Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sera from each of five preselected groups of patients with acquired immune deficiency syndrome (AIDS), AIDS-related complex (ARC), hemophilia, adult T-cell leukemia (ATL), and healthy controls were examined for antibodies to human T-cell leukemia (T-lymphotropic) virus type-I (HTLV-I) and HTLV-III by indirect immunofluorescence (IF) and radioimmunoprecipitation (RIP) methods. All sera from five patients with AIDS, ARC, and hemophilia reacted at titers from 1 : 512 to 1 : 5,120 with fixed H9/HTLV-III cells by IF but not with fixed MT-1 cells carrying HTLV-I. Similarly, sera from patients with AIDS, ARC, and hemophilia precipitated HTLV-III-specific polypeptides of 120K, 46K, and 24K. In contrast, sera from five patients with ATL did not react with fixed H9/HTLV-III cells, but reacted with fixed MT-1 cells. Moreover, HTLV-I-specific polypeptides of 68K, 28K, and 24K were precipitated with sera from ATL-patients but not with anti-HTLV-III-positive sera. Recently, we infected HTLV-I-carrying MT-4 cells with HTLV-III and provoked strong cytopathic effects. This system enabled testing for neutralizing antibodies to HTLV-III. Neutralizing titers to HTLV-III of five anti-HTLV-III-positive sera ranged from 1 : 720 to 1 : 9,000. In contrast, all five seronegative controls showed no or only low reactivity to HTLV-III envelope (1 : 80 and 100). However, three out of five anti-HTLV-I-positive sera exhibited weak cross-reactivities with HTLV-III. The reactivities were expressed as less than 1 : 160, except for one case (1 : 720). They were considered to be nonspecific since they were negative for HTLV-III antibodies in the radioimmunoprecipitation studies.
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PMID:Serological differences between human T-lymphotropic virus type-I (HTLV-I) and HTLV-III/LAV. 301 57

Upon infection of human T-cell leukemia virus type I (HTLV-I)-carrying human T-cell lines such as MT-4, HTLV-III, a probable etiologic agent of acquired immune deficiency syndrome (AIDS) caused fast and strong cytopathic effects leading ultimately to the death of the cells. Such effects were preceded by the rapid induction of HTLV-III antigens. Cell lines not infected with HTLV-I could, however, be subcultured after infection with HTLV-III, although they were also positive for HTLV-III antigens. To understand this cytopathogenicity of HTLV-III in HTLV-I bearing cells, macromolecular synthesis, including DNA synthesis and total protein synthesis, and also IL-2 receptor expression were investigated kinetically. In infected MT-4 cells DNA synthesis was markedly inhibited by HTLV-III after the HTLV-III antigen synthesis became evident. This inhibition occurred before cell damage was detected in terms of viable cell-growth, but after induction of HTLV-III antigen. Puromycin, at 40 micrograms/ml, caused no toxic changes in MT-4 cells over 3 days but prevented viral antigen synthesis and virus-induced cytopathic effect. Protein synthesis and IL-2 receptor expression were also inhibited at 4 and 5 days post infection. The degree of the effects and their kinetics suggest that they are the secondary effects of cytotoxicity by HTLV-III infection.
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PMID:Effect of HTLV-III on the macromolecular synthesis in HTLV-I carrying cell line, MT-4. 302

The effects of various compounds were studied quantitatively on the growth of human immunodeficiency virus (HIV). For this we used a human T-cell leukemia virus type I carrying cell line, MT-4 which is most permissive for HIV infection. The results are summarized as follows: 1) Prostaglandin E2 and 12-0-tetradecanoylphorbol-13-acetate enhanced the production of HIV significantly in MT-4 cells as well as a continuous HIV producer Molt-4/HTLV-III cells. 2) Interferon gamma, retinoic acid and 3'-azido-3'-deoxythymidine inhibited the replication of HIV at the concentrations which were not cytotoxic. Mechanism of action of these compounds and its clinical implications are discussed.
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PMID:Substances affecting the infection and replication of human immunodeficiency virus (HIV). 303 Mar 46

Immunoglobulin samples (HIV-Ig) were prepared by cold ethanol fractionation of human plasma containing antibody against human immunodeficiency virus (HIV). The ability to prevent viral spreading was studied using either human T-cell leukemia virus type I (HTLV-I)-carrying MT-4 cells or in a coculture system using MOLT-4 cells and virus-producing MOLT-4/HIV HTLV-IIIB cells. Treatment of HIV-infected MT-4 cells with HIV-Ig effectively blocked the appearance of antigens of HIV and the virus-induced cytopathic effect. HIV-Ig blocked multinucleated giant cell formation in the MOLT-4 and MOLT-4/HIV HTLV-IIIB coculture system.
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PMID:Efficacy of an immunoglobulin preparation from HIV carriers in preventing HIV replication in vitro. 336 35

Human T-cell leukaemia virus type I (HTLV-I) proviral integration sites from an asymptomatic carrier and from the MT4 cell line were analysed by linker-mediated PCR (LMPCR) and inverse PCR (IPCR). LMPCR was more sensitive, allowing detection of a greater number of integrated proviruses. Reconstruction experiments using a cloned integrated HTLV-1 provirus indicated that > 100 copies were necessary to be detected frequently by LMPCR. To circumvent this problem, the LMPCR analysis was performed approximately 20 times per sample. Thus, for the MT4 cell line, the seven major integration sites were accompanied by approximately 20 clones of lesser frequency. For an asymptomatic HTLV-I carrier, nine integration sites were identified in a single amplfication, while a further 9 followed from 14 additional reactions. These findings show that there is a stochastic element to sampling HTLV-I integration sites by LMPCR, which tends to underestimate the actual number of HTLV-I bearing clones. Accordingly, those detected in at least two reactions represent the most abundant clones.
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PMID:Stochastic events in the amplification of HTLV-I integration sites by linker-mediated PCR. 748 Oct 90

We generated variants of the human immunodeficiency virus type 1 (HIV-1) that are resistant to 2',3'-dideoxycytidine (ddC) and 2',3'-didehydro-3'-deoxythymidine (d4T) by in vitro selection in MT-4 cells. Portions of flanking protease and integrase sequences as well as the complete reverse transcriptase (RT) open-reading frame of these viruses were cloned and sequenced, using polymerase chain reaction (PCR)-based methods. Mutations were observed at amino acid position 65 (Lys-->Arg; AAA-->AGA) when ddC was employed in the selection procedure and at site 50 (Ile-->Thr; ATT-->ACT) when d4T was used. We confirmed the ability of these mutations to confer diminished sensitivity for these compounds by site-directed mutagenesis, in which these mutations were inserted into the pol gene of infectious recombinant HXB2-D DNA. Viruses that contained the site 65 mutation possessed approximately 5-10 fold resistance against ddC when compared with wild-type HXB2-D. The site 50 mutation conferred approximately 30-fold resistance to d4T in these same assays. Similar results were obtained using primary cord blood lymphocytes in drug resistance assays, indicating that these mutations could confer drug resistance in more than one cell type and that the respective mutations could be expressed in cells of primary origin. No cross-resistance against 3'-azido-3'-deoxythymidine (AZT) was noted for either the site 65 or 50 mutations.
Leukemia 1994 Apr
PMID:Identification of novel mutations that confer drug resistance in the human immunodeficiency virus polymerase gene. 751 78

The matrix (MA) protein of human immunodeficiency virus type 1 (HIV-1) forms the outer protein shell directly underneath the lipid envelope of the virion. The MA protein has a key role in different aspects of virus assembly, including the incorporation of the HIV-1 Env protein complex, which contains a transmembrane glycoprotein with an unusually long cytoplasmic tail. In this study, we compared the abilities of HIV-1 MA mutants to incorporate Env protein complexes with long and short cytoplasmic tails. While the mutant particles failed to incorporate the authentic HIV-1 Env protein complex, they retained the ability to efficiently and functionally incorporate the amphotropic murine leukemia virus Env protein complex, which has a short cytoplasmic tail. Moreover, incorporation of the autologous Env protein complex could be restored by a second-site mutation that resulted in the truncation of the cytoplasmic tail of the HIV-1 transmembrane glycoprotein. Remarkably, the second-site mutation also restored the ability of MA mutants to replicate in MT-4 cells. These results imply that the long cytoplasmic tail of the transmembrane glycoprotein is responsible for the exclusion of the HIV-1 Env protein complex from MA mutant particles.
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PMID:Rescue of human immunodeficiency virus type 1 matrix protein mutants by envelope glycoproteins with short cytoplasmic domains. 774 30

Moloney murine leukemia virua (MoMuLV)-derived retroviral vectors were engineered to express human immunodeficiency virus type 1 (HIV-1) packaging (psi) signal and Rev response element (RRE) sequences in either sense or antisense orientation. The RRE sequences were expressed under the control of the herpes simplex virus (HSV) thymidine kinase (tk) promoter fused to the HIV-1 trans-activation-responsive (TAR) element, while the psi signal sequences were expressed under control of the HSV tk promoter. Both RRE and psi signal sequences were expressed as part of the 3' untranslated region of the neomycin phosphotransferase (neo) mRNA. The constructs were used to transfect/infect packaging cell lines and the retroviral vector particles released were used to infect a human CD4+ lymphocyte-derived MT4 cell line. The stable MT4 transformants, harboring proviral vector DNA expressing one to two copies of HIV-1 RRE and psi signal in either antisense or sense orientation, were each tested for their susceptibility to HIV-1 infection. Compared to the results obtained with the control cells lacking any of the test DNA sequences, the rate of HIV-1 production remained unaltered in RRE1+ (sense RNA containing a single copy of RRE) RNA-containing cells, whereas it was delayed in cells expressing both RRE2+ (sense RNA containing two copies of RRE) and RRE1- (antisense RNA containing a single copy of RRE) RNA-expressing cells. In cells expressing HIV-1 psi signal, HIV-1 production remained unaltered in psi + RNA-expressing cells, whereas it was delayed by up to 30 days in psi - RNA-expressing cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of HIV-1 multiplication in a human CD4+ lymphocytic cell line expressing antisense and sense RNA molecules containing HIV-1 packaging signal and Rev response element(s). 791 62

Multinucleated-giant-cell formation followed by cell killing was observed after cocultivation of the feline immunodeficiency virus (FIV)-producing feline T-cell line 3201/FIV with various human cells, including T-cell lines carrying human T-cell lymphotropic virus type I (HTLV-I). The susceptibility to giant cell formation varied with the cell lines tested. Cocultivation of irradiated 3201/FIV cells with MT-2 cells resulted in giant cell formation as early as 2 h in culture, with striking resemblance to that induced by human immunodeficiency virus (HIV). MT-4 cells (HTLV-I positive) and H9 cells (HTLV-I negative) were less susceptible than MT-2 to the induction of syncytia. MOLT-4 cells (HTLV-I negative) had intermediate sensitivity to syncytia formation. No syncytia were observed in the monocytic cell line U-937 (HTLV-I negative). Syncytia formation between 3201/FIV and MT-2 cells was inhibited by polyclonal cat anti-FIV antisera but not polyclonal cat anti-feline leukemia virus (FeLV) antisera, goat anti-FeLV, uninfected specific-pathogen-free cat serum, human anti-HTLV-I antisera, or normal human and goat serum. Concentrated cell-free FIV supernatant from 3201/FIV also induced giant cells of MT-2 cells that were indistinguishable from those induced by cocultivation. Giant cells and extensive cell killing associated with giant cell formation declined and disappeared within 10 days. Surviving cells appeared to be of normal size and grew continuously without expressing FIV antigen or releasing infective virus. Although Southern blot analysis using probes specific for FIV could not detect proviral DNA in any of the five human cell lines cocultured with irradiated 3201/FIV cells, the polymerase chain reaction (PCR) technique detected FIV-specific DNA in MOLT-4 cells. DNA from the FIV-PCR positive MOLT-4 cells was PCR negative for endogenous FeLV-specific sequences, indicating that the MOLT-4 cell DNA was not contaminated with DNA from feline cells (i.e., 3201 cells). The FIV-MOLT-4 cells remained PCR positive for FIV after 40 passages, suggesting stable integration in the human cell line. These findings indicate that FIV is capable of forming proviral DNA in human T-lymphoid cells by cocultivation, although this FIV-carrying human cell line failed to produce replication-competent viruses.
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PMID:Fusion activity dissociated from replication ability in feline immunodeficiency virus (FIV) in human cells. 825 66

We examined the ability of hematopoietic cells to transactivate the HTLV promoter by a transcellular mechanism. HeLa cells containing a CAT reporter gene driven by the HTLV-2 promoter were cocultivated with hematopoietic cells of the B-(Raji), T-(HuT78, Jurkat) and monocyte/promyelocytic (THP-1, U937 and HL60) lineages. Cocultivation with U937 and HuT78 cells constitutively and significantly transactivated the HTLV-2 promoter, while no effect was observed with the other lines. However, activation of other T-cell lines (CEM, Jurkat, Molt-3 and MT-4) with a combination of phorbolester and phytohemagglutinin also resulted in potent transactivation. Supernatant from HuT78 cells exhibited detectable transactivating activity, suggesting that the activation is mediated by a secreted factor(s). This factor also transactivates the HTLV-1 promoter. We used a panel of HTLV-1 LTR deletion mutants to map the responsive elements to this factor(s). Unlike the response element to the HTLV transactivator protein, Tax, which can be mapped to a small region in the enhancer, maximal transactivation by the cellular factor(s) required the complete U3 sequence. Transcellular activation of the HTLV promoter by activated T-cells may play a role in the development of leukemia in HTLV infected individuals.
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PMID:Transcellular activation of the HTLV promoter by human hematopoietic cells. 830 96


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