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

The prevalence of infection with human immunodeficiency virus type 1 (HIV 1) is lower in West Africa than in other parts of Africa. Human immunodeficiency virus type 2 (HIV 2) has been isolated from West African patients and may be transmitted by heterosexual contact. The prevalence of antibodies to HIV 1 and HIV 2 was studied by enzyme linked immunosorbent assay (ELISA) among various groups of subjects in The Gambia, West Africa. These subjects included prostitutes, blood donors, patients with suspected infection with HIV, patients attending clinics for sexually transmitted diseases, and patients with tuberculosis. 4 cases of the acquired immune deficiency syndrome (AIDS) due to infection with HIV 1 were detected, of which 3 had been acquired abroad. No other subject was found to be positive for antibodies to HIV 1. The prevalence of antibodies to HIV 2 among the patients attending clinics for sexually transmitted diseases was found to have increased from 0/117 in 1984 to 10/185 (5%) in the last 6 months of 1986. 1/278 blood donors was positive for antibodies to HIV 2 as were 10/80 patients with suspected AIDS. HIV 2 seems to be transmitted sexually, and, although it has been present for only a short time, it seems to be endemic in The Gambia and is pathogenic.
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PMID:Human retroviral infections in The Gambia: prevalence and clinical features. 312 66

Human immunodeficiency virus type 1 (HIV-1) gene expression is modulated by some virus-encoded proteins, possibly acting at multiple levels of control, which are also known to be involved in the regulation of gene expression in uninfected cells (transcriptional, post-transcriptional, nucleocytoplasmic transport, and translational control). Two anti-HIV-1 drugs, Avarol and 3'-azido-3'-deoxythymidine, which inhibit viral replication by differential mechanisms, were used to study the role of cytoplasmic factors in independent regulation of host cell and viral gene expression. Both drugs were found to inhibit viral replication and synthesis of virus-encoded protein in a synergistic manner, while at cytostatic concentrations, both compounds act antagonistically. ATP-induced transport of viral messengers from isolated nuclei is enhanced by total cytosolic protein from HIV-1-infected cells; a strong increase of the nucleocytoplasmic transport of pol mRNA was measured and, to a lesser extent the transport of certain cellular mRNA (e.g. interleukin-2) was augmented, while the transport of other cellular mRNA (actin) was not affected at all.
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PMID:Differential modulation of host cell and HIV gene expression by combinations of avarol and AZT in vitro. 319 Jul 40

Human immunodeficiency virus type 1 (HIV-1), the retrovirus responsible for acquired immunodeficiency syndrome (AIDS), contains two heavily glycosylated envelope proteins, gp120 and gp41, which mediate attachment of virions to glycosylated cell surface receptor molecules (CD4 antigens) and appear to be responsible for syncytium formation and associated cytopathic effects of this virus. A comprehensive study of the effects of N-linked glycoprotein processing inhibitors on HIV-1 replication, infectivity, cytopathicity, target-cell infectibility, syncytium formation, and gp120 electrophoretic mobility was conducted to assess the importance of protein glycosylation in the pathogenesis of HIV-1 in vitro. The electrophoretic mobility of gp120 was decreased when gp120 was synthesized in the presence of castanospermine or 1-deoxynojirimycin (inhibitors of glucosidase I), increased when gp120 was synthesized in the presence of 1-deoxymannojirimycin (mannosidase I) or swainsonine (mannosidase II), and unaffected when gp120 was synthesized in the presence of bromoconduritol (glucosidase II). Inhibition by tunicamycin (lipid-linked oligosaccharide precursor synthesis), castanospermine, 1-deoxynojirimycin, and 1-deoxymannojirimycin attenuated HIV-1 infectivity and blocked HIV-1-induced syncytium formation and cytopathicity, whereas bromoconduritol and swainsonine failed to have such effects. None of the inhibitors interfered with virus replication in acutely infected cells or affected the ability of target cells to form syncytia with untreated HIV-1-infected cells. These results demonstrate that protein N-glycosylation is critical to the pathogenesis of HIV-1 at the levels of viral infectivity and cytopathicity but not at the level of virus replication or of host-cell infectibility.
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PMID:Role of protein N-glycosylation in pathogenesis of human immunodeficiency virus type 1. 326 72

Human immunodeficiency virus type 1 (HIV-1) has been clearly associated with a variety of new illnesses, including profound immunodeficiency (acquired immune deficiency syndrome [AIDS]), wasting syndromes (formerly termed AIDS-related complex [ARC]) and neurologic syndromes, including neuropathy, myelopathy and encephalopathy (often termed subacute encephalitis or AIDS dementia complex). HIV-1 preferentially infects T lymphocytes by binding to a membrane receptor protein, CD4, associated with helper function. The virus can also attack macrophages and, possibly, other cells such as neuronal cells, colonic epithelial cells and B lymphocytes. Infection of macrophages or monocytes may be involved in neurologic disease. Knowledge about HIV-1 has rapidly increased, and investigators have characterized its structure, ways in which it infects cells, replicates and is cytopathic for certain cells, and how the immune system responds to it. The ideal vaccine would prevent adsorption of the virus into the cell, but it is difficult to develop stable resistance because the virus has many antigenic patterns and mutates frequently. The results of vaccine trials in animals have not been promising, but work is being done with monoclonal antibodies. Antiviral therapies being investigated include those to prevent virus binding and entry, to inhibit reverse transcription, to inhibit the virus's life cycle and to restore immune competence in immunocompromised patients.
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PMID:Vaccine and antiviral strategies against infections caused by human immunodeficiency virus. 328 28

Human immunodeficiency virus type 1 (HIV-1) may enter the blood stream as free virus or via infected lymphocytes, which poses problems for vaccine development. The classical vaccine designs, attenuated, inactivated, or subunit vaccine will be discussed with regard to HIV. Development of a recombinant subunit vaccine appears to be the most promising approach. Forthcoming results from experiments involving inoculation of chimpanzees should allow evaluation of the feasibility of using a subunit vaccine based on the env-glycoprotein. Also the use of live recombinant vaccinia merits further investigation.
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PMID:Perspectives of HIV vaccine developments. 331 68

Human immunodeficiency virus type 1 (HIV-1) infection of the neuronal and astroglial cells of the central nervous system has been proposed to contribute to HIV-1-associated dementia. Recently it was shown that differences in the nucleotide sequence of the long terminal repeat (LTR) of different HIV-1 strains govern the tissue-specific pattern of viral expression. The LTR from central nervous system-derived HIV-1 strains JR-FL and JR-CSF directs expression in the neurons of transgenic mice, in contrast with the lymphotropic LAI strain. By in vitro footprinting, gel retardation, and methylation interference experiments, we have studied the interactions of host cell proteins from human neuronal, glial, HeLa, and Jurkat T cells with the LTRs from the neurotropic JR-FL and JR-CSF strains, compared with the LAI strain. Proteins belonging to the nuclear receptor family bind with different affinities to variant -352 to -324 sites. Gel supershift assays with Jun and Fos antibodies showed that the AP-1 transcription factor present in the various cell types was unable to recognize the -352 to -324 and -306 to -285 AP-1 putative binding sites. Interestingly, Jun and Fos components of AP-1 interact with the variant TGGCTCA sequence located in the -247 to -222 region of both neurotropic strains. These interactions were cell type specific, since they were detected only with extracts from glial and HeLa cells and not from neuronal or Jurkat cells. Cotransfection experiments further revealed that the -247 to -222 sequence is able to mediate AP-1-induced transcriptional activation in glial and not neuronal cells.
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PMID:Interactions of the transcription factor AP-1 with the long terminal repeat of different human immunodeficiency virus type 1 strains in Jurkat, glial, and neuronal cells. 747 72

Human immunodeficiency virus type 1 (HIV-1) vpr inhibits the replication of tumor cell lines and peripheral blood mononuclear cells. Here it is demonstrated that expression of vpr, either in the context of a provirus or from an independent genetic element, induces a discrete cell cycle arrest, with cells containing 4N DNA. Low cyclin B-associated kinase activity, as well as the status of p34cdc2 and cdc25C phosphorylation, indicates that the cascade of reactions which drives the cell into mitosis has not been initiated. The phosphatase inhibitor okadaic acid releases the block, suggesting that Vpr perturbs upstream regulatorsof the G2-M transition. These studies demonstrate that HIV-1 vpr has profound effects on the cellular factors which control entry into mitosis and indicate vpr's potential contribution to the cellular pathology associated with HIV-1 infection.
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PMID:Human immunodeficiency virus type 1 Vpr arrests the cell cycle in G2 by inhibiting the activation of p34cdc2-cyclin B. 747

Human immunodeficiency virus type 1 (HIV-1) isolates classified as syncytium-inducing (SI) or non-SI (NSI) in the MT-2 T-cell line exhibit characteristic sequence differences in the V1-V2 and V3 regions of the env gene. Seven HIV-1 isolates were phenotyped as NSI or SI in the MT-2 cell line. Unexpectedly, all four NSI viruses induced large syncytia 4 to 8 days postinoculation in a panel of five primary CD4+ T-cell lines (including two clones) generated from the peripheral blood of normal donors by exposure to infectious HIV-1, inactivated HIV-1, or Epstein-Barr virus. The primary T-cell lines yielded neither HIV-1 provirus nor infectious HIV by PCR analysis or exhaustive coculture with phytohemagglutinin-treated blast cells. Three isolates (TC354, PK1, and PK2) were biologically cloned and retained their SI or NSI phenotypes in MT-2 and primary T-cell lines. The biologically cloned provirus DNA was also used to clone and sequence the relevant V2 and V3 regions of the env genes. The amino acid sequences of the V2 and V3 regions were characteristic of patterns already reported for the NSI, switch NSI, and SI phenotypes, respectively. This evidence precludes the possibility that these results were due to contamination of the NSI isolates with SI virus. The results unequivocally indicate that HIV-1 isolates with the NSI genotype and phenotype in MT-2 cells may actively induce syncytia in cloned CD4+ T cells in vitro and support the view that direct cytopathic effects may contribute to the steady decline in CD4+ T cells in asymptomatic HIV-1-seropositive patients without detectable SI virus.
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PMID:Syncytium induction in primary CD4+ T-cell lines from normal donors by human immunodeficiency virus type 1 isolates with non-syncytium-inducing genotype and phenotype in MT-2 cells. 747 29

Human immunodeficiency virus type 1 (HIV-1) encodes a Vif protein which is important for virus replication and infectivity. Vif is a cytoplasmic protein which exists in both membrane-associated and soluble forms. The membrane-associated form is an extrinsic membrane protein which is tightly associated with the cytoplasmic side of membranes. We have analyzed the mechanism of membrane targeting of Vif and its role in HIV-1 replication. Mutagenesis studies demonstrate that C-terminal basic domains are required for membrane association. Vif mutations which disrupt membrane association also inhibit HIV-1 replication, indicating that membrane localization of Vif is likely to be required for its biological activity in vivo. Membrane binding of Vif is almost completely abolished by trypsin treatment of membranes. These results demonstrate that membrane localization of Vif requires C-terminal basic domains and interaction with a membrane-associated protein(s). This interaction may serve to direct Vif to a specific cellular site, since immunofluorescence staining and plasma membrane fractionation studies show that Vif is localized predominantly to an internal cytoplasmic compartment rather than to the plasma membrane. The mechanism of membrane targeting of Vif is different in some respects from that of other extrinsic membrane proteins, such as Ras, Src, and MARCKS, which utilize a basic domain together with a lipid modification for membrane targeting. Membrane targeting of Vif is likely to play an important role in HIV-1 replication and thus may be a therapeutic target.
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PMID:Biological activity of human immunodeficiency virus type 1 Vif requires membrane targeting by C-terminal basic domains. 747 41

Human immunodeficiency virus type 1 (HIV-1) protease inhibitor-resistant variants, isolated on passage of HIV-1HXB2 in MT-4 cells with five different protease inhibitors, have been examined for cross-resistance to five inhibitors. The protease inhibitors studied were Ro 31-8959, A-77003, XM323, L-735,524, and VX-478. Resistant variants with two to four mutations within their protease sequence and 9- to 40-fold-decreased susceptibility were selected for all five inhibitors within six to eight passes in cell culture. Passage of a zidovudine-resistant mutant in Ro 31-8959 generated a dual reverse transcriptase- and protease-resistant virus. Variants were cloned directly into a modified pHXB2-D infectious clone for cross-resistance analysis. Although the resistant variants selected possessed different combinations of protease mutations for each inhibitor, many showed cross-resistance to the other inhibitors, and one showed cross-resistance to all five inhibitors. Interestingly, some mutants showed increased susceptibility to some inhibitors. Further HIV passage studies in the combined presence of two protease inhibitors demonstrated that in vitro it was possible to delay significantly selection of mutations producing resistance to one or both inhibitors. These studies indicate that there may be some rationale for combining different protease inhibitors as well as protease and reverse transcriptase inhibitors in HIV combination therapy.
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PMID:Cross-resistance analysis of human immunodeficiency virus type 1 variants individually selected for resistance to five different protease inhibitors. 748 5

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