UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three lambda transducing phages have been isolated from pEDR20, an R100::lambda cointegrate plasmid in which the lambda insertion inactivated the R100 finO gene. Physical analysis of the three phages showed that the lambda is inserted at kilobase coordinate 81.3 of R100. All three phages carry different amounts of R100 DNA in the left arm of lambda. Each pahge contains ISlb, the mer genes and the region between coordinate 81.3 and 88.6; thus, all contain the genes necessary for R100 replication. One phage, VA lambda 73, contains the entire r-determination of R100 in addition to the above DNA. Five proteins coded by the region between 81.3 and 88.6 were detected. These had subunit molecular weights of 10,400; 12,200; 16,200; 19,600; and 38,300. The first was made constitutively and the other four only from a lambda promoter. Other constitutive proteins were one from the cml fus region with a molecular weight of 22,400 (cml) and two from the str sul region with molecular weights of 31,500 (str?) and 30,100 (sul?). Mercuric ion induced synthesis of at least 10 proteins. Six of these were known from earlier work. The total size of the proteins which appear to derive from the mer genes exceeds by a factor of 1.5, the coding capacity of this region without overlapping genes. Some, or all of these extra proteins may be chromosomal in origin, possibly derepressed in response to mercury gene products.
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PMID:Lambda transducing phages derived from a FinO- R100::lambda cointegrate plasmid: proteins encoded by the R100 replication/incompatibility region and the antibiotic resistance determinant. 16 Apr 90

Single and tandem insertions of prophage lambda into R100 have been isolated. Insertions into the transfer genes, insertions into the transfer control gene finO, and insertions into regions that result in no detectable phenotypic change were found. From the last type, deletion mutants were isolated which established the sequence of antibiotic resistance genes as tet-cml-fus-str-sul-mer in R100. High frequency transducing phage preparations lambdamer, lambdasul str, and lambdasul str cml were also isolated from this type.
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PMID:Plasmid co-integrates of prophage lambda and R factor R100. 77 Apr 21

Philadelphia-chromosome positive chronic myeloid leukemia cells in chronic phase (CML-CP) or blast crisis (CML-BC) and normal bone marrow cells (NBMC) were incubated in vitro with antisense oligonucleotide specific against the BCR/ABL breakpoint junction to examine the possibility of selective inhibition of leukemia growth. Growth capability was determined in vitro by colony assay in semisolid medium in the presence of interleukin 3 (IL-3) and granulocyte-macrophage colony stimulating factor (GM-CSF). The 18-mer antisense directed against the specific BCR/ABL mRNA breakpoint region diminished the colony formation by CML-CP and CML-BC cells, but not by NBMC. Scrambled oligomer did not affect significantly the growth of leukemic and normal cells. If CML-BC cells were mixed with NMBC and incubated with specific BCR/ABL antisense oligomer, leukemic colonies were selectively inhibited, as was shown by reverse, transcriptase-polymerase chain reaction (RT-PCR) performed to detect BCR/ABL mRNA in single colonies. These results confirm the possibility of selective inhibition of leukemia cells by antisense treatment.
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PMID:Gene-targeted specific inhibition of chronic myeloid leukemia cell growth by BCR-ABL antisense oligodeoxynucleotides. 179 39

To determine the role of the BCR-ABL gene in the proliferation of blast cells of patients with chronic myelogenous leukemia, leukemia blast cells were exposed to synthetic 18-mer oligodeoxynucleotides complementary to two identified BCR-ABL junctions. Leukemia colony formation was suppressed, whereas granulocyte-macrophage colony formation from normal marrow progenitors was unaffected. When equal proportions of normal marrow progenitors and blast cells were mixed, exposed to the oligodeoxynucleotides, and assayed for residual colony formation, the majority of residual cells were normal. These findings demonstrate the requirement for a functional BCR-ABL gene in maintaining the leukemic phenotype and the feasibility of gene-targeted selective killing of neoplastic cells.
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PMID:Selective inhibition of leukemia cell proliferation by BCR-ABL antisense oligodeoxynucleotides. 185 87

The usefulness of optimized and newly elaborated histochemical methods for proteinases is illustrated on two selected substances. DAP IV (Gly-Pro-MNA,FBB,pH 7.2) was discovered in 39% and DAP II (Lys-Ala-MNA,FBB,pH 5.5) in 60% of the lymphocytes of human peripheral blood (ly). The reaction product of such ly differs in quality and quantity. On the ultrastructural level, the reaction product of DAP IV (Gly-Pro-MNA,HNF) was found in cell membranes and lysosomes. Enzyme activity in other areas was probably suppressed during the preparation procedure. Although the number of ly revealed with Lys-Pro-MNA and Phe-Pro-MNA at pH 5.5 and with Lys-Pro-MNA at pH 7.2 is high, these substrates do not distinctly discriminate DAP IV and DAP II. DAP IV occurs exclusively in T lymphocytes. The number of DAP IV-positive ly was not decreased in patients with myelofibrosis, plasmacytoma, chronic granulocytic leukemia, or tricholeukemia. It was, however, greatly reduced in chronic lymphatic leukemia (CLL). In patients with malignant lymphomas other than CLL, ly presence is related to the stage of the disease. Decreased values indicate a more severe stage or a relapse. In the majority of patients with gastric cancer DAP IV-positive ly were decreased. They were normal or increased in patients with peptic ulcer. The assessment of the number of DAP IV-positive ly is a simple method that provides information regarding the condition of patients with malignant lymphomas and gastric carcinoma. Neutrophilic leukocytes and their precursors, and to a lesser extent monocytes, are revealed when N-acetyl-Met-I-naphthyl ester (Ac-Met-N) is used as substrate. Membrane-bound lysosomal and cytosol proteinases were investigated together with disaccharidases in jejunal biopsies of patients with malabsorption syndrome. Activities of all enzymes were affected in patients with celiac disease. According to their impairment enzymes could be arranged: Lactase(L). trehalase (T), brush border endopeptidase (BBEP), gamma-glutamyl transferase (GGT), DAP IV, enzyme(s) cleaving Ac-Mer-N, aminopeptidase A, cytosol peptidases and aminopeptidase M. In the propria, DAP IV is decreased or absent, while GGT and, particularly, DAP II are increased. After a gluten-free diet, activities are restored in a reverse order. BBEP and GGT are useful as auxiliary parameters in the assessment of the damage or differentiation degree of enterocytes. DAP IV is a sensitive indicator of the involvement of the propria.
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PMID:Proteinases in pathology. Usefulness of histochemical methods. 701 84

We treated a patient with chronic myeloid leukaemia in accelerated phase with autologous bone marrow transplantation. Before reinfusion, cells were purged in vitro with a 26-mer phosphorothioate antisense oligodeoxynucleotide specific for the B2A2 junction. Incubation with antisense oligodeoxynucleotides produced a 24 and 41% reduction of CFU-GM and CD34+ cells, respectively. However, an in vitro test previously performed as a screening for patient inclusion in this procedure, revealed a 38 and 75% reduction of colony formation after 24-h and 168-h incubation, respectively. The patient showed bone marrow engraftment 15 days after reinfusion and haematological reconstitution after 17 and 25 days for platelets and neutrophils, respectively. Using fluorescence in situ hybridization in interphase nuclei, we demonstrated the presence of a proportion of Ph-negative cells in repeated controls after the autograft. The patient is now in unmaintained complete haematological remission 9 months after the autograft.
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PMID:In vitro purging with BCR-ABL antisense oligodeoxynucleotides does not prevent haematologic reconstitution after autologous bone marrow transplantation. 753 64

Mutations of the p53 tumour suppressor gene occur in 20% of chronic myeloid leukaemia (CML) patients in blastic crisis, but it is still uncertain whether this inactivation plays a role in the pathogenesis of blastic transformation or in maintaining the leukaemic proliferation in CML, as it does in several solid tumours. We have previously shown that more than 50% of both normal and CML CD34+ cells express the p53 protein. However, haemopoietic cells at different phases of the cell cycle express p53 with different conformations, suggesting that the function of p53 may be closely regulated during the cell cycle. In order to elucidate the mechanism by which p53 suppresses cell proliferation, we evaluated the effects of inhibiting p53 expression on cell cycle and cell kinetics of chronic phase CML (n = 12) and normal (n = 7) bone marrow light-density cells and purified CD34+ progenitors by using an 18-mer modified antisense oligonucleotide which targets the region covering the six base pairs immediately before the first codon and the first four coding codons of p53. We found that the number of cells positive for the cell cycle-specific nuclear antigen Ki67 and for the BrdU monoclonal antibody (McAb) was significantly increased after p53 antisense olignucleotide treatment. At the same time, p53 protein expression was completely abrogated in both light-density and CD34+ cells. In addition, DNA analysis by flow cytometry demonstrated that the number of cells in quiescent phases of the cell cycle (G0-G1) was significantly decreased after exposure of light-density cells to p53 antisense oligomers, whereas the number of cells in S or G2-M phases was increased. Furthermore, the longer the incubation time the higher the increase in cell proliferation. Treatment of CML, cells with p53 antisense oligomers also resulted in significantly increased numbers of CFU-GM colonies. Our data suggest that p53 is a negative regulator of cell proliferation and its action is mediated through changes in cell cycle kinetics, mainly before the S phase. We can further speculate that the loss of p53 function, at the time of blastic crisis of CML, may play a role, in combination with other genetic changes (p210 BCR/ABL, Rb gene abnormality, others to be defined), in inducing disturbances in cell proliferation, differentiation, and apoptosis.
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PMID:Modulation of cell kinetics and cell cycle status by treating CD34+ chronic myeloid leukaemia cells with p53 antisense phosphorothioate oligonucleotides. 778

When injected into SCID mice, the Philadelphia chromosome-positive chronic myeloid leukemia-blast crisis cell line BV173 induces a disease process closely resembling that seen in leukemia patients. At 1 and 3 weeks after injection of 10(6) BV173 cells, CD10+ cells were detected in the bone marrow of the mice, leukemic colonies grew from bone marrow and spleen cell suspensions, and BCR-ABL transcripts were detectable in bone marrow, spleen, peripheral blood, liver, and lungs. Systemic treatment of the leukemic mice with a 26-mer BCR-ABL antisense oligodeoxynucleotide (1 mg/day for 9 days) induced disappearance of CD10+ and clonogenic leukemic cells and a marked decrease in BCR-ABL mRNA in mouse tissues. Untreated mice or mice treated with a BCR-ABL sense oligodeoxynucleotide or a 6-base-mismatched antisense oligodeoxynucleotide oligodeoxynucleotide were dead 8-13 weeks after leukemia cell injection; in marked contrast, mice treated with BCR-ABL antisense oligodeoxynucleotide died of leukemia 18-23 weeks after injection of leukemic cells. These findings provide evidence for the in vivo effectiveness of an anticancer therapy based on antisense oligodeoxynucleotides targeting a tumor-specific gene.
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PMID:Suppression of Philadelphia1 leukemia cell growth in mice by BCR-ABL antisense oligodeoxynucleotide. 818 38

Chronic myeloid leukemia (CML) is a hematopoietic stem cell disorder characterized by the BCR-ABL hybrid gene. Two types of hybrid BCR-ABL mRNA have been found, B2A2 and B3A2. As the BCR-ABL rearrangement is specific to leukemic cells, selective inhibition of leukemic cell growth by BCR-ABL antisense oligonucleotides (ASO) has been reported in vitro for CML patients and cell lines. However, controversial results have been obtained from preclinical studies using anti-BCR-ABL ASO, as nonspecific inhibition of leukemic cell growth was evidenced in some cases. B3 exon secondary structure was deduced from its sequence and found to be a loop. According to this predictive structure of exon B3, a 56-mer antisense oligonucleotide targeting the polypurine bases from the B2A2 junction was devised which would inhibit proliferation (MTT assay) of B3A2 junction cell lines (K562 and a murine cell line Ba/F3 transfected with the B3A2 junctional sequence). This ASO had a hairpin-like secondary structure and was found to be much more resistant to the action of nucleases than control 18-mer standard oligonucleotides. Hybridization to its target mRNA occurs via formation of a triplex structure. A concentration of 5 microM of specific 56-mer B2A2 ASO was necessary to demonstrate 50% optical density (OD) reduction for K562 cell line and Ba/F3 transformed by B3A2 cDNA. Sense and non-sense 56-mer sequence or 18-mer linear ASO showed no effect for these concentrations. Western blot showed a partial inhibition of P210 protein; expression of P145abl remains unchanged. The 56-mer ASO also inhibited the proliferation of B2A2 junction cell line BV173 at the same concentration and showed no effect on the HL60 cell line used as control.
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PMID:Inhibition of chronic myelogenous leukemia cells harboring a BCR-ABL B3A2 junction by antisense oligonucleotides targeted at the B2A2 junction. 854 54

Antisense oligonucleotides were used to determine the role of the BCR-ABL gene in the proliferation of chronic myeloid leukaemia (CML) clonogenic cells. Peripheral blood Philadelphia chromosome positive cells were obtained from eight CML patients at diagnosis (chronic phase = 7; accelerated phase = 1). Mononuclear cells were incubated with synthetic antisense 18-mer oligonucleotides complementary to the two different junctions b2a2 or b3a2. The type of junction (b2a2 or b3a2) was previously determined by RT-PCR techniques. Cells incubated for 12 to 14 hours with or without sense oligonucleotides served as controls. After incubation with oligonucleotides, the cell DNA synthesis was analysed by flow cytometry using the BrdUrd/DNA method and the cell plating efficiency in methylcellulose was determined. In six of the seven patients in chronic phase, there was a significant inhibition of CFU-GM production which was only 68.4 +/- 19%; (p < .01) of that found in controls. The S phase index, which depends upon the percentage of S phase cells as well as the fluorescence intensity, was 48 +/- 29% (p < .01) of the control values for the seven patients in chronic phase. Interestingly, for the only CML patient in accelerated phase, antisense oligomers had no inhibitory effect on either the production of CFU-GM or the number of S phase cells. In improving the specificity of oligomers, it might be useful for gene-targeted anti-leukemic therapy and/or bone marrow purging.
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PMID:Specific antisense oligomer anti Bcr-abl junctions in chronic myeloid leukemia: a cell cycle analysis and CFU-GM study. 859 Aug 42

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