UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of a gene encoding the diphtheria toxin A (DT-A) chain, under the control of human immunodeficiency virus-1 (HIV-1) proteins Tat and Rev, has previously been shown to confer on cells an impaired ability to produce HIV. That work was done in HeLa cell lines that had stably integrated the regulated DT-A gene in a plasmid context. To increase the efficiency with which the HIV-regulated DT-A gene could be introduced into cells, we studied a recombinant, amphotropic murine leukemia virus containing the HIV-regulated DT-A transcription unit. Here we demonstrate that such recombinant retroviruses can be packaged, for both wild-type DT-A and an attenuated version, tox 176. In transient transfection assays, the proviral constructs exhibited similar basal and trans-activated levels of DT-A expression to the parental plasmids. Transduced H9 cells expressed the integrated DT-A gene upon transfection with plasmids encoding Tat and Rev, as assayed by decreased expression of a cotransfected luciferase reporter gene. Furthermore, the transduced H9 cells were substantially impaired in their ability to produce HIV, as demonstrated by p24 assays of culture supernatants following either transfection with an HIV proviral clone or infection with HIV-IIIB. These data demonstrate that basal expression of the regulated DT-A gene has been reduced to a tolerable level, both in packaging cells and transduced H9 cells. The use of HIV-regulated retroviruses encoding the highly lethal DT-A product may eventually be applicable as a gene therapy approach for the acquired immunodeficiency syndrome (AIDS).
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PMID:Inhibition of human immunodeficiency virus-1 production resulting from transduction with a retrovirus containing an HIV-regulated diphtheria toxin A chain gene. 132 91

Construction of a DNA plasmid that expresses a diphtheria toxin A chain (DT-A) gene under control of human immunodeficiency virus (HIV-1) proteins Tat and Rev has been described. Here the generation of HeLa cell clones containing integrated, HIV-regulated DT-A sequences is reported. Five such clones were identified by their decreased expression of a luciferase reporter gene transiently cotransfected with Tat- and Rev-encoding plasmids. The decreased luciferase expression most probably was due to activation of the integrated DT-A gene because higher luciferase activity could be restored by introducing either DT antitoxin or a gene encoding a mutant, DT-resistant elongation factor 2 (the intracellular target for DT-A). Analysis by polymerase chain reaction (PCR) indicated that all clones expressed DT-A encoding RNA. The clones were then transfected with an HIV proviral clone and were tested for HIV production; all five clones demonstrated substantially impaired HIV production compared with parental HeLa cells, as shown by p24 assays of culture supernatants. Our success in generating these cell lines indicates that extremely low basal expression has been achieved in view of the high cellular lethality of DT-A. HIV-regulated expression of DT-A may be applicable as a gene therapy approach for the acquired immune deficiency syndrome (AIDS), to bring about selective suicide of HIV-infected cells before production of viral progeny.
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PMID:Inhibition of HIV production in cells containing an integrated, HIV-regulated diphtheria toxin A chain gene. 173 39

Expression of a gene encoding the diphtheria toxin A (DT-A) fragment, controlled by tissue specific regulatory elements, has previously been used to kill selected cell populations. Here, we have examined the feasibility of controlling DT-A expression using regulatory systems from the human immunodeficiency virus (HIV-1) genome. Plasmids were constructed which express either DT-A or, as a model system, the luciferase (luc) reporter gene, under control of HIV-1 long terminal repeat (LTR) sequences (-167 to +80). While trans-activation by expression of the viral protein Tat was demonstrated, significant basal expression was observed. To reduce basal expression, cis-acting negative regulatory elements from the env region of the HIV-1 genome were inserted in the 3' untranslated region of both the luc and DT-A constructs. This dramatically reduced basal expression from the HIV LTR, and now both viral regulatory proteins Tat and Rev were required for maximal trans-activation. Such regulation of DT-A expression might be therapeutically applied to selectively kill HIV-infected cells in acquired immunodeficiency syndrome (AIDS) and AIDS-related complex (ARC).
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PMID:Activation of a diphtheria toxin A gene by expression of human immunodeficiency virus-1 Tat and Rev proteins in transfected cells. 186 40

UV irradiation has been shown to activate the human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) in cell culture; however, only limited studies have been described in vivo. UV light has been categorized as UV-A (400 to 315 nm), -B (315 to 280 nm), or -C (less than 280 nm); the longer wavelengths are less harmful but more penetrative. Highly penetrative UV-A radiation constitutes the vast majority of UV sunlight reaching the earth's surface but is normally harmless. UV-B irradiation is more harmful but less prevalent than UV-A. In this report, the HIV-1 LTR-luciferase gene in the skin of transgenic mice was markedly activated when exposed to UV-B irradiation. The LTR in the skin of transgenic mice pretreated topically with a photosensitizing agent (psoralen) was also activated to similar levels when exposed to UV-A light. A 2-h exposure to sunlight activated the LTR in skin treated with psoralen, whereas the LTR in skin not treated with psoralen was activated after 7 h of sunlight exposure. The HIV-1 LTR-beta-galactosidase reporter gene was preferentially activated by UV-B irradiation in a small population of epidermal cells. The transgenic mouse models carrying HIV-1 LTR-luciferase and LTR-beta-galactosidase reporter genes have been used to demonstrate the in vivo UV-induced activation of the LTR and might be used to evaluate other environmental factors or pharmacologic substances that might potentially activate the HIV-1 LTR in vivo.
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PMID:In vivo activation of human immunodeficiency virus type 1 long terminal repeat by UV type A (UV-A) light plus psoralen and UV-B light in the skin of transgenic mice. 190 29

Retroviral integration is the step which leads to establishment of the provirus, cis- and trans-acting regions of the human immunodeficiency type 1 (HIV-1) retrovirus genome, including the attachment site (att) at the ends of the unintegrated viral DNA and the conserved domains within the integrase (IN) protein, have been identified as being important for integration. We investigated the role of each of these regions in the context of an infectious HIV-1 molecular clone through point mutagenesis of the att site and the zinc finger-like and catalytic domains of IN. The effect of each mutation on integration activity was examined by using a single-step infection system with envelope-pseudotype virus. The relative integration efficiency was estimated by monitoring the levels of viral DNA over time in the infected cells. The integration activities of catalytic domain point mutants and att site deletion mutants were estimated to be 0.5 and 5% of wild-type activity, respectively. However, in contrast with previous in vitro cell-free integration studies, alteration of the highly conserved CA dinucleotide resulted in a mutant which still retained 40% of wild-type integration activity. The relative levels of expression of each mutant, as measured by a luciferase reporter gene, correlated with levels of integration. This observation is consistent with those of previous studies indicating that integration is an obligatory step for retroviral gene expression. Interestingly, we found that three different HIV-1 constructs bearing point mutations in the zinc finger-like domain synthesized much lower levels of viral DNA after infection, suggesting impairment of these mutants before or at the initiation of reverse transcription. Western blot (immunoblot) analysis demonstrated wild-type levels of reverse transcriptase within the mutant virions. In vitro endogenous reverse transcription assays indicated that all three mutants in the zinc finger-like domain had wild-type levels of reverse transcriptase activity. These data indicate that in addition to integration, IN may have an effect on the proper course of events in the viral life cycle that precede integration.
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PMID:Genetic analysis of human immunodeficiency virus type 1 integrase and the U3 att site: unusual phenotype of mutants in the zinc finger-like domain. 747 78

To study the basis of cellular latency of human immunodeficiency virus (HIV), we have used a recombinant luciferase-encoding HIV (HXB-Luc) to superinfect nonproductively HIV-1-infected human leukemic cell lines. HXB-Luc contains the Photinus pyralis luciferase gene in place of the nef gene and provides a highly sensitive, simple assay for HIV infection and expression. To circumvent any superinfection block in latently infected cells, we also generated viruses pseudotyped with murine leukemia virus amphotropic envelope (HXB-Luc:ampho). The parental uninfected lines, U937 and A3.01, from which the latently infected cell lines U1 and ACH-2, respectively, were derived could be readily infected with pseudotyped or nonpseudotyped reporter viruses. However, superinfection of U1 cells with either HXB-Luc or HXB-Luc:ampho resulted in only low levels of luciferase activity. Like the endogenous provirus, HXB-Luc provirus could be efficiently activated by phorbol ester treatment of HXB-Luc:ampho-superinfected U1 cells. In contrast, superinfection of ACH-2 cells resulted in active expression of the secondarily introduced virus even in unstimulated cells and luciferase production higher than in the parental cell line A3.01. Thus, the proviral latency in U1 cells appears to result from a defect in the cellular environment (a trans effect), whereas the latency in ACH-2 is specific to the integrated provirus and is probably a cis effect due to the site of integration. These results demonstrate distinct modes of proviral latency in these two cell line models and may have implications in our understanding of the regulation and significance of cellular latency in HIV infection.
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PMID:Distinct modes of human immunodeficiency virus type 1 proviral latency revealed by superinfection of nonproductively infected cell lines with recombinant luciferase-encoding viruses. 750 83

HIV-1 vpr encodes a 96-amino acid, nuclear protein whose function is not well understood. Unlike the other lentivirus regulatory proteins, Vpr is present in virions at relatively high copy number. In cells, Vpr is localized to the nucleus. Possible functions for vpr consistent with these findings include the nuclear import of preintegration complexes, transactivation of cellular genes, or induction of cellular differentiation. We show here, using both replication competent, macrophage-tropic virus and a sensitive, single-cycle luciferase HIV-1 reporter vector, that vpr is important for efficient viral replication in primary monocyte/macrophages, but appears to play no role in activated or resting T cell infection. The block to infection in monocytes was localized by PCR analysis of newly synthesized viral DNA and with the luciferase reporter vector to a stage in the viral life cycle after entry and reverse transcription, yet prior to, or at the time of, proviral transcription. In addition, infection of mononuclear phagocytes with virions that had been loaded with Vpr molecules in the producer cells by trans-complementation still showed a vpr-phenotype. These data suggest a role for vpr molecules produced in newly infected cells, in addition to its presumed function in the virion.
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PMID:Vpr is required for efficient replication of human immunodeficiency virus type-1 in mononuclear phagocytes. 753 18

CD8+ cells from human immunodeficiency virus (HIV)-infected individuals suppress HIV replication in cultured CD4+ cells by a noncytolytic mechanism that involves a secreted CD8(+)-cell antiviral factor (CAF). The results of this study suggest that CD8+ cells, as well as CAF, arrest HIV replication at the level of viral transcription. Culturing naturally infected CD4+ cells actively producing HIV with autologous CD8+ cells or a 50% dilution of culture fluids from these cells results in a > 80% reduction in the number of cells expressing HIV antigens and RNA. This effect was observed within 2 days after exposure to CD8+ cells but required 6 days in the presence of CAF-containing culture fluids to reach the same extent of HIV suppression. Northern blot analysis of CD4+ cell extracts revealed that all viral RNA species (unspliced and single and double spliced) were reduced in quantity to a similar extent. CAF-containing culture fluids also had a direct inhibitory effect on HIV long terminal repeat (LTR)-driven transcription in HIV-infected 1G5 cells carrying an LTR-luciferase construct. Suppression of basal levels of LTR-driven transcription was not detected. Thus, the results suggest that the noncytolytic CD8+ cell antiviral activity observed in HIV infection exerts its effects, at least in part, by specifically interrupting HIV transcription. These findings could help in developing therapies for HIV infection.
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PMID:CD8+ T cells suppress human immunodeficiency virus replication by inhibiting viral transcription. 753 18

Inflammatory genes are regulated in cells of monocyte (Mo) lineage by a variety of cellular encounters, including adhesion mediated by integrins. The role of the beta 1 family of integrins in the direct induction of immediate early gene expression was analyzed by using the tissue factor (TF) gene. Engagement of alpha 4 or beta 1 on Mo, but not members of the beta 2 integrin family, with specific mAbs as surrogate ligands immediately and directly induced high level surface expression of TF, and accumulation of TF mRNA, as well as production of TNF-alpha and HIV-1 virus. The mechanism responsible for induction of TF gene transcription mediated by the engagement of alpha 4 or beta 1 was elucidated by using THP-1 monoblastic leukemia cells. Functional analysis of plasmids containing the TF promoter expressing the luciferase reporter gene identified a cis-acting integrin-responsive element (InRE), which contained two AP-1 sites as well as a single kappa B-like site. Mutation of either the AP-1 sites or kappa B-like site greatly diminished responsiveness to integrin engagement. This InRE also conferred responsiveness to a heterologous promoter in the same reporter plasmid. Binding of mAbs to either alpha 4 or beta 1 led to nuclear translocation of the c-Rel/p65 heterodimer that preferentially bound to the TF kappa B-like site. In contrast, constitutive binding of AP-1 proteins to the two AP-1 sites was not increased by alpha 4 or beta 1 integrin engagement. These studies expand knowledge of integrin regulation of immediate early gene expression in Mo and molecular encounters that are inferred to play an active role in Mo effector functions.
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PMID:Integrin regulation of an inflammatory effector gene. Direct induction of the tissue factor promoter by engagement of beta 1 or alpha 4 integrin chains. 753 94

Bacterial lipopolysaccharide (LPS) modulates expression of a variety of genes in macrophages, and additionally activates viral promoters including the HIV-1 LTR. The HIV-1 LTR driving the luciferase reporter gene was stably transfected into the murine macrophage cell line, RAW264. In stably transfected cells, luciferase activity was LPS-dependent. As little as 0.01 ng/ml LPS was sufficient to increase luciferase activity over basal levels with maximal stimulation resulting in a 10- to 20-fold response. The cells also responded to human and murine tumour necrosis factor (TNF alpha). Endogenous TNF alpha was not involved in LPS responses, since pretreatment with alpha-TNF alpha antibody did not affect activation. Induction of HIV-1 LTR activity by LPS occurred independently of phorbol myristate acetate (PMA) sensitive protein kinase C (PKC), since depletion of PKC by prolonged exposure to PMA blocked TNF alpha and PMA responses but was not able to abolish LPS action on these cells. Taxol (5-20 micrograms/ml), a chemotherapeutic agent which mimics LPS action on macrophages, was also able to increase expression of the reporter gene driven by the HIV-1 LTR. However, lower doses of taxol that were not sufficient to trans-activate the LTR or to induce TNF alpha expression were cytotoxic to RAW264 cells suggesting that the cytotoxic and LPS-like activities of taxol were not linked. This cell line provides a convenient method for detecting LPS-like activity and is a useful tool for examining LPS and TNF alpha signalling pathways.
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PMID:RAW264 macrophages stably transfected with an HIV-1 LTR reporter gene provide a sensitive bioassay for analysis of signalling pathways in macrophages stimulated with lipopolysaccharide, TNF-alpha or taxol. 758 58

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