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)

A new Amphotericin B derivative, MS-8209, which retains high antifungal activity with greatly reduced toxicity and improved solubility, has been developed. We investigated the antiviral properties of MS-8209 in Jurkat and CEM T-cell lines and in peripheral blood mononuclear cells infected in vitro with HIV-1BRU. Our results demonstrate, by determination of reverse transcriptase activity and p24 antigen level titration in cell culture supernatants, that MS-8209 inhibits HIV-1 replication in all cell types at concentrations without cytotoxicity. MS-8209 also prevents membrane expression of the HIV-1 large envelope glycoprotein gp120 and the decrease in CD4 level at the surface of infected cells. HIV-1-infected Jurkat cells exhibit a severe signalling defect at CD3 stimulation. Treatment with MS-8209 restores normal responsiveness at CD3 as assessed by measurement of inositol triphosphate accumulation and calcium flux. Finally, our results indicate that MS-8209 inhibits HIV-1BRU replication without preventing virus binding and penetration into target cells.
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PMID:MS-8209, a new Amphotericin B derivative that inhibits HIV-1 replication in vitro and restores T-cell activation via the CD3/TcR in HIV-infected CD4+ cells. 172 40

To investigate a possible potentiation of Azidothymidine activity by immunomodulators, two in vitro models of HIV infection were analyzed. Peripheral blood lymphocytes on one hand, and cells from the CEM line on the other hand, were infected in vitro with HIV1 and reverse transcriptase activity was monitored daily in the cultures. When Azidothymidine was added, reverse transcriptase activity was significantly reduced. When Isoprinosine or Diethyldithiocarbamate was added in vitro, the reverse transcriptase was only slightly decreased (to a much less significant degree). When Azidothymidine was added together with either Isoprinosine or Diethyldithiocarbamate, a synergistic effect was observed with a very potent inhibition of reverse transcriptase activity. Before a possible application of such a combined therapy to patients, the pharmacokinetics of Azidothymidine was analyzed after the compound had been given alone or in combination with Isoprinosine. No alteration of pharmacokinetics was observed, suggesting that the immunomodulator will not alter the metabolism of the antiretroviral therapy in vivo, and may even enhance its biological activity, as it does in vitro.
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PMID:Rationale for a combined use of antiretroviral and immunomodulatory therapies in HIV infection. 172 84

The remarkable ability of HIV to insinuate itself into the working of the immune system is the key of its success as an infectious agent. Given that the cytokine network regulates the immune responses, it is not surprising that cytokines can modulate HIV infection. GM-CSF, IL6 and TNF-alpha enhance HIV, but TGF-beta and HIF inhibits the virus. However, the anti-HIV activity of TGF-beta is restricted to myeloid cells, while HIF inhibits HIV in myeloid cells and in T-lymphocytes. HIF is produced by CEM cells after induction by an extract from pine cones. It is not an interferon and is likely a novel cytokine. It is pepsin-sensitive but trypsin-resistant and has an apparent molecular weight of 7-12 KDa. Apart from having anti-HIV activity, crude preparations of HIF also inhibit HTLV-1 virus but not HSV virus replication.
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PMID:Cytokine regulation of the human immunodeficiency virus (HIV). 172 85

The effect of myristoylation on p27nef subcellular distribution and suppression of HIV-1 transcription was examined by transfecting COS-7 cells with plasmids expressing either myristoylated (pSVnef) or nonmyristolyated p27nef (pSVnefala2). Similar levels of myristoylated and nonmyristoylated p27nef were expressed with only the product of the pSVnef plasmid being myristoylated. Immuno-histochemical microscopy and radioimmunoprecipitation revealed myristolyated p27nef only in the membrane fraction while nonmyristolyated p27nef was found distributed between the nucleus and the cytosol fractions. The effect of myristoylation on p27nef suppression of HIV LTR controlled transcription was examined in transient transfected COS cells and in CEM human T-cell clones consituitively expressing either myristolyated or nonmyristolyated p27nef by cotransfecting with a chloramphenicol acetyltransferase (CAT) plasmid under control of the HIV-1 LTR. In both systems, myristoylated p27nef exhibited a 13- to 18-fold inhibition of basal CAT activity while the nonmyristolyated mutant and the same plasmid carrying the nef gene in a reverse orientation inhibited CAT activity one- to two-fold. These results confirm the cytoplasmic membrane localization of p27nef and establish that its subcellular targeting is dependent on covalently attached myristate. The data also provide further evidence that p27nef acts as a transcriptional suppressor and establishes for the first time that myristolyation is required for the full manifestation of this effect.
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PMID:Effect of myristoylation on p27 nef subcellular distribution and suppression of HIV-LTR transcription. 173 44

The aim of this study was to determine whether mannosyl-specific lectins, especially Concanavalin A (ConA), may bridge HIV-1 env glycoproteins to cell membranes to increase virus binding to its targets, and to what extent this lectin-carbohydrate interaction can modify HIV-1 infectivity for monocytic compared with lymphoid cells. Monocytic U937 and lymphoid CEM cells, which both express surface mannose, were utilized. Whether first incubated with env glycoprotein or with the cells, lectins bound both to the cells and to radiolabeled recombinant gp160 (rgp160). Thus, they enhanced rgp160 adsorption to the cells in a methyl-alpha-mannose inhibitable manner. ConA did not appear to bind to the V1 domain of CD4 at the U937 cell surface since Leu3a binding was not blocked in the presence of ConA, nor was recombinant CD4 retained on a ConA-agarose affinity matrix. Moreover, enhanced rgp160 binding to the cells was CD4 independent, since it was not modified by preincubating the cells with Leu3a. Finally, ConA did not inhibit the binding of CD4-IgG3 chimeric molecules to virions immobilized on nitrocellulose membrane, which argues against the possibility that it interferes with the interaction of gp120 and CD4. However, both when incubated with the virus or with the cells and despite mediating enhanced binding of env glycoprotein, ConA neutralized HIV-1 infectivity for monocytic U937 as well as for lymphoid CEM cells. In this respect, ConA behaves like neutralizing antibodies which do not interfere with CD4 binding of gp120 but rather with some later event that leads to virus entry. These findings obtained with plant lectins may be of relevance in vivo, inasmuch as endogenous mannosyl-binding proteins, which are known to function as opsonins, have been reported to inhibit in vitro infection by HIV-1.
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PMID:Lectin-carbohydrate interactions and infectivity of human immunodeficiency virus type 1 (HIV-1). 173 38

Long-term bone marrow cultures (LTBMC) have been infected by two isolates of human immunodeficiency virus type 1 (HIV-1) (HIV-1 LAV and HIV-1 NDK) at multiplicities of infection ranging from 10(2) to 2.10(6) tissue culture infectious units (TCIU) per 10(6) bone marrow mononuclear cells (BMMNC). These infected cells are nonproducer cells and the viruses can be rescued by coculture with peripheral blood lymphocytes, cord blood lymphocytes, or BMMNC and not by the CEM cell line. HIV-1 clearly is not cytopathic for these cells. Following production and growth of erythroid burst-forming units (BFU-E) and erythroid colony-forming units (CFU-E) for at least 6 weeks after infection with HIV-1 NDK, colony assays displayed a 50% inhibition of BFU-E production during 3 weeks of LTBMC. This was followed by a stimulation phase. On the contrary, HIV-1 LAV induces a 150% stimulation of BFU-E production, followed by 50% inhibition. Production of CFU-E was inhibited by 80-100% with the two isolates of HIV-1 after four weeks of LTBMC. Stimulatory and inhibitory activities were recovered from supernatants of infected LTBMC and lymphoid CEM cell lines, suggesting that HIV-1 induces release of a humoral factor responsible for disruption of hemopoietic progenitor cell production in vitro and consequently for hematologic abnormalities in AIDS patients.
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PMID:Modulation of normal human erythropoietic progenitor cells in long-term liquid cultures after HIV-1 infection. 173 41

In this study, we have analyzed the effect of human alpha interferon (IFN-alpha) on a single replication cycle of human immunodeficiency virus type 1 (HIV-1) infection in the lymphocytic cell line CEM-174, which is highly sensitive to the antiviral effects of IFN. Pretreatment of cells with 50 to 500 U of recombinant human IFN-alpha per ml resulted in a marked reduction in viral RNA and protein synthesis. The effect of IFN-alpha was dose dependent and was amplified in multiple infection cycles. IFN-induced inhibition of viral protein synthesis could be detected only when cells were treated with IFN-alpha prior to infection or when IFN-alpha was added up to 10 h postinfection, but not if IFN-alpha was added at the later stages of HIV-1 replication cycle or after the HIV-1 infection was already established. Analysis of the integrated HIV-1 provirus showed a marked decrease in the levels of proviral DNA in IFN-treated cells. Thus, in contrast to the previous studies on established HIV-1 infection in T cells, in which the IFN block appeared to be at the posttranslational level, during de novo infection, IFN-alpha interferes with an early step of HIV-1 replication cycle that occurs prior to the integration of the proviral DNA. These results indicate that the early IFN block of HIV-1 replication, which has been previously observed only in primary marcophages, can also be detected in the IFN-sensitive T cells, indicating that the early IFN block is not limited to macrophages.
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PMID:Alpha interferon inhibits early stages of the human immunodeficiency virus type 1 replication cycle. 173 92

In this article, we report the establishment of persistent HIV type 1 infection of normal Swiss mice after a single intraperitoneal injection with high-producing HIV-infected U937 cells. Anti-HIV antibodies were found more than 500 days after the original injection, and p24 antigenemia was detected in approximately 50% of the mice. By polymerase chain reaction (PCR) techniques, HIV-specific gag and env sequences were detected in DNA samples from peripheral blood mononuclear cells (PBMC) and peritoneal cells of seropositive mice 300 to 500 days after inoculation with HIV-infected cells. These DNA samples did not contain human DNA sequences, as determined by PCR analysis using primers and the probe for the HLA-DQ alpha gene. Low levels of p24 and detectable human reverse transcriptase activity were found in cultures of PBMC and peritoneal macrophages. Cocultivation of PBMC, peritoneal cells, and spleen cells with human uninfected U937 or CEM (a T lymphoma cell line) cells resulted in HIV infection of the target cells, as determined by PCR analysis and/or p24 assays. The intravenous injection of untreated Swiss mice with the PBMC from PCR-positive mice resulted in the development of an increasing antibody response to HIV in the recipient animals. Together these results indicate that cells from seropositive Swiss mice were persistently infected with HIV and were capable of producing infectious virus. The development of persistent HIV infection in an immunocompetent mouse may represent the starting point for further studies aimed at defining the host mechanisms involved in the restriction of virus replication, defining the pathogenesis of HIV infection, and testing antiviral compounds and vaccines.
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PMID:Persistent infection of normal mice with human immunodeficiency virus. 173 5

Acemannan (ACE-M), a beta-(1,4)-linked acetylated mannan, was evaluated for in vitro activity against human immunodeficiency virus type 1 (HIV-1). Castanospermine (CAS), deoxymannojirimycin (DMN), swainsonine (SWS), azidothymidine (AZT), and dideoxythymidine (DDC) were tested in parallel as control compounds. In vitro antiviral efficacy of ACE-M was evaluated in a variety of cell lines including human peripheral mononuclear, CEM-SS1 and MT-2(2) cells. The virus strain, number of infectious units per cell, and target cell line were important factors in determining the degree of inhibition of viral cytopathic effect in the presence of ACE-M and other control compounds tested. Maximum inhibitory effect was observed in CEM-SS cells infected with the RFII strain of HIV-1. This inhibitory effect was determined to be concentration-dependent. Assay design included primary screening to measure cell viabilities of infected target cells in the presence and absence of test compounds. When tested on HIV-1/RFII-infected CEM-SS cells, the 50% inhibitory effect of CAS (IC50 = 28), an inhibitor of alpha-glucosidase I, was determined to be similar to that observed for ACE-M (IC50 = 45). However, DMN and SWS, inhibitors of mannosidase I and II, tested in parallel to CAS and ACE-M, exhibited no IC50 values. Antiviral potential of ACE-M as an inhibitor of syncytia formation was also explored using CEM-SS cells. Suppression of syncytia formation was observed at an ACE-M concentration of 31.25 micrograms/ml, and complete inhibition was observed at 62.5 micrograms/ml. In addition, HIV-1 RNA levels were studied to establish the antiviral potential of ACE-M in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of AIDS virus replication by acemannan in vitro. 176 65

The V3 loop (residues 303-338) of the human immunodeficiency virus type 1 (HIV-1) gp120 envelope protein represents a principal neutralizing determinant for the virus. An HIV-1 proviral clone containing a mutation in the V3 loop was constructed in which the proline residue at position 313 was changed to an alanine (P313-A). This mutation alters the conserved GPGR sequence that is found in the V3 loop sequences of different HIV-1 isolates. The P313-A clone produced virus particles, which were infectious for a number of T-cell lines including MOLT-4, CEM, and SupT1, but demonstrated a relatively low infectivity on the AA5 B-cell line when compared with wild-type viruses, HTLV-IIIB, HXB2/10 (a chimeric molecular clone), and another mutant virus (Q290-T). V3 loop-specific neutralizing polyclonal sera and the 9284 monoclonal antibody, which recognizes the amino side of the V3 loop sequence, effectively blocked infectivity and syncytia formation of all viruses tested. In contrast, the 0.5 beta monoclonal antibody, which is biologically more potent than 9284 and recognizes a different V3 loop determinant, failed to neutralize the P313-A virus. These results suggest that the proline residue in the relatively conserved GPGR "turn" region of the V3 loop is crucial for recognition by the 0.5 beta antibody. The observed variation in sensitivity of the B-cell line to the P313-A virus may reflect the presence of cell-specific factors which could be important in establishing an HIV-1 infection.
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PMID:Alteration of HIV-1 infectivity and neutralization by a single amino acid replacement in the V3 loop domain. 176 61

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