Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

We have investigated the molecular basis of biological differences observed among cell line-adapted isolates of the human immunodeficiency virus types 1 and 2 (HIV-1 and HIV-2) and the simian immunodeficiency virus (SIV) in response to receptor binding by using a soluble form of CD4 (sCD4) as a receptor mimic. We find that sCD4 binds to the envelope glycoproteins of all of the HIV-1 isolates tested with affinities within a threefold range, whereas those of the HIV-2 and SIV isolates have relative affinities for sCD4 two- to eightfold lower than those of HIV-1. Treatment of infected cells with sCD4 induced the dissociation of gp120 from gp41 and increased the exposure of a cryptic gp41 epitope on all of the HIV-1 isolates. By contrast, neither dissociation of the outer envelope glycoprotein nor increased exposure of the transmembrane glycoprotein was observed when sCD4 bound to HIV-2- or SIV-infected cells. Moreover, immunoprecipitation with sCD4 resulted in the coprecipitation of the surface and transmembrane glycoproteins from virions of the HIV-2 and SIV isolates, whereas the surface envelope glycoprotein alone was precipitated from HIV-1. However, treatment of HIV-1-, HIV-2-, and SIV-infected cells with sCD4 did result in an increase in exposure of their V2 and V3 loops, as detected by enhanced antibody reactivity. This demonstrates that receptor binding to the outer envelope glycoprotein induces certain conformational changes which are common to all of these viruses and others which are restricted to cell line-passaged isolates of HIV-1.
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PMID:Conformational changes induced in the envelope glycoproteins of the human and simian immunodeficiency viruses by soluble receptor binding. 769 70

We have developed a strategy for the synthesis of novel oligodeoxynucleotide (ODN)-peptide conjugates on a scale suitable for the investigation of their potential as antisense inhibitors of gene expression. These conjugates have the 3'-terminus of the antisense oligodeoxynucleotide linked covalently to the N-terminus of a peptide. This strategy allows the preparation of conjugates containing a peptide segment designed to facilitate intracellular delivery of the antisense oligodeoxynucleotide as well as providing protection against 3'-exonuclease digestion. To illustrate the synthetic approach we describe the preparation of a series of conjugates comprising antisense oligonucleotides to human immunodeficiency virus type 1 (HIV) linked to fusion peptides derived from the HIV transmembrane glycoprotein gp41. The conjugates were prepared by the total synthesis method, in which the peptide is assembled first by the N-(fluorenylmethoxycarbonyl) (Fmoc) solid-phase methodology. This is followed by derivatization of the amino terminus by reaction with an alpha,omega-hydroxycarboxylic acid derivative which converts the terminus to a protected aliphatic hydroxy group on which standard solid phase DNA synthesis by the phosphoramidite method is performed. The purified conjugates were characterized extensively by several analytical techniques including ion spray mass spectrometry. Thermal denaturation studies showed that the interaction of the ODN-peptide conjugate with its complementary strand was similar to that of unmodified oligonucleotides. Preparation by the total synthesis method gave the purified conjugate with overall yields in the range of 6-14%.
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PMID:Preparation and characterization of antisense oligonucleotide-peptide hybrids containing viral fusion peptides. 771 Nov 3

The matrix (MA) protein of human immunodeficiency virus type 1 (HIV-1) forms the outer protein shell directly underneath the lipid envelope of the virion. The MA protein has a key role in different aspects of virus assembly, including the incorporation of the HIV-1 Env protein complex, which contains a transmembrane glycoprotein with an unusually long cytoplasmic tail. In this study, we compared the abilities of HIV-1 MA mutants to incorporate Env protein complexes with long and short cytoplasmic tails. While the mutant particles failed to incorporate the authentic HIV-1 Env protein complex, they retained the ability to efficiently and functionally incorporate the amphotropic murine leukemia virus Env protein complex, which has a short cytoplasmic tail. Moreover, incorporation of the autologous Env protein complex could be restored by a second-site mutation that resulted in the truncation of the cytoplasmic tail of the HIV-1 transmembrane glycoprotein. Remarkably, the second-site mutation also restored the ability of MA mutants to replicate in MT-4 cells. These results imply that the long cytoplasmic tail of the transmembrane glycoprotein is responsible for the exclusion of the HIV-1 Env protein complex from MA mutant particles.
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PMID:Rescue of human immunodeficiency virus type 1 matrix protein mutants by envelope glycoproteins with short cytoplasmic domains. 774 30

The transmembrane glycoprotein (gp41) of human immunodeficiency virus type 1 (HIV-1) has been implicated in the cytopathology observed during HIV infection. The first amino acids located at the amino terminus are involved in membrane fusion and syncytium formation, while sequences located at the carboxy terminus have been predicted to interact with membranes and modify membrane permeability. The HIV-1 gp41 gene has been cloned and expressed in Escherichia coli cells by using pET vectors to analyze changes in membrane permeability produced by this protein. This system is well suited for expressing toxic genes in an inducible manner and for analyzing the function of proteins that modify membrane permeability. gp41 enhances the permeability of the bacterial membrane to hygromycin B despite the low level of expression of this protein. To localize the regions of gp41 responsible for these effects, a number of fragments spanning different portions of gp41 were inducibly expressed in E. coli. Two regions of gp41 were shown to increase membrane permeability: one located at the carboxy terminus, where two highly amphipathic helices have been predicted, and another one corresponding to the membrane-spanning domain. Expression of the central region of gp41 comprising this domain was highly lytic for E. coli cells and increased membrane permeability to a number of compounds. These findings are discussed in the light of HIV-induced cytopathology and gp41 structure.
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PMID:Membrane permeabilization by different regions of the human immunodeficiency virus type 1 transmembrane glycoprotein gp41. 776 67

The role of the glycans of the human immunodeficiency virus type 1 transmembrane glycoprotein (gp41) in the intracellular events of Env precursor (gp160) biosynthesis has been examined by the use of a mutant gp160 in which the cluster of conserved glycosylation sites within the gp41 domain (Asn-621, -630 and -642) has been mutated. Expression of the wild-type and mutant forms of gp160 in BHK-21 cells using recombinant vaccinia viruses has shown that the kinetics of the events occurring in the endoplasmic reticulum (ER) were normal: both Env proteins had similar kinetics of disulphide bond formation, as determined by the acquisition of CD4-binding capability, and both had similar kinetics of oligomer formation. However, in contrast to the parental molecule, mutated gp160 displayed relatively slow transport from the cis to the medial Golgi where it was retained in the oligomeric state. Transport to the trans Golgi was impaired, as determined by the sensitivity of gp160 to glycosidases. Cleavage of mutated gp160 at the gp120/gp41 junction was substantially reduced but this was apparently not due to the involvement of the gp41 glycosylation in the cleavage reaction by furin inasmuch as, in the baculovirus system, mutated gp160 could be cleaved when recombinant furin was co-expressed. The reduced cleavage in mammalian cells may thus reflect the impaired routing of mutated Env to the compartment where cleavage occurs. The glycan component of gp41 is, therefore, important for the efficient intracellular transport and processing of gp160. gp160 lacking gp41 carbohydrates is an additional example, among few others, of a protein lacking glycans that is arrested in the Golgi rather than the ER following its biosynthesis.
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PMID:The glycosylation of human immunodeficiency virus type 1 transmembrane glycoprotein (gp41) is important for the efficient intracellular transport of the envelope precursor gp160. 778 80

The T-lymphotropic lentivirus, feline immunodeficiency virus (FIV) is now recognised as a major viral pathogen affecting domestic cat populations worldwide. A rapid, autologous red cell agglutination test for antibodies to FIV has been developed. A synthetic peptide analog corresponding to the immunodominant epitope within the FIV transmembrane glycoprotein gp40 residues (680-715) KVEAMEKFLYTAFAMQELGC (Acm)NQNQFFK(BrAc)KIPLELWTR was conjugated to an anti-feline erythrocyte antibody using a thio-ether linkage. Within 3 min of adding this reagent to 20 microliters of whole blood, circulating antibody to the peptide epitope caused agglutination of the red blood cells. The performance of this simple test is comparable with the two commercially available enzyme immunoassay (EIA) kits and an EIA based on this peptide. A variant of the gp40 (680-715) peptide corresponding to the FIV, PPR strain gp40 (678-716) sequence was also synthesised and no difference in reactivity was observed in an EIA on 211 seropositive samples, indicating that the peptide-based test may be applicable to other known strains of the virus.
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PMID:Autologous red cell agglutination test for antibodies to feline immunodeficiency virus. 781 59

Oligomerization of the human immunodeficiency virus type 1 envelope (env) glycoproteins is mediated by the ectodomain of the transmembrane glycoprotein gp41. We report that deletion of gp41 residues 550 to 561 resulted in gp41 sedimenting as a monomer in sucrose gradients, while the gp160 precursor sedimented as a mixture of monomers and oligomers. Deletion of the nearby residues 571 to 582 did not affect the oligomeric structure of gp41 or gp160, but deletion of both sequences resulted in monomeric gp41 and predominantly monomeric gp160. Deletion of residues 655 to 665, adjacent to the membrane-spanning sequence, partially dissociated the gp41 oligomer while not affecting the gp160 oligomeric structure. In contrast, deletion of residues 510 to 518 from the fusogenic hydrophobic N terminus of gp41 did not affect the env glycoprotein oligomeric structure. Even though the mutant gp160 and gp120 molecules were competent to bind CD4, the mutations impaired fusion function, gp41-gp120 association, and gp160 processing. Furthermore, deletion of residues 550 to 561 or 550 to 561 plus 571 to 582 modified the antigenic properties of the proximal residues 586 to 588 and the distal residues 634 to 664. Our results indicate that residues 550 to 561 are essential for maintaining the gp41 oligomeric structure but that this sequence and additional sequences contribute to the maintenance of gp160 oligomers. Residues 550 to 561 map to the N terminus of a putative amphipathic alpha-helix (residues 550 to 582), whereas residues 571 to 582 map to the C terminus of this sequence.
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PMID:Determinants of human immunodeficiency virus type 1 envelope glycoprotein oligomeric structure. 781 97

We have demonstrated previously that a human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein containing a Val-to-Glu substitution at the second amino acid of the transmembrane glycoprotein gp41 (termed the 41.2 mutant) dominantly interferes with wild-type envelope-mediated syncytium formation and virus infectivity. To understand the mechanism by which the 41.2 mutant exerts the dominant interfering phenotype and thereby determine further how the mutant might be used as an inhibitor of viral spread, additional mutations were made in the envelope gene, and the effects of these mutations on interference were determined. It was found that processing of the 41.2 mutant glycoprotein in gp120 and gp41 subunits and a functional CD4-binding domain are necessary for the interfering phenotype to be exhibited fully. However, neither a wild-type V3 loop nor the gp41 cytoplasmic tail is necessary for efficient interference. In addition, it was determined that the dominant interfering phenotype is not conferred exclusively by the glutamate substitution at amino acid 2 of gp41, since a substitution with a basic residue at this position also results in a dominant interfering envelope glycoprotein.
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PMID:Effects of second-site mutations on dominant interference by a human immunodeficiency virus type 1 envelope glycoprotein mutant. 781 19

The primary cellular receptor for the human and simian immunodeficiency viruses HIV-1, HIV-2 and SIV is the CD4 antigen (Sattentau et al. 1988; Sattentau & Weiss 1988). HIV infection of CD4+ cells is initiated by binding of the virus to the cell surface, via a high-affinity interaction between the first domain of CD4 and the HIV outer envelope glycoprotein, gp120. The use of a soluble recombinant form of CD4 (sCD4) as a receptor mimic has simplified the analysis of receptor binding and post-binding events which result in virus-cell membrane fusion. With cell-line adapted isolates of HIV-1, sCD4 binding induces conformational changes in gp120, leading to the complete dissociation of gp120 from the transmembrane glycoprotein, gp41, and exposing cryptic epitopes of gp41. Similar observations have been made with cell-anchored CD4: recruitment of CD4 molecules leads to exposure of cryptic gp41 epitopes at the fusion interface between clusters of CD4 expressing and HIV-infected cells. It has therefore been proposed that CD4 binding induces exposure of fusogenic components of gp41 which mediate virus-cell membrane coalescence, a process termed receptor-mediated activation of fusion. With the related lentiviruses HIV-2 and SIV, the CD4 induced molecular rearrangements in gp120 are more subtle, implying that there is a spectrum of responses to sCD4 binding.
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PMID:The role of CD4 in HIV binding and entry. 790 48

To examine the role of the glycans of human immunodeficiency virus type 1 transmembrane glycoprotein gp41, conserved glycosylation sites within the env sequence (Asn-621, Asn-630, and Asn-642) were mutated to Gln. The mutated and control wild-type env genes were introduced into recombinant vaccinia virus and used to infect BHK-21 or CD4+ CEM cells. Mutated gp41 appeared as a 35-kDa band in a Western blot (immunoblot), and it comigrated with the deglycosylated form of wild-type gp41. Proteolytic cleavage of the recombinant wild-type and mutant forms of the gp160 envelope glycoprotein precursor was analyzed by pulse-chase experiments and enzyme-linked immunosorbent assay: gp160 synthesis was similar whether cells were infected with control or mutated env-expressing recombinant vaccinia virus, but about 10-fold less cleaved gp120 and gp41 was produced by the mutated construct than the control construct. The rates of gp120-gp41 cleavage at each of the two potential sites appeared to be comparable in the two constructs. By using a panel of antibodies specific for gp41 and gp120 epitopes, it was shown that the overall immunoreactivities of control and mutated gp41 proteins were similar but that reactivity to epitopes at the C and N termini of gp120, as present on gp160 produced by the mutated construct, was enhanced. This was no longer observed for cleaved gp120 in supernatants. Both gp120 proteins, from control and mutated env, were expressed on the cell surface under a cleaved form and could bind to membrane CD4, as determined by quantitative immunofluorescence assay. In contrast, and despite sufficient expression of env products at the cell membrane, gp41 produced by the mutated construct was unable to induce membrane fusion. Therefore, while contradictory results reported in the literature suggest that gp41 individual glycosylation sites are dispensable for the bioactivity and conformation of env products, it appears that such is not the case when the whole gp41 glycan cluster is removed.
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PMID:Functional role of the glycan cluster of the human immunodeficiency virus type 1 transmembrane glycoprotein (gp41) ectodomain. 809 18


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