C chimera-infected cats, compared with either 61E-infected or control animals. At this time, no significant changes were seen in CD8 cells, B cells, or mitogen-induced blastogenesis. Prior to this initial decline in CD4 cells, the ability of all antigenemic 61E/C-infected cats to generate a primary antibody response to the T-cell-dependent antigen keyhole limpet hemocyanin was markedly impaired, whereas all 61E-infected cats, one 61E/C-infected but nonviremic cat, and all uninfected control cats produced normal antibody responses. The results reported here demonstrate that a major determinant of in vivo immunodeficiency induction by FeLV-FAIDS is contained within a 34-amino-acid C-terminal segment of its surface glycoprotein and that this gp70 alteration determines the early and persistent deficits in CD4+ T lymphocytes and T-cell-dependent antibody responses. We hypothesize that these early immunologic alterations could result from early deletion of a CD4+ helper T-cell subset.
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PMID:Lymphocyte subset alterations and viral determinants of immunodeficiency disease induction by the feline leukemia virus FeLV-FAIDS. 197 22

Evidence of antibody-dependent enhancement of human immunodeficiency virus type 1 (HIV-1) infection via Fc receptor (FcR) was published previously (A. Takeda, C. U. Tuazon, and F. A. Ennis, Science 242:580-583, 1988). To define the entry mechanism of HIV-1 complexed with anti-HIV-1 antibody, we attempted to determine the receptor molecules responsible for mediating enhancement of HIV-1 infection of monocytic cells. Monoclonal antibodies to FcRI for immunoglobulin G substantially blocked antibody-dependent enhancement of HIV-1 infection. Furthermore, we demonstrate a requirement for the CD4 molecule in antibody-enhanced HIV-1 infection via FcR. Soluble CD4 prevented infection by HIV-1 antibody-treated virus, and enhancement of infection of virus-antibody complexes was abrogated by a monoclonal antibody to CD4 (anti-Leu3a antibody). Treatment of human macrophages with an anti-CD4 antibody also inhibited antibody-enhanced HIV-1 infection of macrophages, supporting our contention that antibody-dependent enhancement of HIV-1 infection via FcR requires CD4 interaction with the virus glycoprotein.
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PMID:Two receptors are required for antibody-dependent enhancement of human immunodeficiency virus type 1 infection: CD4 and Fc gamma R. 197 24

Inhibitors of glycoprotein processing, such as castanospermine (1,6,7,8-tetrahydroxyoctahydroindolizine), have been shown previously to inhibit human immunodeficiency virus type 1 (HIV-1) with acceptable toxicity in cultured human cells. In prior experiments, we have tested the toxicity and antiviral efficacy of castanospermine in mice infected with the Rauscher murine leukemia virus (RLV). When compared with 3'-azido-3'-deoxythymidine (AZT, zidovudine), castanospermine was less effective and more toxic. Since the 6-O-butanoyl analog of castanospermine was previously found to have a more favorable activity profile than the parent compound against HIV-1 in cultured cells, we compared the antiviral efficacy of both compounds in parallel in vitro and in vivo in the RLV system. Plaque formation in the XC assay was inhibited with a 50% inhibitory concentration (IC50) of 2.4 microM for the 6-O-butanoyl analog of castanospermine, as compared to 9 microM for castanospermine. For both compounds, concentrations resulting in significant cytotoxicity were about ten times higher. Both compounds significantly decreased HIV-1 env-induced syncytium formation in a novel in vitro assay. In RLV-exposed mice, the 6-O-butanoyl analog showed no advantage over the parent compound: both curves for toxicity as well as antiviral efficacy were super-imposable. We conclude that the 6-O-butanoyl analog of castanospermine as well as castanospermine itself are active antiviral agents in mice and that prolonged oral administration is tolerable. However, in comparison to AZT, their antiviral activity profiles are less favorable.
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PMID:Castanospermine vs. its 6-O-butanoyl analog: a comparison of toxicity and antiviral activity in vitro and in vivo. 198 55

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