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)

Plasma from two rhesus macaques (Macaca mulatta) experimentally infected with the simian immunodeficiency virus (SIV; isolate SIVmac251) enhanced SIVmac infection of a human CD4+ lymphoblastoid cell line, MT-2. Prechallenge plasma samples from these animals and serum from SIV-negative macaques did not enhance infection. Compared with controls, infection enhancement was characterized by the rapid appearance of syncytium formation (3 to 4 days sooner), reverse transcriptase release (10-fold increase), and cytopathic effect (60% cell killing). Enhancement of activity was dependent on the presence of diluted, fresh SIV-negative macaque serum as a source of complement. A requirement for complement was shown by the absence of enhancement in heat-inactivated serum and by dose-dependent inhibition of enhancement in the presence of polyclonal antibody to monkey complement component C3. Monoclonal antibody to CD4 (OKT4a) blocked enhancement completely, while monoclonal antibody to the human complement component C3d receptor CR2 (OKB7) reduced enhancement by greater than 50%, indicating a requirement for CD4 and CR2 in mediating this phenomenon. SIV infection-enhancing activity appeared in macaques soon after experimental inoculation (28 days). The titer increased over time and peaked just prior to the death of both macaques from opportunistic infections and lymphoma. In vitro SIV infection enhancement is nearly identical to the in vitro complement-mediated, antibody-dependent enhancing (C'-ADE) activity observed in human immunodeficiency virus-positive human sera (Robinson et al., Lancet i:790-794, 1988; Robinson et al., J. Acq. Immun. Def. Synd. 2:33-42, 1989). These observations validate the macaque-SIV model for studies of C'-ADE.
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PMID:Antibody-dependent enhancement of simian immunodeficiency virus (SIV) infection in vitro by plasma from SIV-infected rhesus macaques. 215 8

Four Epstein-Barr virus-positive lymphoblastoid cell lines (LCL) were successfully infected in vitro with immunodeficiency virus type 1 (HIV-1) as demonstrated by reverse transcriptase activity and p24 HIV antigen in culture supernatants, positive cell staining for gag-encoded HIV proteins, presence of viral HIV genome by Southern blot analysis and ulstrastructural observations. In addition, both HIV-1-infected B cells and their supernatants efficiently transactivated the chloramphenicol acetyl transferase reporter gene which is under the control of the HIV-1 long terminal repeat. The LCL cells displayed long-term HIV-1 infection and production, but no cytopathic effects were observed. Cytofluorimetric analysis did not detect membrane CD4 presence in the LCL cells before and after HIV-1 infection; moreover, a minute amount of CD4 mRNA was observed only in one of the LCL. A monoclonal antibody specific for the viral binding site of the CD4 molecule delayed, but did not block, HIV-1 infection of the LCL cells. Following HIV-1 infection, changes in LCL phenotype were observed, consisting of a decrease in CD23- and CD39-positive cells, and a concomitant increase of cells with surface CD10 and Bac-1. Furthermore, HIV-1-infected LCL cells did not grow in tight clumps, as usually observed in uninfected LCL, but as disperse suspensions, and formed more agar colonies than control LCL. However, despite this apparent acquisition of a malignant-like phenotype, c-myc proto-oncogene rearrangement was not detected. The appearance of cells with new characteristics did not seem due to clone selection by HIV-1 infection, since all the LCL conserved their clonotypic pattern of IgH chain rearrangement. The acquisition of malignant-like features by HIV-infected B cells might be clinically significant in terms of the pathogenesis of non-Hodgkin's B cell lymphomas, which occur frequently in AIDS patients.
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PMID:Infection of Epstein-Barr virus-transformed lymphoblastoid B cells by the human immunodeficiency virus: evidence for a persistent and productive infection leading to B cell phenotypic changes. 217 Jan 47

Human immunodeficiency virus (HIV), the cause of AIDS, was the second retrovirus to be associated with human diseases. The unique life cycle of retroviruses involves reverse transcription of their RNA to DNA, which is incorporated into their host's genes. HIV, despite its small genome, contains multiple structural and regulatory genes, the latter controlling the rate of viral replication. Experimental vaccines are aimed at inhibiting binding of HIV to host cells. Azidothymidine (AZT) and other nucleoside analogues inhibit the reverse transcriptase enzyme. HIV induces profound and specific immunosuppression by depleting helper lymphocytes that bear the cluster determinant 4 (CD4, formerly T4). The clinical course of HIV infection is mainly determined by the number of CD4 lymphocytes in the blood. A comprehensive, multidisciplinary approach to patient management can reduce the adverse medical, psychosocial, and economic impact of AIDS.
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PMID:Virology, immunology, and clinical course of HIV infection. 218 Oct 4

Zidovudine, the first widely used antiretroviral agent, prevents replication of the human immunodeficiency virus (HIV) by inhibiting reverse transcriptase. Its use in patients with acquired immunodeficiency syndrome slows progression of the disease and prolongs survival. Zidovudine also significantly reduces the rate of progression to AIDS in adults with asymptomatic HIV infection and CD4 T-lymphocyte counts below 500 per mm3. The major toxicity of the drug is bone marrow suppression resulting in anemia or granulocytopenia, or both. Recently, lower doses have been shown to be effective and are associated with less toxicity.
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PMID:Zidovudine for the treatment of HIV infection. 204 38

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

Since the first controlled clinical trial of zidovudine (ACT) was terminated in the fall of 1986, much has been learned concerning the use of this agent in the treatment of human immunodeficiency virus (HIV) infection. The recent report of HIV resistance associated with long-term AZT therapy has accelerated the sense of urgency about the development of additional agents for use--either alone or in combination with AZT--against this infection. Several new agents are in various stages of preclinical or clinical evaluation. Some, such as dideoxycytidine, dideoxyinosine, dideoxydidehydrothymidine, azidouridine, and foscarnet, inhibit viral DNA synthesis through inhibition of reverse transcriptase. Other potentially useful agents presumably act at different stages of infection. Soluble CD4, for example, is a soluble form of the receptor to which HIV must bind to infect cells, and castanospermine represents a new class of compounds that block the maturation process of the viral glycoprotein. An apparently more potent and less toxic analogue of the latter agent, N-butyl-deoxynojirimycin, is currently in phase I testing.
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PMID:New antiretroviral agents in the clinic. 223 36

Twelve long-term cell lines were established from peripheral blood mononuclear cells (PBMC) or cerebrospinal fluid cells of patients with human T lymphotropic virus type I (HTLV-1) seropositive tropical spastic paraparesis (TSP) originating from the French West Indies, French Guyana or the Central African Republic. Most of these long-term interleukin-2-dependent cell lines exhibited a pattern characteristic of CD4(+)-activated T cells with high expression of CD2, CD3 and CD4 antigens, associated with a strong density of TAC and DR molecules. Nevertheless, in five cases CD8 expression was present at a significant level. HTLV-I antigens were never detected in uncultured PBMC, but they were expressed in a few cells after short-term culture and after 4 months the majority of the cells were HTLV-I positive, as demonstrated by indirect immunofluorescence (IF) using polyclonal or monoclonal anti-p19 and anti-p24 antibodies. Low and variable levels of reverse transcriptase activity were detected in supernatant fluids of these cell lines only after 4 months of culture, when at least 50% of the cells exhibited HTLV-I antigens by IF. However, numerous type C HTLV-I-like viral particles were detected, mostly in the extracellular spaces, with rare budding particles. Similar findings were found in three T cell lines derived from West Indian and African patients with adult T-cell leukaemia/lymphoma (ATLL). Differences in high Mr polypeptides were detected by Western blot in cell lysates when comparing TSP- or ATLL-derived T cell lines. Thus a signal of 62K was easily detectable in all the TSP lines, but not in the ATLL lines. In all cell lines bands corresponding to p53, p24 and p19 viral core polypeptides were present, as was the env gene-coded protein p46.
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PMID:Cell surface phenotype and human T lymphotropic virus type 1 antigen expression in 12 T cell lines derived from peripheral blood and cerebrospinal fluid of West Indian, Guyanese and African patients with tropical spastic paraparesis. 230 64

In this study it is demonstrated that complement-mediated antibody-dependent enhancement (C'-ADE) of HIV-1 infection in vitro is blocked by murine monoclonal antibodies to CD4 and complement receptor type 2 (CR2) while HIV-1 infection in the absence of C'-ADE is blocked by anti-CD4 but not anti-CR2 monoclonal antibodies. The anti-CR2 murine monoclonal antibody, OKB7, blocked C'-ADE of HIV-1 infection at concentrations greater than 1 microgram/ml. The anti-CD4 monoclonal antibody, OKT4a, but not OKT4f blocked C'-ADE at concentrations greater than 0.06 microgram/ml. HIV-1 infections were quantitated by cytopathic effect, indirect immunofluorescence, and reverse transcriptase release. It appears from these in vitro studies that C'-ADE of HIV-1 infection requires both CD4 and complement receptors while HIV-1 infection in the absence of antibody and complement requires only CD4.
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PMID:Complement-mediated antibody-dependent enhancement of HIV-1 infection requires CD4 and complement receptors. 232 77

Mononuclear phagocytes can be infected with the human immunodeficiency virus type 1 (HIV-1). Although these cells express CD4 antigen, which is the recognized cellular receptor for HIV, additional cell surface proteins such as the Fc receptor, might serve as receptors for infection. In order to study this possibility we used the U937 monocytic cell line as a target for HIV infection. Flow cytometry of U937 showed that 97% of cells expressed CD4, 33% expressed the high affinity 72 kD Fc receptor (FcRI), and 74% expressed the low-affinity 40 kD Fc receptor (FcRII). Virus neutralization tests were performed by preincubating heat-inactivated human anti-HIV sera with HIV-1, IIIB strain, and then challenging U937. After 13 days in culture, productive HIV-1 infection was monitored by reverse transcriptase activity. High concentrations of certain sera (10(-1)-10(-3) dilutions) neutralized HIV-1, but at subneutralizing concentrations (10(-4)-10(-6) dilutions), five of these sera enhanced viral infection approximately two- to threefold. This enhancement of HIV-1 infection was totally blocked by 1 microgram/ml recombinant soluble CD4 (rCD4) or by 0.5 microgram/ml anti-CD4 Leu3a monoclonal antibody. These results suggest that serum enhancement of HIV-1 infection, thought to be due to binding to the monocyte Fc receptor, requires HIV-1 binding to CD4, since rCD4 or Leu3a blocked this phenomenon.
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PMID:Inhibition of serum-enhanced HIV-1 infection of U937 monocytoid cells by recombinant soluble CD4 and anti-CD4 monoclonal antibody. 236 Oct 75

Human epithelial cells (L132) derived from embryonic lung and human lung fibroblasts (MRC5) were infected by human immunodeficiency virus type 1 (HIV-1) or type 2 (HIV-2). Surface CD4 protein was detected on these cells, and recombinant soluble CD4 (sCD4) blocked infection, indicating that HIV infection was mediated by the cell surface CD4 protein. In contrast, infection of human primary chondrocyte cells (C23), synovial cells (HSA), and foreskin fibroblasts (F13) was apparently independent of cell CD4-mediated mechanisms. Surface CD4 protein could not be detected on these cells, and sCD4 did not block the infection. F13 cells could be infected only by HIV-2, not by HIV-1, under our experimental conditions. In cells of mesenchymal orgin, viral production could be detected only after cocultivation with the human T-lymphoid H9 cells but not by conventional viral assays, including reverse transcriptase and p24 antigen assays in cell culture supernatant and immunofluorescence of host cells. Our DNA transfection studies indicated that this lack of detectable viral production was not due to the inefficient use of the HIV long terminal repeat or the Tat protein in these cells. These mesenchymal and epithelial cells were susceptible to HIV infection but differed in mechanism of virus entry compared with hematopoietic cells such as T lymphocytes. These observations may provide insights into clinical syndromes such as lung dysfunction in HIV-infected newborns and connective tissue disorders in HIV-infected adults.
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PMID:Infection of nonlymphoid cells by human immunodeficiency virus type 1 or type 2. 238 19

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