EC:2.7.7.49 - FACTA Search

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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the present report, we have studied the in vitro transition of normal blood monocytes to macrophages by changes in cell morphology, and the expression of surface antigens with a panel of monoclonal antibodies. The maturation process was accompanied by notable changes in cell-surface markers in a time-dependent manner. The percentage of cells expressing CD11c, ICAM-1, HLA-DR, and Fc receptor class III increased while the CD4 and CD35 expression was markedly decreased. After demonstrating that in vitro monocytes mature to macrophages in a recognizable manner, we studied the susceptibility to HIV-1 infection at time points representing different stages of cell maturation. The results show that monocyte/macrophages are susceptible to HIV-1 infection at all stages of differentiation. However, the kinetics of virus replication depends on the degree of maturation at the time of infection. Two major patterns of replication were observed: Infection of monocytes resulted in efficient virus production measurable by reverse transcriptase activity in culture supernatant, whereas infection of fully differentiated macrophages yielded low but sustained virus release only demonstrable by p24 antigen assay. We were not able to detect differences in the capacity of the virus to infect and replicate in monocyte/macrophages with respect to cellular origin of the virus isolate and whether the viruses were laboratory-adapted strains or low-passaged patient isolates.
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PMID:In vitro maturation of mononuclear phagocytes and susceptibility to HIV-1 infection. 185 87

Infection due to the human immunodeficiency virus (HIV) has been complicated by the development of acute nonlymphocytic leukemia in five patients whose cases have previously been reported; other manifestations, including preleukemia, myelofibrosis, and myeloid hyperplasia, have also been reported in patients infected with HIV. We report the sixth case of an HIV-infected patient who developed acute myelomonocytic leukemia; HIV infection was documented by tests for serum antibodies (enzyme-linked immunosorbent assay and western blotting), by a markedly elevated p24 antigen level in plasma, and by cultures of CSF and peripheral blood that were positive for HIV. Furthermore, myelomonoblasts that were cultured without the addition of growth factors displayed evidence of HIV replication through the presence of p24 antigen and reverse transcriptase activity, both of which lasted for 4 weeks in the supernatant fluid of the cell cultures. This case report provides the first data indicating that HIV may infect myelomonoblasts in vivo and represents the sixth reported case of an association between HIV infection and pure acute nonlymphocytic leukemia.
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PMID:Relationship between acute myelomonoblastic leukemia and infection due to human immunodeficiency virus. 190 61

In contrast to T-cell lines, where CD-4 expression may predict susceptibility to HIV infection, in monocyte hybridomas, presence or absence of surface CD-4 does not appear to be the determining factor of susceptibility to HIV infection. One clone, 20, was documented to be CD-4 negative by surface immunofluorescence as well as by immunoprecipitation. Both CD-4+ and CD-4- human monocyte hybridomas, representative of peripheral blood monocytes were readily infected with HIV (strains IIIB and BR-1 and a variety of patient isolates) as assessed by p24 Ag secretion reverse transcriptase activity and in situ hybridization. Infection occurred in the absence of antibody to HIV suggesting a non Fc mediated process as had been previously described. These data suggest that alternative mechanisms, such as non-specific phagocytosis, may exist for entry of HIV into peripheral blood monocytes. Given these findings, treatment for AIDS, such as the use of soluble CD-4, may not be effective long term, as monocyte infection may still occur and serve as a reservoir for subsequent viral infection of T cells.
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PMID:Surface expression of CD-4 does not predict susceptibility to infection with HIV-1 in human monocyte hybridomas. 196 58

Incubation of normal human nonadherent and T-cell-depleted bone marrow cells with HIVIIIB at multiplicities of infection (MOI) ranging from 0.0001:1 to 1:1 reverse transcriptase (RT) units resulted in the dose-dependent suppression of the in vitro growth of erythroid burst-forming unit (BFU-E), granulocyte-macrophage (CFU-GM), and T-lymphocyte (CFU-TL) colonies of progenitor cells. Maximum inhibition of colony formation was observed at a 1:1 ratio of virus to bone marrow cells. At this MOI, BFU-E and CFU-GM colonies were inhibited by 60 to 80%, while CFU-TL colonies were totally suppressed. Inhibition of colony formation was also observed at an MOI of 0.1:1 but not with further log dilutions of the virus. Incubation of the virus with antibody to gp160 resulted in the complete reversal of stem cell suppression and the normalization of colony growth in vitro. For BFU-E and CFU-GM colonies, this reversal was observed with dilutions of antibody up to 1:100 and was no longer observed at titers greater than 1:500. The CFU-TL colony number normalized at titers between 1:10 and 1:50. Human immunodeficiency virus (HIV) also suppressed by 50% the growth of colonies derived from CD34+ stem cell fractions. Infection of CD34+ cells and T-cell-depleted, nonadherent cell fractions was demonstrated by detection with HIV-specific DNA probe following amplification by polymerase chain reaction. The results suggest that HIV can directly infect human bone marrow progenitor cells and affect their ability to proliferate and give rise to colonies in vitro. The results indicate a direct role for the virus in bone marrow suppression and a possible mechanism for the cytopenias observed in patients with AIDS.
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PMID:In vitro suppression of normal human bone marrow progenitor cells by human immunodeficiency virus. 200 42

Individuals infected by the human immunodeficiency virus type 1 (HIV-1) demonstrate progressive depletion and qualitative dysfunction of the helper T4 (CD4+) cell population. Mechanisms proposed for attrition of CD4+ T cells include direct cytopathicity of these mature cells following infection as well as infection of early T-lymphocyte progenitors. The latter mechanism could lead to failure to regenerate mature functioning CD4+ T cells. The present study determines the susceptibility of thymocytes at various stages of maturity to infection with HIV-1. Various normal thymocyte populations were inoculated with HIV-1, including unfractionated (UF), CD3- CD4- CD8- ["triple negative" (TN)], CD4+ CD8+ ["double positive" (DP)] thymocytes, and thymocyte populations obtained by limited dilution cloning. Cultures were studied for the presence of HIV-1 DNA by polymerase chain reaction in addition to examination for reverse transcriptase activity. We determined that transformed T-cell and thymocyte cell lines completely lacking CD4 were not susceptible to infection by HIV-1, whereas all of the following lines were: UF thymocytes (70-90% CD4hi+); DP thymocytes (99% CD4hi+); TN thymocytes (0% CD4hi+); and TCR alpha beta +, TCR gamma delta +, or CD16+ CD3- (natural killer) thymocyte clones expressing variable levels of CD4 and representing the progeny of TN thymocytes. [TCR alpha beta + and TCR gamma delta + refer to the chains of the T-cell antigen receptor (TCR), and CD4hi refers to a strong rightward shift (greater than 30 linear channels) of the CD4 curve on flow cytometric analysis compared with control.] Monoclonal antibodies (mAbs) to CD4 (T4a epitope) but not to CD3 (T3) were capable of blocking infection of mature and immature CD4hi+ thymocytes. Moreover, anti-CD4(T4a) mAbs also inhibited infection of CD4hi- TN thymocytes, indicating that these T-cell precursors--despite their apparent "triple negativity" (CD3- CD4hi- CD8-)--expressed sufficient CD4 molecules to become infected. Cell sorter analysis with a panel of CD4 mAbs demonstrated a mean shift of the mean fluorescence channel (MFC) with CD4 mAbs on TN thymocytes of 6 +/- 4 MFC units. Thus, intrathymic T-cell precursors and their progeny representing many stages of T-cell ontogeny are susceptible to infection by HIV-1, including early TN thymocytes, which express very low levels of CD4. Infection of multiple stages and multiple subsets of the T-cell lineage in man, mediated via the CD4 molecule, may explain the inability of the T-cell pool to regenerate in the setting of progressive HIV infection.
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PMID:Evidence for susceptibility of intrathymic T-cell precursors and their progeny carrying T-cell antigen receptor phenotypes TCR alpha beta + and TCR gamma delta + to human immunodeficiency virus infection: a mechanism for CD4+ (T4) lymphocyte depletion. 221 6

Infection with a simian retrovirus (STLV-I) closely related to human T-lymphotropic virus type I (HTLV-I) was investigated in non-human primates living in their native countries in Africa and Asia. Serum antibodies cross-reacting with HTLV-I antigens were detected in 85 of 567 non-human primates of 30 species. Seropositive animals were found among African green monkeys, olive baboons, Sykes' monkeys, mandrills and patas monkeys in several countries in Africa, and cynomolgus monkeys, Celebes macaques and siamangs in Indonesia. The frequency of seropositivity was much higher in adult than in young African green monkeys, cynomolgus monkeys and Celebes macaques. STLV-Is were isolated by establishing II lines of virus-producing lymphoid cells in the presence of interleukin-2 from 5 species of seropositive non-human primates, i.e. the African green monkey, Sykes' monkey, Celebes macaque, cynomolgus monkey and siamang. All these cell lines had T-cell markers and Tac antigen, and the cell lines from the African green monkey and Sykes' monkeys were Leu2a+ while those from other species were Leu3a+. These cell lines expressed viral antigens reacting with human sera from adult T-cell leukemia (ATL) patients and monoclonal antibodies (MAbs) against p19 and p24 of HTLV-I core proteins, and produced virus particles having RNA-dependent DNA polymerase activity. Cellular DNAs from these cell lines contained provirus sequences homologous to HTLV-I, shown by Southern blot hybridization. The restriction patterns of these provirus genomes were different from those of HTLV-I and were also dissimilar in the different species.
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PMID:Serological survey and virus isolation of simian T-cell leukemia/T-lymphotropic virus type I (STLV-I) in non-human primates in their native countries. 244 Aug 20

Herpes simplex virus type 1 (HSV-1) and some of its immediate-early genes stimulate expression of the human immunodeficiency virus (HIV) long terminal repeat (LTR) sequences and the replication of HIV itself. To demonstrate this, the HIV LTR was linked to the indicator gene chloramphenicol acetyltransferase (CAT) and transfected into Vero cells with or without the trans-activating gene (tat) of HIV. Infection of these cells with HSV-1 strain KOS or temperature-sensitive mutant tsB21 or tsE6 resulted in a large increase in CAT activity in the absence of tat and further augmentation in the presence of tat. This stimulation was seen at both their permissive (34 degrees C) and nonpermissive (39 degrees C) temperatures, implying either that HSV-1 infection or immediate-early gene expression is all that is required. In cotransfection assays in Vero cells, cloned HSV-1 immediate-early genes ICP0 and ICP4 stimulated CAT activity in the presence of tat, while ICP27 had no effect. On the other hand, in SW480 cells, ICP4 and, to a lesser extent, ICP0 genes caused stimulation of CAT activity in the absence of tat. Deletion mutants within the HIV LTR showed that the target for HSV stimulation is distinct from the tat-responsive area and maps near the SP1 binding sites. In Hela cells, ICP0 or ICP4 stimulated the replication of a cotransfected clone of HIV, as shown by an increase in reverse transcriptase activity in the culture supernatant.
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PMID:Activation of the human immunodeficiency virus by herpes simplex virus type 1. 244 5

Bovine leukaemia virus (BLV) propagated in a cell clone of foetal lamb kidney cells was transmitted by cell contact to bovine and ovine embryo cells derived from different organs. The transmission of the BLV genome was effectively achieved by cocultivation of mitomycin C-killed, virus-productive cells of the cell clone with embryo cells or by cell fusion. Infection of the same embryo cells by the virus was less effective. The transmission of BLV genome from nonproducer cells by the same procedure only exceptionally succeeded. The donor cells contained 3 integrated BLV proviruses. In the cells with transmitted BLV genome one provirus was found only. The majority of cells contained both unintegrated and integrated BLV provirus. In the cells containing the transmitted BLV, the virus genome was expressed to its protein products, some cells produced virus particles and reverse transcriptase activity into the medium. The implications of these findings are discussed with regard to biological and molecular properties of the retrovirus family to which the BLV belongs.
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PMID:Experimental transmission of the bovine leukaemia virus genome by cell contact. 244 69

Single genotypic variants of HIV-I, contained in a parental cytopathic HIV-I isolate, were isolated by molecular cloning and propagated in susceptible cells. Two such HIV-I clones, designated N1T-E and N1T-A, exhibited similar restriction endonuclease maps but strikingly different biological activities. Infection of T lymphocytes or monocytes by clone N1T-E was characterized by slow kinetics and lack of significant cytopathic effects, but high reverse transcriptase activity levels in culture supernatants of chronically-infected cells. Clone N1T-A, like the parental HIV-I isolate, exhibited fast kinetics of infection in T cells and monocytes and strong cytopathicity in these cells. Full characterization of the low-cytopathic virus in comparison to the structurally similar cytopathic clone may facilitate the elucidation of the molecular basis of HIV cytopathogenicity.
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PMID:Low-cytopathic infectious clone of human immunodeficiency virus type I (HIV-I). 245 68

Infection with the human immunodeficiency virus (HIV) is often followed by a prolonged latent state, and mechanisms of maintaining latency or inducing expression from latency are active areas in AIDS research. It has been previously shown using a variety of viruses and cell systems that ultraviolet (UV) irradiation is capable of inducing the expression of latent viruses as well as augmenting the effects of acute viral infection. The ability of UV irradiation to affect HIV latency was investigated using a chronically HIV-infected, virus nonexpressing promonocytic cell line termed U1. After exposure to UV-C in doses ranging from 0.75 to 2.0 mJ/cm2, U1 cells were induced to express virus as assessed by detection of elevated reverse transcriptase activity and p24 antigen levels in culture supernatants of treated cells compared with unstimulated controls. In addition, immunofluorescence on cytospin preparations of UV-irradiated cells revealed a time-dependent increase in viral antigen production after UV stimulation. A similar increase in RT levels was seen after exposure of U1 cells to UV-B, although somewhat higher doses of UV-B (mJ) were required compared with UV-C (mJ). Viral induction by UV irradiation was associated with a drop in viability and a static growth curve, suggesting that a certain level of cellular stress was most likely necessary to initiate viral expression. The potential role of UV-induced cell damage with activation of a cellular "SOS" repair response is a probable explanation of the enhanced viral production observed.
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PMID:Induction of expression of human immunodeficiency virus in a chronically infected promonocytic cell line by ultraviolet irradiation. 247 51

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