UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
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Leucine-rich nuclear export signals (NESs) are recognized by the NES receptor exportin 1 and are central to the export of multiple shuttling proteins and RNAs. The export of messenger RNA in vertebrates was, however, thought to occur by a different pathway, because inhibition by injection of a synthetic Rev NES conjugate could not be demonstrated. Here we find that peptide conjugates composed of the NES of either protein kinase A inhibitor protein (PKI) or the HIV-1 Rev protein, when coupled to human serum albumin, are potent inhibitors of mRNA and small nuclear RNA export. These results provide direct evidence that mRNA export in vertebrates depends on interactions between an NES and its cognate NES receptors. PKI NES conjugates are significantly more efficient at inhibiting RNA export than are REV NES conjugates, indicating that different NESs may have different abilities to promote protein and RNA export. Surprisingly, an expected control conjugate containing the mutant Rev NES sequence M10 strongly inhibited the export of intronless dihydrofolate reductase mRNA. Nuclear injection of NES peptide conjugates led to mislocalization to the nucleus of 10-20% of the cytoplasmic Ran GTPase-binding protein (RanBP1) indicating that RanBP1 shuttles between the nucleus and the cytoplasm via an NES pathway. These results demonstrate that in vertebrates the export of mRNA, like that of small nuclear RNA, 5S rRNA, and transport factors such as RanBP1, employs NES-mediated molecular machinery.
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PMID:Inhibition of mRNA export in vertebrate cells by nuclear export signal conjugates. 940 23

The immune complex transfer enzyme immunoassays for antibody IgGs to p17, p24, and reverse transcriptase (RT) of HIV-1 were tested under various conditions. Antibody IgGs to HIV-1 were reacted for up to 20 hr with 2,4-dinitrophenyl-bovine serum albumin-recombinant HIV-1 protein conjugates and recombinant HIV-1 protein-beta-D-galactosidase conjugates, and the immune complexes formed, comprising the three components, were trapped onto polystyrene beads coated with (anti-2,4-dinitrophenyl group) IgG by incubation at 4-30 degrees C for up to 2 hr with shaking and were transferred onto polystyrene beads coated with (antihuman IgG gamma-chain) IgG in the presence of excess of epsilon N-2,4-dinitrophenyl-L-lysine by incubation at 4-30 degrees C for up to 2 hr with shaking. When serum randomly collected from an HIV-1 seropositive subject and serum included in an Western blot kit were tested, the formation of the immune complex was almost completed within 1 hr for antibody IgG to p17, within 1-2 hr for antibody IgG to p24 and within 4 hr for antibody IgG to RT. Even for antibody IgG to p17, however, the immune complex continued to be formed for at least 2 hr, when serum samples at early stages of HIV-1 infection were tested. Trapping and transferring of the immune complexes were faster at higher temperatures and were almost completed within 0.5-1.5 hr, although the amount of the immune complexes trapped and transferred at 25 and/or 30 degrees C increased for 0.5-1 hr, but subsequently tended to decline. When the formation, trapping, and transferring of the immune complexes were performed for 0.5, 1, and 1 hr, respectively, with shaking followed by 1 hr assay of bound beta-D-galactosidase activity, the sensitivities for antibody IgGs to p17, p24, and RT using 10 microliters of serum samples were similar to or significantly higher than those of the corresponding previous immune complex transfer enzyme immunoassays using 10 microliters of serum samples, in which the formation, trapping, and transferring of the immune complexes were performed for 3, 16, and 3 hr, respectively, without shaking, followed by 2.5 hr assay of bound beta-D-galactosidase activity, and the sensitivities for antibody IgGs to p17, p24, and RT using 100 microliters of serum samples were 21-22-fold, 5.5-6.3-fold, and 5.3-6.0-fold, respectively, higher. When each period of time for the formation, trapping, and transferring of the immune complexes was prolonged to up to 4 hr, the sensitivities for antibody IgGs to p17, p24, and RT using 100 microliters of serum samples were improved 88-93-fold, 15-17 fold and 20-24-fold, respectively, as compared with those of the previous ones.
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PMID:Optimal conditions of immune complex transfer enzyme immunoassays for antibody IgGs to HIV-1 using recombinant p17, p24, and reverse transcriptase as antigens. 952 94

In the immune complex transfer enzyme immunoassay for HIV-1 p24 antigen, different preparations of anti-p24 Fab'-beta-D-galactosidase conjugate, various periods of time for immunoreactions involved, and shaking for incubations with polystyrene beads were tested. On the basis of the results of these experiments, p24 antigen was measured as follows. The antigen was reacted simultaneously with 2,4-dinitrophenyl-biotinyl-bovine serum albumin-affinity-purified rabbit anti-p24 Fab' conjugate and highly polymerized monoclonal mouse anti-p24 Fab'-beta-D-galactosidase conjugate at 37 degrees C for 2 hr. The immune complex formed comprising the three components was trapped onto colored polystyrene beads coated with affinity-purified (anti-2,4-dinitrophenyl group) IgG for 1.5 hr and was transferred to white polystyrene beads coated with streptavidin in the presence of epsilon N-2,4-dinitrophenyl-L-lysine for 1.5 hr. The incubations with polystyrene beads were performed at room temperature with shaking. beta-D-Galactosidase activity bound to the white polystyrene beads was assayed by fluorometry at 30 degrees C for 2 hr. The detection limit of p24 antigen (0.1 amol/tube and 10 amol (0.24 pg)/ml of serum) was equal to that obtained when the formation, trapping, and transferring of the immune complex were performed for 4, 16, and 3 hr, respectively, by incubation without shaking. Namely, the period of time required for the immune complex transfer enzyme immunoassay of p24 antigen was markedly shortened (25.5-7 hr) without loss of the sensitivity. By the improved immune complex transfer enzyme immunoassay, p24 antigen was detected 12-20 days earlier than the detection of antibodies to HIV-1, i.e., seroconversion by the conventional ELISA.
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PMID:Optimal conditions of immune complex transfer enzyme immunoassay for p24 antigen of HIV-1. 952 96

The effect of subchronic intracerebroventricular (i.c.v.) injection of the human immunodeficiency virus type 1 (HIV-1) recombinant protein gp120 (100 ng, given daily for up to 7 consecutive days) on cyclooxygenase type 2 (COX-2) expression was studied by immunohistochemistry in the brain of adult rats. In comparison to control, bovine serum albumin (100 ng, given i.c.v. for up to 7 days) treated animals (n = 6), a single daily injection of the viral protein for 7 consecutive days enhanced the number of COX-2 immunoreactive cells in the brain cortex of rats (n = 6 per group) and this was accompanied by a 50% increase over control PGE2 content in whole brain tissue homogenates (n = 6). In another series of experiments, pretreatment of rats (n = 6) with indomethacin (6.0 mg/kg given i.p. 1 h before gp120 injection), an inhibitor COX activity, prevented apoptotic death typically produced by gp120 in the neocortex of rat suggesting that enhancement of COX-2 expression may be involved in the mechanisms of apoptosis yielded by the HIV-1 coat protein.
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PMID:HIV-1 gp120-induced apoptosis in the rat neocortex involves enhanced expression of cyclo-oxygenase type 2 (COX-2). 953 50

The adsorption of the proteins, bovine serum albumin, fibrinogen, avidin and neutravidin (non-glycosylated form of avidin) to a variety of surfaces imposed on thickness shear mode sensors in examined in a flow-injection analysis format. In all cases, adsorption of these moieties was essentially irreversible, although the magnitude of adsorption was dependent on surface free energy and functional group chemistry. Also described is the direct, real-time detection of the binding of peptides to HIV-1 TAR RNA bound on a thickness-shear mode (TSM) sensor surface. The results clearly indicate that responses are discriminatory for two different peptides. In order to provide a theoretical backcloth for the experimental measurements, a new model for the operation of the TSM in liquids is presented.
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PMID:Acoustic waves and the real-time study of biochemical macromolecules at the liquid/solid interface. 956 75

This work tests the hypothesis that chronic alcohol intoxication suppresses the microbicidal activity of Kupffer cells by modulating the expression of cell surface receptors associated with respiratory burst and the release of potent microbicidal agents [i.e., reactive oxygen species (ROS)]. Because alcohol is also a potential risk factor in human immunodeficiency virus-1 (HIV-1) infection, this study examines the effect of HIV-1 glycoprotein 120 (gp120)-induced ROS release by isolated Kupffer cells. After 16 weeks of ethanol feeding, Kupffer cells from male Sprague-Dawley rats were isolated and assayed for HIV-1 gp120-induced superoxide release. Fluorescein isothiocyanate (FITC)-HIV-1 gp120 binding, NADPH oxidase, and protein kinase C activity in Kupffer cells were measured. Results show that HIV-1 gp120 induced the release of superoxide anion in a dose-dependent manner in normal rats. Mannosylated-bovine serum albumin inhibited FITC-HIV-1 gp120-mediated superoxide release in normal Kupffer cells by 85%. Moreover, 83 +/- 6% of Kupffer cells were FITC-HIV 1 gp120-positive, whereas <30% were CD4-positive. In alcohol-fed rats, HIV-1 gp120-induced ROS release was reduced by 70% and FITC-HIV-1 gp120 binding (in terms of fluorescence intensity per 10[6] Kupffer cells) by 44% in Kupffer cells, without any change in percent positive cells for this ligand. Concomitantly, HIV-1 gp120-induced translocation of NADPH oxidase to the plasma membranes of Kupffer cells in alcohol-fed rats was suppressed by 60%. In contrast, alcohol consumption significantly increased total protein kinase C activity and phorbol ester-induced superoxide release by Kupffer cells. These studies demonstrate that Kupffer cells are likely targets of HIV-1 whose binding sites on macrophages could also include mannose-specific receptors. These observations further suggest that suppression of HIV-1 gp120-mediated ROS production in chronic alcoholics is due to altered cell surface receptor expression for gp120, and defective postreceptor signaling mechanisms, which in turn could lead to attenuated microbicidal activity of hepatic macrophages.
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PMID:Chronic alcohol intoxication attenuates human immunodeficiency virus-1 glycoprotein 120-induced superoxide anion release by isolated Kupffer cells. 958 56

The V3 loop of the gp120 envelope glycoprotein contains the principal neutralizing determinant of HIV-1. Many serological studies have been carried out to assess the reactivity of HIV-1 infected individuals against V3 loop synthetic peptides from different HIV-1 subtypes. V3 directed serology has also been used to demonstrate the association between ELISA reactivity and progression to AIDS in HIV patients, and to study the reactivity against the V3 region in sera from vaccinated animals and human volunteers. The advantage of the use of bovine serum albumin (BSA) conjugated V3 peptides over free V3 peptides for ELISA is described. 15 meric V3 peptides representing several HIV-1 isolates were synthesized, chemically coupled to BSA, and used to coat ELISA microplates. Conjugated peptides were compared with free peptides for the detection of anti V3 antibodies in the sera from rabbits immunized with V3 containing chimeric proteins and from HIV-1 infected individuals. No differences in reactivity against free or BSA-peptide were found for most rabbit sera, however human plasma recognized preferentially the BSA conjugated peptides. Although technically more complex, ELISA with BSA coupled V3 peptides is more sensitive and appropriate for serological studies of HIV-1 infected persons.
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PMID:An immunoassay with bovine serum albumin coupled peptides for the improved detection of anti V3 antibodies in HIV-1 positive human sera. 962 16

Viral protein r (Vpr), a HIV-1 auxiliary protein which mediates nuclear import of the viral preintegration complex (PIC), contains two regions, N- and C-terminal, which have been proposed to function as a nuclear localization signal (NLS). We have synthesized peptides corresponding to both regions (designated as VprN and VprC), conjugated them to bovine serum albumin (BSA), and tested their ability to mediate nuclear import in permeabilized cells. Only VprN, and not VprC, functioned as an active NLS and promoted translocation of the conjugate into nuclei. Nuclear import of the conjugate was found to be energy and temperature dependent and was inhibited by wheat germ agglutinin (WGA). However, it did not require the addition of cytosolic factors and was not inhibited by the prototypic SV40 large T-antigen NLS peptide. Our results show that Vpr harbours a non-conventional negatively charged NLS and therefore suggest that Vpr may use a distinct nuclear import pathway.
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PMID:A peptide derived from the N-terminal region of HIV-1 Vpr promotes nuclear import in permeabilized cells: elucidation of the NLS region of the Vpr. 966 62

The immune complex transfer enzyme immunoassay for antibody IgG to HIV-1 gp41 antigen was developed using two synthetic peptides. An aliquot (10 microl) of serum samples from HIV-1 seropositive subjects was incubated simultaneously with 2,4-dinitrophenyl-bovine serum albumin-synthetic HIV-1 gp41 peptide conjugates and synthetic HIV-1 gp41 peptide-beta-D-galactosidase conjugates and subsequently with colored polystyrene beads coated with affinity-purified (anti-2,4-dinitrophenyl group) IgG to trap the immune complexes formed comprising the three components. After washing, the colored polystyrene beads were incubated with white polystyrene beads coated with affinity-purified (anti-human IgGgamma-chain) IgG in the presence of epsilonN-2,4-dinitrophenyl-L-lysine to transfer the immune complexes to the white polystyrene beads. Beta-D-Galactosidase activity bound to the white polystyrene beads was assayed by fluorometry. The formation, trapping and transferring of the immune complexes were completed within 0.5, 0.5 and 1.5 hr, respectively. Since each peptide appeared to react with its own specific antibody IgG, serum samples were tested by the equimolar combination of the two peptides. The lowest signals (fluorescence intensities for bound beta-D-galactosidase activity) for serum samples from HIV-1 asymptomatic carriers, patients with AIDS-related complex and patients with AIDS were 1490-, 2210- and 1460-fold, respectively, higher than the highest signal for serum samples from HIV-1 seronegative subjects. In five seroconversion serum panels, antibody IgG to HIV-1 gp41 antigen was detected as early as antibodies to HIV-1 detected by three currently commercially available methods.
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PMID:Immune complex transfer enzyme immunoassay for antibody IgG to HIV-1 gp41 antigen using synthetic peptides as antigens. 967 Nov 70

The immune complex transfer enzyme immunoassay for HIV-1 p24 antigen was performed in three different ways (in the present immunoassays I, II, and III) within much shorter periods of time than previously reported. In the present (simultaneous) immunoassay I, p24 antigen was incubated simultaneously with 2,4-dinitrophenyl-biotinyl-bovine serum albumin-affinity-purified rabbit anti-p24 Fab' conjugate and monoclonal mouse anti-p24 Fab'-beta-D-galactosidase conjugate in a total volume of 19 microL for 15 min to form the immune complex comprising the three components. The reaction mixture was incubated with a polystyrene bead of 6.35 mm in diameter coated with affinity-purified (anti-2,4-dinitrophenyl group) IgG for 5 min to trap the immune complex. After washing, the polystyrene bead was incubated with 35 microL of epsilonN-2,4-dinitrophenyl-L-lysine for 15 min to elute the immune complex (the first eluate) and, after removing the first eluate, with an additional 35 microL of epsilonN-2,4-dinitrophenyl-L-lysine for 1 min (the second eluate). The first and second eluates were incubated with a polystyrene test tube (12 x 75 mm) coated with streptavidin for 15 min. In the present (sequential) immunoassay II, a polystyrene bead of 6.35 mm in diameter successively coated with affinity-purified (anti-2,4-dinitrophenyl group) IgG and 2,4-dinitrophenyl-biotinyl-bovine serum albumin-affinity-purified rabbit anti-p24 Fab' conjugate was incubated with p24 antigen in a total volume of 20 microL for 5 min and subsequently with monoclonal mouse anti-p24 Fab'-beta-D-galactosidase conjugate in a volume of 5 microL for 20 min. The immune complex formed on the polystyrene bead was transferred to a polystyrene test tube coated with streptavidin as described above. In the present (sequential) immunoassay III, p24 antigen was incubated with monoclonal mouse anti-p24 Fab'-beta-D-galactosidase conjugate in a total volume of 19 microL for 10 min and with a polystyrene bead of 6.35 mm in diameter coated successively with affinity-purified (anti-2,4-dinitrophenyl group) IgG and 2,4-dinitrophenyl-biotinyl-bovine serum albumin-affinity-purified rabbit anti-p24 Fab' conjugate for 20 min. The immune complex formed on the polystyrene bead was transferred as described above. The incubations were performed at room temperature either by shaking the polystyrene beads (one/assay) and the reaction mixtures in styrol test tubes (13.3 x 54 mm and 2.1 g) so as to randomly rotate the polystyrene beads or by rotating the polystyrene test tubes (12 x 75 mm) containing the reaction mixtures, so that small drops (19 to 70 microL) of the reaction mixtures evenly contacted all parts of the solid phase surfaces during the incubations (although they contacted only small parts of the solid phase surfaces at a time) to continuously mix thin aqueous layers covering the solid phase surfaces with the rest of the reaction mixtures. (Therefore, these immunoassays are called thin aqueous layer immunoassays.) The detection limits of p24 antigen by 1 hr assay of bound beta-D-galactosidase activity in the present immunoassays I, II, and III were 0.1, 0.2 and 0.1 amol/assay, respectively, and were slightly higher than or equal to that by the previously reported immune complex transfer enzyme immunoassay, in which the immune complex was formed for 4 hr, was trapped for 16 hr, and was transferred for 3 hr followed by 1-hr assay of bound beta-D-galactosidase activity. By 20-hr assay of bound beta-D-galactosidase activity, the detection limit of p24 antigen was further lowered to 10 zmol/assay in the present (simultaneous) immunoassay I and to 3 zmol/assay in the present (sequential) immunoassay III. However, the nonspecific reaction(s) with serum samples from HIV-1 seronegative subjects hampered the improvement of the detection limit by 20-hr assay of bound beta-D-galactosidase activity.
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PMID:Rapid and ultrasensitive enzyme immunoassay (thin aqueous layer immune complex transfer enzyme immunoassay) for HIV-1 p24 antigen. 967 Nov 71

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