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

A detailed kinetic and quantitative analysis of the early and late biosynthetic events undergone by the human immunodeficiency virus type 1 envelope protein expressed by a recombinant vaccinia virus was performed. Early folding events that occurred in the endoplasmic reticulum included disulfide bond formation (t1/2 approximately 10 min), folding of envelope protein into a form competent to bind CD4 (t1/2 approximately 15 min), and specific and transient association and dissociation with GRP78-BiP (t1/2 approximately 25 min). After initial folding, envelope protein monomers formed noncovalently associated dimers with high efficiency (t1/2 approximately 30 min). Studies with brefeldin A, a compound that inhibits endoplasmic reticulum-to-Golgi transport, suggested that assembly occurred in the endoplasmic reticulum while cleavage of gp160 into gp120/gp41 subunits occurred in a post-endoplasmic reticulum compartment. Transport to the Golgi was monitored by modification of N-linked sugars to forms partially resistant to endoglycosidase H. The kinetics of endoglycosidase H resistance were nearly identical to the kinetics of gp160 cleavage (t1/2 approximately 80 min). Cleavage efficiency was strongly cell type dependent, ranging from 13 to 70%. By contrast, approximately 50% of the gp120 generated by the cleavage event was shed (t1/2 approximately 120 min) regardless of the cell type used. The results are discussed in terms of the overall biosynthetic pathway of the envelope protein and provide a framework with which to assess the effects of mutations on structure and function.
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PMID:Folding, interaction with GRP78-BiP, assembly, and transport of the human immunodeficiency virus type 1 envelope protein. 190 May 40

The effects of oxygen deprivation, or anoxia, on human immunodeficiency virus (HIV-1) expression in chronically (ACH.2) and acutely (H9/HIV-1-IIIB) infected cell lines was investigated. Temporary cellular anoxia has previously been shown to activate transcription of endogenous type C leukemia virus sequences, resulting in a significant increase in retroviral RNA within the cell (1). Here we report a 15-fold increase in HIV-1-specific RNA in unstimulated ACH.2 T cells within 24 h of anoxia. This induction of RNA is accompanied by an accumulation of intracellular p24 gag protein as well as an increase in envelope protein. Anoxia induces a further increase in total HIV-1 RNA in ACH.2 cells prestimulated to produce virus by phorbol 12-myristate 13-acetate and in H9 T cells acutely infected with HIV-1-IIIB. The induction of RNA in ACH.2 cells appears to be reversible. Anoxic culture for 24 h followed by a 24-h re-oxygenation period results in a return to "resting state" levels of HIV-1 RNA. These data indicate that oxygen tension within the cellular environment modulates HIV-1 expression, providing a model system in which to study the reversible regulation of HIV-1 RNA and viral gene products within the cell.
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PMID:Anoxia induces human immunodeficiency virus expression in infected T cell lines. 190 63

Pretreatment of HeLa T4 cells with recombinant alpha, beta, or gamma interferon (IFN) was found to significantly inhibit syncytium formation induced by the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein. All three IFNs were found to be potent inhibitors of fusion in a system in which Spodoptera frugiperda cells, infected with a baculovirus recombinant expressing the HIV-1 envelope protein, were cocultivated with HeLa T4 cells. In addition, these IFNs were also found to block HeLa T4 cell fusion induced by the HIV-1 envelope proteins expressed from a vaccinia virus recombinant. Furthermore, the IFNs inhibited cell fusion between HIV-1 envelope glycoprotein-expressing cells and either immortalized or fresh CD4+ lymphocytes pretreated with the IFNs. These results suggest that further testing of human IFNs for therapy of HIV-1 infection will be of interest.
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PMID:Inhibition of human immunodeficiency virus type 1-induced cell fusion by recombinant human interferons. 192 Jun 34

A titer for homologous viral neutralization activity (greater than 1:19,683) was observed after a 3.5-year immunization period with an octameric, branching peptide representing the principal neutralizing determinant (PND) of the human immunodeficiency virus-1IIIB envelope protein. Booster immunizations elicited persistent and potent antibodies in guinea pigs, exceeding responses produced by a conventional bovine serum albumin conjugate by 100-fold. Peptide length, central presentation of a conserved sequence, and inclusion of an upstream sequence contributed to immunogenicity. Titers (greater than 1:1,000) of heterotypic neutralizing antibodies also developed. Octameric PND peptides are a promising approach for an acquired immunodeficiency syndrome (AIDS) vaccine.
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PMID:Long-term high-titer neutralizing activity induced by octameric synthetic HIV-1 antigen. 192 84

Recombinant retroviral vectors can efficiently transduce and express foreign genes in mammalian cells. We have examined the utility of retroviral vector-mediated gene transfer to deliver genes which encode human immunodeficiency virus type I (HIV) antigens capable of stimulating specific immune responses. Murine fibroblast cell lines were transduced with a nonreplicating murine retroviral vector carrying the gene encoding the HIV-IIIB envelope protein and were shown to express the gp160/120 protein. Mice immunized with syngeneic vector-transduced cells developed CD8+, class I major histocompatibility complex (MHC)-restricted cytotoxic T lymphocytes (CTL) specific for targets expressing the HIV envelope protein. The CTL also exhibited lytic activity on target cells coated with synthetic peptides derived from the gp120 V3 hypervariable region of both the HIV-IIIB and HIV(MN) isolates. Following adoptive transfer in a murine tumor model, these CTL were shown to be effective in vivo by their ability to eliminate established tumor cells expressing the HIV protein. Vector-transduced syngeneic cells were also capable of eliciting HIV envelope-specific antibody responses in immunized mice. Sera obtained from these mice were found to bind to the HIV-IIIB gp160 protein as well as a peptide-defined neutralizing antibody epitope contained within the V3 domain of gp120. These sera exhibited virus-neutralizing activity in that they markedly reduced the ability of HIV to infect and form syncytia of a human T-cell line. This is the first demonstration that cells transduced with a retroviral vector encoding the HIV-IIIB envelope protein are capable of inducing effective HIV-specific cellular and humoral immune responses in mice.
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PMID:Induction of HIV-specific CTL and antibody responses in mice using retroviral vector-transduced cells. 193 Dec 34

With the isolation of the human immunodeficiency virus (HIV), numerous assays have been developed to detect antibodies to the retrovirus. The manufacturers' recommend that all sera exhibiting a positive enzyme immunoassay be confirmed by the more specific Western blot test (WBT). Recently, a new WBT strip was released for detection of antibodies to HIV. Four hundred patients' sera and 22 CDC proficiency samples were each tested with these strips and with a WBT strip prepared within the laboratory using the CDC techniques. The strips were then evaluated for banding pattern with the reactions recorded on a scale of 0 to 4+ for each band consistent with HIV response. Criteria for positive results were based on the ASTPHLD/CDC criteria. Primary emphasis was on antibody banding to gp41 (envelope protein) and p24 (core protein). The new strips showed appropriate changes in level of antibody, especially for declining antibody to p24. When the banding pattern for antibody to gp41 was compared to the standard strips, the new strips showed a sensitivity of 99.6% and specificity of 99.4%. The presence or absence of antibody to p24 on the new strips versus the standard strips showed a sensitivity of 93.7% and specificity of 99.5%.
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PMID:Evaluation of a new western blot strip for human immunodeficiency virus. 194 52

Although the immunodeficiency diseases associated with human immunodeficiency virus (HIV) 1 and 2 are indistinguishable from each other, there is some evidence that HIV-2 isolates may have a longer incubation period. Thus, an investigation was conducted of the biological properties and molecular variability of the spectrum of HIV-2 isolates existing in The Gambia. Serum samples were obtained from 20 HIV-2-positive individuals attending a sexually transmitted diseases clinic in Fajara. Seven new HIV-2 isolates (CBL-20 to CBL-26) were identified. Each differed in terms of its growth rate, cytopathogenicity in vitro, and sensitivity to neutralizing antibodies in patient sera. In addition, there was a close association between the isolates' in vitro cytopathogenicity and the clinical cytopathogenic strains, were obtained from the two patients with acquired immunodeficiency syndrome (AIDS). In contrast, patients from whom CBL-25 and 26 were isolated have been asymptomatic for at least 3 years. CBL-22 was highly sensitive to neutralization by HIV-2 sera and was cross-neutralized by some HIV-1 sera. It is speculated that the observed differences in sensitivity to neutralization reflect differences in antigenic epitope expression or the number and presentation of envelope glycoprotein molecules on an infectious virion. Analysis of the molecular weight of the envelope precursor and the outer envelope protein of various HIV-2 isolates revealed that all the CBL isolated and SBL-6669 have smaller envelope proteins than the prototype strain, LAV-2 ROD. Also observed were differences in the amino acid sequences of these HIV-2 isolates.
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PMID:Biological and molecular variability of human immunodeficiency virus type 2 isolates from The Gambia. 197 44

The human CD4 molecule binds both human immunodeficiency virus envelope protein gp120 and class II major histocompatibility complex (MHC) molecules. We have studied a series of mutants in the region of amino acids 42-49 of CD4 for their ability to bind gp120, to interact with class II MHC, to enhance T-cell activation, and to bind a panel of anti-CD4 antibodies. The mutation Q40P (Gln40----Pro) and the deletion d42-49 were found to disrupt most antibody epitopes in the V1 domain of CD4, suggesting major conformational changes, whereas mutants F43L, G47R, and P48S retained the binding of most of the anti-CD4 antibodies tested. The mutants d42-49, Q40P, F43L, and G47R lost both gp120 and class II MHC binding as well as the ability to enhance T-cell activation. In contrast, the mutation P48S affected neither gp120 binding, nor class II MHC binding, nor T-cell activation. We conclude that within this region the binding sites for gp120 and for class II MHC molecules overlap and that amino acids Phe43 and Gly47 comprise an intimate part of both binding sites. These observations are consistent with a three-dimensional model of the V1 domain of CD4 that was developed in order to understand the structural basis for binding to CD4.
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PMID:Identification and structural analysis of residues in the V1 region of CD4 involved in interaction with human immunodeficiency virus envelope glycoprotein gp120 and class II major histocompatibility complex molecules. 197 41

The effects of C-terminal and internal deletions on the synthesis, transport, biological properties, and antigenicity of the human immunodeficiency virus type 1 envelope protein were determined. A family of recombinant vaccinia viruses that express N-terminal overlapping env proteins of 204, 287, 393, 502 (full-length gp120), 635, 747, and 851 (full-length gp160) amino acids was constructed. All of the proteins were detected in intra- and extracellular forms which differed in the extent of glycosylation. The 747- and 851-amino-acid proteins were cleaved, were expressed on the surface of infected cells, and bound CD4. The 635-amino-acid env protein was cleaved inefficiently, and both the precursor and product were secreted, indicating absence of the transmembrane sequence. The 635- as well as the 502-amino-acid protein, which was also largely secreted, could still bind CD4. Unexpectedly, the 393-amino-acid protein was anchored in the plasma membrane, but neither it nor smaller proteins bound to soluble CD4. When amino acids at the gp120-gp41 junction were deleted, proteolytic cleavage of gp160 did not occur. Nevertheless, gp160 was inserted into the plasma membrane and bound soluble CD4. The predominant conserved B-cell epitopes were mapped to gp41 and the C terminus of gp120, whereas cytotoxic T-cell epitopes were distributed throughout the length of the glycoproteins.
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PMID:Biological and immunological properties of human immunodeficiency virus type 1 envelope glycoprotein: analysis of proteins with truncations and deletions expressed by recombinant vaccinia viruses. 198 2

To gain insights into the structure-function relationship of the envelope (env) glycoprotein of the human immunodeficiency virus type 1 (HIV-1) we have generated a vaccinia virus (VV) recombinant (VV-14kENV) that expresses a fusion protein (14k-env) consisting of the VV 14-kDa envelope protein (110 amino acids) fused at the C-terminus with HIV-1 env protein (816 amino acids). The 14k-env protein displayed unique structural properties in virus-infected cells. This protein was recognized by 14 kDa-specific antisera as well as HIV-1 env antisera. It was not cleaved during virus infection of cultured cells of various origins, it was stable, it was not released to the medium, and it was not incorporated into virions. Instead of a predicted 174-kDa protein, two proteins of about 110 and 100 kDa were observed. The size reduction of the fusion protein was due to limited glycosylation (110 kDa) and formation of unglycosylated protein (100 kDa). The 14k-env protein formed oligomeric structures and was exposed on the cell surface after virus infection. When mice were inoculated with the recombinant virus that expresses the 14K-env fusion protein, humoral immune response against gp160 was observed. Our findings suggest that 14k-env protein might display novel immunogenic properties.
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PMID:Structural properties of HIV-1 Env fused with the 14-kDa vaccinia virus envelope protein. 201 47

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