Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Premature termination of transcription is assumed to be an important mechanism of c-myc regulation. Induction of terminal differentiation in the promyelocytic leukemia cell line HL60 by dimethyl-sulfoxide (DMSO) is accompanied by a block of RNA elongation within the first exon of the c-myc gene. We have studied the 3'-structure of incompletely elongated transcripts in (i) nuclear RNA of induced and uninduced HL60 cells, (ii) nuclear run-on RNA, and (iii) RNA of in vitro transcribed c-myc constructs. Elongation of c-myc RNA stopped in all three transcriptional systems at similar sites distributed 150-350 bases downstream of the P2 promoter. When HL60 cells were induced to terminal differentiation the short c-myc exon 1 specific RNAs disappeared in nuclear RNA. This implied that RNA polymerase II (pol II) does not continue to transcribe c-myc exon 1 in induced HL60 cells as suggested by earlier nuclear run-on experiments. Therefore, kinetic experiments with small oligonucleotides as probes were performed to determine the start position of pol II on c-myc exon 1 in nuclear run-ons. The results demonstrate that all RNA polymerases are localized at the c-myc P2 promoter in DMSO-treated HL60 cells. Preparation of nuclei for run-on experiments induces a release of pol II from the c-myc P2 promoter leading to the strong nuclear run-on signal on c-myc exon 1. Thus, down-regulation of c-myc in differentiating HL60 cells occurs by retention of pol II at the transcription start site.
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PMID:Hold back of RNA polymerase II at the transcription start site mediates down-regulation of c-myc in vivo. 150 20

Mithramycin induces a reversible inhibition of cellular RNA synthesis without affecting DNA synthesis. The authors have shown this drug induces myeloid differentiation of HL-60 promyelocytic leukemia cells and is an effective agent in certain patients with chronic granulocytic leukemia. In order to investigate the mechanism by which this drug inhibits RNA synthesis we have compared the effect of mithramycin on RNA synthesis by whole cells, isolated nuclei, and RNA synthesis by isolated E. coli RNA polymerase and eukaryotic RNA polymerase II. Exposure of HL-60 cells to mithramycin at concentrations of 4.6 X 10(-7) m or higher for 48 hours causes an almost immediate inhibition of RNA synthesis (up to 85% at 4 hours) with only modest cytotoxicity at these concentrations. Endogenous RNA synthesis by isolated nuclei can be inhibited by mithramycin only at high concentrations (greater than 10(-5) m), suggesting that mithramycin primarily may inhibit initiation, rather than elongation. Mithramycin inhibits in vitro transcription of salmon sperm DNA by E. coli RNA polymerase at DNA:drug ratios similar to those required for RNA synthesis inhibition in whole cells. Similar DNA binding studies with synthetic oligonucleotides demonstrate that mithramycin is a potent inhibitor of transcription of Poly dG.dC by E. coli RNA polymerase but has no effect on transcription of Poly dA.dT. The rapid inhibition of whole cell and isolated RNA polymerase transcription, and the relative insensitivity of isolated nuclei, suggest mithramycin may interact with specific DNA sequences in order to inhibit the initiation of RNA synthesis in intact cells.
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PMID:Mithramycin selectively inhibits transcription of G-C containing DNA. 296 90

Partial amino acid sequence of human myeloperoxidase was determined, and a 41-base oligonucleotide containing deoxyinosines at four positions was chemically synthesized. By using the oligonucleotide as a probe, cDNA clones for human myeloperoxidase were isolated from a cDNA library constructed with mRNA from human promyelocytic leukemia HL-60 cells. One of the clones containing a 2.6-kilobase insert was subjected to nucleotide sequence analysis. The sequence was found to contain an open reading frame, 2,235 nucleotides coding for a protein of 745 amino acids with a calculated Mr of 83,868. The heavy chain of myeloperoxidase, consisting of 467 amino acids, was located on the COOH terminus half of the protein. The RNA specified by the cDNA was prepared using SP6 RNA polymerase and translated in rabbit reticulocyte lysates, and the product was identified as human myeloperoxidase by immunoprecipitation with rabbit anti-human myeloperoxidase antibody. By Northern hybridization analysis of RNA from leukemic cells, it was shown that myeloperoxidase mRNA is abundantly expressed in human promyelocytic HL-60 and mouse myeloid leukemia NFS-60 cells. Furthermore, the results of Southern hybridization analysis of human genomic DNA suggest that there are one or two genes for myeloperoxidase in the human haploid genome.
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PMID:Molecular cloning and characterization of cDNA for human myeloperoxidase. 302 27

An HL-60 in vitro transcription assay was developed and used to monitor HL-60 human promyelocytic leukemia cell transcription during calcitriol-induced monocytic differentiation. Treatment of cells with calcitriol (50 nM) for 96 h produced a 48% reduction in total DNA-dependent RNA polymerase activity with a corresponding reduction in alpha-amanitin-sensitive (RNA polymerase II) activity. Nuclei isolated from cells treated with the less efficacious vitamin D analogues, 24,25-dihydroxyvitamin D3, and 1 alpha-hydroxyvitamin D3, did not exhibit nuclear transcription that was significantly different from control nuclei. Transcription in nuclei isolated from calcitriol-treated cells was decreased by 40 to 50% concomitant with monocytic differentiation, as assayed by acquisition of nitroblue tetrazolium reducing activity. Maximal decrease in transcription was achieved by 45 h postinduction, whereas expression of nitroblue tetrazolium reducing activity peaked at approximately 70 h, and decreased DNA synthesis was evident by 48 h. These observations suggest that calcitriol induction of HL-60 differentiation results in monocytes with reduced requirements for gene transcription and that transcription changes accompany expression of nitroblue tetrazolium reducing activity.
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PMID:Effects of calcitriol on nuclear transcription during human HL-60 promyelocytic leukemia cell differentiation. 346 8

We previously isolated the human homeobox gene HOX4A (HOXD3) on chromosome 2 from a human genomic library and determined its nucleotide sequence. In the present study, expression of the HOX4A gene was investigated in human hematopoietic cell lines. Reverse transcriptase-mediated polymerase chain reaction analysis showed that the HOX4A gene was expressed in erythroleukemia HEL and K562 cells but not in promyelocytic leukemia HL-60 cells. To study the role of the HOX4A gene in erythropoiesis, expression vectors containing the HOX4A gene in the sense or antisense orientation were introduced into HEL cells. The sense transfectants overexpressing the HOX4A gene formed aggregates, which were composed of densely associated cells adhering to tissue-culture dishes, whereas the parental HEL cells and antisense transfectants adhered poorly to the dishes. Furthermore, the sense transfectants overexpressing the HOX4A gene attached more efficiently to fibronectin and collagen than did the antisense transfectants and parental HEL cells. Northern blot analysis showed that integrin beta 3 mRNA levels were significantly increased in the HEL cells overexpressing the HOX4A gene, whereas the integrin beta 1 and alpha IIb mRNA levels did not show a distinct correlation with HOX4A mRNA levels. Fluorescence-activated cell sorting analysis showed that the sense transfectants overexpressing the HOX4A gene expressed increased levels of integrin alpha IIb beta 3 (GP IIb-IIIa) complex as compared with the parental HEL cells and antisense transfectants. These results implicate the homeobox gene HOX4A in the regulation of cell adhesion processes.
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PMID:Overexpression of the HOX4A (HOXD3) homeobox gene in human erythroleukemia HEL cells results in altered adhesive properties. 774 39

The WT1 gene encoding a zinc finger polypeptide is a tumor suppressor gene that plays a key role in the carcinogenesis of Wilms' tumor. Reverse transcriptase-polymerase chain reaction (RT-PCR) was used to examine relative levels of WT1 gene expression (defined in K562 cells as 1.00) in 45 patients with acute myelogenous leukemia (AML), 22 with acute lymphocytic leukemia (ALL), 6 with acute mixed lineage leukemia (AMLL), 23 with chronic myelogenous leukemia (CML), and 24 with non-Hodgkin's lymphoma. Significant levels of WT1 gene were expressed in all leukemia patients and for CML the levels increased as the clinical phase progressed. In striking contrast with acute leukemia, the levels of WT1 gene expression for NHL were significantly lower or even undetectable. Clear correlation was observed between the relative levels of WT1 gene expression (< 0.6 v > or = 0.6) and the prognosis for acute leukemia (AML, ALL, and AMLL). Patients with less than 0.6 levels had significantly higher rates of complete remission (CR), disease-free survival, and overall survival than those with > or = 0.6 levels, whereas CR could not be induced in any of the 7 patients with acute leukemia having greater than 1.0 levels of WT1 gene expression. The quantitation of the WT1 gene expression made it possible to detect minimal residual disease (MRD) in acute leukemia regardless of the presence or absence of tumor-specific DNA markers. Continuous monitoring of the WT1 mRNA was performed for 9 patients with acute leukemia. In 4 patients, MRD was detected 2 to 8 months before clinical relapse became apparent. In 2 other patients, the WT1 mRNA gradually increased after discontinuation of chemotherapy. No MRD was detected in the remaining 3 patients with AML who received intensive induction and consolidation therapy. Simultaneous monitoring of MRD by RT-PCR using primers for specific DNA markers in 3 patients (2 AML-M3 with PML/RAR alpha, and 1 AML-M2 with AML1/ETO) among these 9 patients detected MRD comparable with that obtained from quantitation of WT1 gene expression. In a patient with acute promyelocytic leukemia, the limits of leukemic cell detection by RT-PCR using either WT1 or promyelocytic leukemia/retinoic acid receptor-alpha gene primers were 10(-3) to 10(-4) and 10(-4) for bone marrow, and 10(-5) and 10(-4) for peripheral blood, respectively. Therefore, we conclude that WT1 is a new prognostic factor and a new marker for the detection of MRD in acute leukemia.
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PMID:WT1 as a new prognostic factor and a new marker for the detection of minimal residual disease in acute leukemia. 794 79

The EVI1 gene encodes a zinc-finger, DNA-binding protein originally described as the transforming gene associated with a common ecotropic viral insertion site in myeloid leukemias. Previous studies demonstrated EVI1 expression in human leukemias in cases with 3q26 translocations, but not in normal blood or bone marrow. These studies also suggested an association between EVI1 expression and chromosome 7 deletion (del). Because of this association, we examined expression of EVI1 using RNA polymerase chain reaction (PCR) in patients with myelodysplastic syndromes (MDS) and acute leukemia with and without 3q26 translocations. EVI1 RNA was expressed in 29% of 34 (95% confidence interval, 20% to 50%) patients with the MDS subtypes refractory anemia (RA), refractory anemia with excess blasts (RAEB), or refractory anemia with excess blasts in transformation (RAEB-T). The vast majority of these cases occurred in patients with RAEB and RAEB-T. EVI1 expression was not detected in patients with chronic myelomonocytic leukemia (CMML), normal bone marrow or cord blood, or a variety of other hematologic malignancies. EVI1 RNA was detected in three of 18 patients with acute myelogenous leukemia (AML) and in two of four patients with acute promyelocytic leukemia (APL). Karyotypes showed that only one AML patient had karyotype 3q26 abnormalities, indicating that EVI1 expression is associated with cases that do not have structural abnormalities involving chromosome 3q26. These studies document for the first time the abnormal expression of EVI1 RNA by patients with MDS, and suggest an important role for EVI1 in the pathogenesis or progression of some myeloid malignancies.
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PMID:Expression of EVI1 in myelodysplastic syndromes and other hematologic malignancies without 3q26 translocations. 804 40

The translocation t(15;17)(q22;q21) is seen exclusively in patients with acute promyelocytic leukemia (APL) and in the promyelocytic blast crisis of chronic myeloid leukemia (CML). This translocation juxta-poses the promyelocytic leukemia (PML) gene on chromosome 15 and the retinoic acid receptor-alpha (RARA) gene on chromosome 17, resulting in the formation of a chimeric mRNA transcript. We describe a patient with the microgranular variant form of APL, with no detectable cytogenetic abnormality of either chromosomes 15 or 17, who nevertheless had juxtaposition of PML and RARA genes and expressed a chimeric transcript. Conventional cytogenetics showed the karyotype 46,XY,d-er(3)t(3;8)(p25;q12). Fluorescent in situ hybridization (FISH) with paints for chromosomes 8, 15, and 17 confirmed the presence of structurally intact chromosomes 15 and 17 and trisomy for chromosome 8q. Nevertheless, FISH using cosmid probes for PML and RARA showed their juxtaposition on one chromosome 15 homolog. Both genes were also present on their normal homologs; in addition, part of the RARA gene was still present on the remaining chromosome 17. DNA analysis by Southern blotting, performed with a variety of probes including PML, RARA and retinoic acid receptor-beta (RARB), showed a rearrangement in PML. Reverse transcriptase polymerase chain reaction (RT-PCR) confirmed the existence of hybrid transcripts of 276, 455 bp and 623 bp, from PML-RARA on the der(15) chromosome, consistent with alternate exon splicing of the long form of the transcript occurring in 50% to 60% of patients with APL. Our results show that APL patients with cytogenetically normal chromosomes 15 and 17 may, nevertheless, have involvement of both PML and RARA genes defining a subgroup of APL, t(15;17)-negative/PML-RARA-positive which is analogous to Philadelphia chromosome-negative/BCR-ABL-positive CML. In this case, the presence of chimeric transcripts suggests that treatment with all-trans RA may be warranted in APL, even in the absence of detectable cytogenetic change, showing the usefulness of RT-PCR or FISH to aid diagnosis.
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PMID:Interstitial insertion of retinoic acid receptor-alpha gene in acute promyelocytic leukemia with normal chromosomes 15 and 17. 818 Mar 90

Reverse transcriptase-polymerase chain reaction is a recent technique in the diagnosis and assessment of minimal residual disease of acute promyelocytic leukemia, by amplification, of the different PML-RARalpha transcripts resulting from the t(15;17) translocation. The main issues addressed by the Second Workshop on PML-RARalpha-RT-PCR which took place in Paris, France on 17-18 December 1994, were related to (1) defining the specific pitfalls of the PML-RARalpha-RT-PCR, and means to improve the sensitivity of the technique; (2) the validity of PCR results obtained in CR to provide information on the extent of the disease; (3) the frequency and prognostic value of the different PML-RARalpha transcripts.
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PMID:RT-PCR in acute promyelocytic leukemia: second workshop of the European Retinoic Group, Paris, France, 17-18 December 1994. 863 50

We describe here a 39-year-old male with acute promyelocytic leukemia (APL) carrying a new complex translocation (15;20;17). A chromosomal analysis of the bone marrow cells showed 46, XY, t(15;20;17)(q22;p13;q21). Fluorescence in situ hybridization (FISH) analysis using plasmid DNA libraries of chromosomes 15, 17, and 20 revealed three derivative chromosomes, der(15)t(15;17), der(17)t(17;20), and der(20)t(15;20). Fluorescence in situ hybridization with cosmid DNA probes flanking the breakpoints of t(15;17) did not show the retinoic acid receptor alpha (RAR alpha)/PML fusion signal usually generated on the der(17)t(15;17). However, rearrangement of the RAR alpha gene and expression of the PML/RAR alpha chimeric transcript were identified by Southern blot and reverse-transcriptase polymerase chain reaction (RT-PCR) analyses, respectively. Our results confirmed that the PML/RAR alpha gene on the der(15)t(15;17), not the RAR alpha/PML gene, must be essential to leukemogenesis in APL. Furthermore, considering another reported case with a 20p13 aberration, it is possible that 20p13 is a nonrandom breakpoint in APL with a complex translocation.
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PMID:A new complex translocation (15;20;17)(q22;p13;q21) in acute promyelocytic leukemia. 949 8


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