EC:2.3.1.28 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antisense oligodeoxynucleotide (ODN), which are directed against the splice acceptor site of exon II of the regulatory gene tat of the human immunodeficiency virus type 1 (HIV-1), have been described. These 20-mer ODN's displayed moderate anti-HIV activity in vitro. Using the same antisense ODN (termed ODN-2), which was additionally modified and protected both at the 3'- and the 5'-terminus by two phosphorothioate internucleotide linkages, a strong anti-HIV activity (EC50: 2.7 micrograms/ml) could be measured in the HIV-1/CEM- and HIV-1/HeLa-T4+ cell system. The analogous ODNs which were protected only at one end were either inactive (up to 10 micrograms/ml) or displayed a low antiviral activity. Time kinetic studies revealed that the antisense ODN-2 reduced the release of HIV-1 already after an incubation time of 1 h. By applying S1 nuclease protection procedures, it could be established that the antisense ODN-2 inhibited splicing of high molecular weight transcript to the 2-kb tat mRNA in HIV-1-infected CEM cells. Transfection experiments with pU3R-III chloramphenicol acetyltransferase expression vector in HeLa-T4+ cells revealed that the antisense ODN-2 blocked the Tat protein-mediated transactivation process. In co-transfection experiments using pSV2tat72 or scrape loading studies with purified Tat, the transactivation was restored. These data indicate that the selected antisense ODN-2 displays its anti-HIV effect by blocking the splicing process leading to the functional 2-kb tat mRNA.
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PMID:Antisense oligodeoxynucleotide: inhibitor of splicing of mRNA of human immunodeficiency virus. 156 36

Cell signaling events are known to affect human immunodeficiency virus type 1 (HIV-1) replication. Treatment of lymphoid CEM cells with the calcium channel blocker verapamil (25-75 microM) enhanced HIV-1 expression in acute, whole virus infection experiments, despite lowering intracellular calcium levels, ablating the acute rise in intracellular calcium normally seen with infection, and lengthening the doubling time of cell replication. Verapamil had no effect on cell surface CD4 expression. Transfection of CEM cells with plasmids containing the HIV-1 long terminal repeat linked to the chloramphenicol acetyltransferase reporter gene showed that verapamil enhanced expression of the HIV-1 long terminal repeat in a dose-dependent fashion. This effect was abolished by mutations in the binding sites for nuclear factor kappa-B. Electrophoretic mobility shift assays confirmed that verapamil induced nuclear factor kappa-B activity in CEM cells. Thus, verapamil, in high concentrations, can potentiate HIV-1 replication in lymphoid cells, and this effect may be mediated by induction of nuclear factor kappa-B.
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PMID:Effect of the calcium channel blocker verapamil on human immunodeficiency virus type 1 replication in lymphoid cells. 171 54

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

B19 parvovirus is absolutely tropic for human erythroid progenitor cells. Among the untested mechanisms underlying this tropism is the possibility of cell-specific positive regulation of the promoter in permissive cells. Using the bacterial chloramphenicol acetyltransferase and firefly luciferase reporter genes, we detected strong activity from the B19 P6 promoter in transfected nonpermissive cells. Very high-level expression was seen in a T lymphoblastoid cell line, CEM. No transcriptional enhancement occurred in an erythropoietin-dependent semipermissive cell line. A putative second B19 promoter at map unit 44 (P44) was nonfunctional and unable to confer tissue specificity. Thus, tropism is unlikely to be regulated at the level of transcriptional initiation from either the P6 or P44 promoter.
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PMID:Indiscriminate activity from the B19 parvovirus p6 promoter in nonpermissive cells. 202 72

We recently demonstrated that monoclonal antibody (MAb) 13B8-2, specific for the immunoglobulin (Ig) complementary determining region 3 (CDR3)-like region of the CD4 molecule, inhibits viral transcription in human immunodeficiency virus (HIV)-infected CEM cells and HIV type 1 (HIV-1) promoter activity. Here, we have studied the capacity of several MAb specific for the D1 domain of CD4, including anti-CDR2-like (Leu-3a and ST4) and anti-CDR3-like (13B8-2 and ST40) MAb, and for the D2 domain of CD4 (BL4) to inhibit both provirus transcription in HIV-1LAI-infected CEM cells and transcription of the chloramphenicol acetyltransferase (CAT) gene under control of the HIV-1 long terminal repeat in transiently transfected CEM cells. We found that HIV-1 promoter activity and provirus transcription are inhibited only by MAb that bind to the CDR3-like region in domain 1 of CD4. Moreover, we demonstrated that the Fab fragment of an anti-CDR3-like region-specific anti-CD4 MAb is a powerful inhibitor of HIV-1 promoter activity. These results have implications for understanding the role of the CDR3-like region in CD4 T-cell signaling, which controls provirus transcription.
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PMID:Functional epitope analysis of the human CD4 molecule: antibodies that inhibit human immunodeficiency virus type 1 gene expression bind to the immunoglobulin CDR3-like region of CD4. 747 6

We used the polymerase chain reaction (PCR) to study which step(s) of the human immunodeficiency virus type 1 (HIV-1) life cycle may be blocked following treatment of HIV-exposed CEM cells with 13B8-2, a monoclonal antibody (mAb) specific for the immunoglobulin (Ig) CDR3-like region of the CD4 molecule and able to inhibit the productive infection of CEM cells by HIV-1. The presence of viral RNA was investigated and found in 13B8-2 mAb-treated CEM cells 30 min after viral exposure; the full-length viral DNA was found at 24 h post-infection. We also found integrated forms of viral DNA at 24 h post-infection. However, the integrated provirus was transcriptionally inactive in 13B8-2 mAb-treated cells, as demonstrated by the absence of spliced HIV-1 mRNA. The lack of HIV transcription under 13B8-2 mAb treatment was confirmed by chloramphenicol acetyltransferase (CAT) assay. We conclude that the inhibition of viral gene transcription accounts for the lack of progeny virions in culture supernatants of cells treated with this anti-CD4 mAb. We also demonstrate that 13B8-2 blocks viral production from chronically infected cells and restores CD4 cell-surface expression on CEM cells containing an integrated provirus(es). We found this effect to be reversible. Moreover, we demonstrate that 13B8-2 mAb treatment is efficient on different HIV-1 and HIV-2 virus isolates. These results may have major implications for the treatment of AIDS.
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PMID:An antibody that binds the immunoglobulin CDR3-like region of the CD4 molecule inhibits provirus transcription in HIV-infected T cells. 750 20

The regulatory element (RE) of the human leukosialin (LS)-encoding gene, that encodes a major sialoglycoprotein of human leukocyte and platelet membranes, was used to develop a novel expression vector, pKX. The vector was constructed by cloning a RE fragment and the SV40 fragment containing polyadenylation and splicing signals between HindIII and BamHI sites of the pCAT-Basic vector. The transcription level controlled by this vector was evaluated in six different cell lines using a transient expression assay of chloramphenicol acetyltransferase (CAT). The CAT activity of the pKX vector was compared to the other common expression vectors, namely pMSG (driven by the mouse mammary tumor virus LTR), pcDL-SR alpha (SV40 promoter/enhancer and HTLV-I LTR), pcDNAI (cytomegalovirus promoter/enhancer) and pCAT-Control (SV40 promoter/enhancer). The level of expression provided by the pKX vector was comparable to that observed with pcDNAI and pcDL-SR alpha vectors. In different mammalian cell lines, the highest efficiency of expression of the pKX vector was observed in the human T-cell lines, Jurkat and CEM, although the expression of pcDL-SR alpha-CAT in those cell lines was in the same range. The expression of the pKX vector driven by a non-viral promoter and/or enhancer can be as efficient as that driven by a viral promoter and/or enhancer. Potential uses of this vector may be found in studies of transient gene expression in hematopoietic cells and for gene therapy, particularly the ones involving T-cells.
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PMID:A novel expression vector composed of a regulatory element of the human leukosialin-encoding gene in different types of mammalian cells. 764 11

We have studied the role of intracellular calcium sequestration on human immunodeficiency virus (HIV) production by latently infected T-lymphocytic cells. Inhibition of the sarco-endoplasmic reticulum-type calcium transport ATPases by thapsigargin or cyclopiazonic acid induced activation of HIV production in the CEM-derived ACH-2 cells. An approximately 50% depletion of the thapsigargin-sensitive calcium pools as measured fluorimetrically of Indo-loaded cells fully activated virus production. Viral activation was manifest by increases in soluble viral core p24 production, increases in cellular immunofluorescent staining for viral antigens, and increased viral transcription as measured by HIV long terminal repeat-directed expression of the chloramphenicol acetyltransferase reporter gene. Virus induction could be blocked in a dose-dependent manner by the calcium channel blocker econazole. Virus production by the Jurkat-derived HIV-1-inducible J1.1 cells was not significantly stimulated by thapsigargin. These data indicate that intracellular calcium pool function is involved in the control of the transcription of proviral HIV in a cell type-specific manner within the T-lymphoid lineage and that ACH-2 cells represent a useful model for the study of calcium dependent activation of the transcription of proviral HIV.
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PMID:Stimulation of HIV expression by intracellular calcium pump inhibition. 773 Mar 32

We investigated the mechanism of verapamil (VRP) effects on mdr1 gene expression in two leukemic multidrug-resistant (MDR) cell lines, K562/ADR and CEM VLB100. Exposure to VRP for 24 hr resulted in a decrease in mdr1 mRNA levels that was dose related at concentrations between 15 and 50 microM. The maximal decrease of mdr1 mRNA levels was found to be 6-fold in the K562/ADR cells and 3-fold in the CEM VLB100 cells. The effect of VRP on mdr1 mRNA levels was, however, biphasic. At 100 microM VRP, which strongly inhibited cell proliferation, a 2-fold increase of mdr1 mRNA levels was observed in the K562/ADR cells. To determine whether the decrease of mRNA levels resulted from post-transcriptional mechanisms, mRNA stability was studied after blocking of transcription with actinomycin D in VRP-treated cells and in control cells. This study revealed that mdr1 mRNA was stable in both cell lines and no increase in mdr1 mRNA degradation was observed in the 30 microM VRP-treated cells versus control cells (half-lives of 23 hr versus 14 hr for the K562/ADR cells and 15.5 hr versus 10.0 hr for the CEM VLB100 cells). The suggestion of a transcriptional mechanism was confirmed by nuclear run-on assays. A 4-fold decrease in the mdr1 gene transcription rate was observed in the 30 microM VRP-treated CEM VLB100 cells. The decreased transcription rate could be due to the decrease in mdr1 proximal promoter activity observed in CEM VLB100 cells transiently transfected with the mdr1 promoter fused to the chloramphenicol acetyltransferase gene. Indeed, after exposure to 30 microM VRP, chloramphenicol acetyltransferase activity was decreased by 2-fold. This study reports for the first time a down-regulation of mdr1 gene transcription by a pharmacological agent. These results provide further identification of the regulatory mechanisms involved in the overexpression of mdr1 in MDR cells and may help in the development of new strategies for MDR reversal.
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PMID:Evidence for transcriptional control of human mdr1 gene expression by verapamil in multidrug-resistant leukemic cells. 783 33

The bcl-2 gene becomes activated in many types of human cancers and contributes to neoplastic cell expansion, as well as to resistance to radiation and chemotherapy, by blocking programmed cell death or apoptosis. The expression of this proto-oncogene is regulated at both the transcriptional and post-transcriptional levels. DNA sequence comparisons of human, mouse, rat and chicken bcl-2 cDNAs revealed the presence of an open reading frame (ORF) [correction of (OFR)] located upstream of the normal coding region. Because upstream ORFs (uORFs) have been associated with translational repression, we analysed the functional significance of the 11 amino-acid uORF in the human BCL-2 gene (-119 to -84 bp). Deletion of this uORF from chloramphenicol acetyltransferase (CAT) reporter gene constructs that contained the bcl-2 promoter and entire 5'-untranslated region (5'-UTR), as well as introduction of an A-->T mutation at position -119 bp that destroyed the AUG-initiation codon, significantly increased CAT activity in HeLa, CEM, and other cell lines, without producing a corresponding elevation in CAT mRNA levels. Positioning this uORF, together with its accompanying Kozak sequences, between a heterologous promoter from SV40 and a CAT reporter gene resulted in marked inhibition of CAT protein production without a decrease in CAT mRNA. Mutation of the start codon (ATG-->TTG) of this uORF completely abolished its inhibitory activity, consistent with a translational mechanism. Taken together, these findings suggest that the uORF located within the 5'UTR of the bcl-2 gene is necessary and sufficient for translational regulation of bcl-2 gene expression.
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PMID:A cis-acting element in the BCL-2 gene controls expression through translational mechanisms. 864 41

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