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)

The selective and conspicuous absence of a novel receptor-Ck (having affinity for cholesterol moiety in lipoproteins and intrinsic tyrosine kinase activity) in various leukemic cell lines/patients, prompted us to explore the nature of interrelationship between receptor-Ck deficiency and over-expression of genes coding for bcl-2, cyclin 'D', chimeric bcr-abl, c-myc and LDL-receptor in the human promyelocytic leukemic cell line (HL-60). This study revealed unambiguously that deregulated expression of these genes is primarily due to the inability of these cells to express the receptor-Ck gene. Based upon the observations we propose that 'receptor-Ck' deficiency may be responsible for the initiation of chronic myeloid leukemia.
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PMID:Receptor-Ck-dependent regulation of genes in HL-60 cell line. 944 38

Expression of nine oncogenes was investigated in cell samples from fifteen patients with Philadelphia chromosome (Ph)-positive chronic granulocytic leukemia (CGL) both at diagnosis and at the onset of accelerated phase (AP) of the disease. The bcr-abl fusion gene, the H-ras gene and the c-myb gene were universally expressed. In comparison with the chronic phase (CP) of the disease, an increase in the levels of bcr-abl-, c-myb- and H-ras-related transcripts was found in three, two and three AP samples, respectively. Elevation of the bcr-abl-related message was associated with duplication of the Ph chromosome and amplification of the bcr-abl fusion gene in one AP sample. No CP samples were positive for c-myc or c-sis expression. On the contrary, c-myc and c-sis were expressed in three and four AP samples, respectively. The presence of c-myc-related transcript was associated with trisomy 8 with or without amplification of the c-myc oncogene in leukemia cells of two patients with CGL in AP. No changes of oncogene expression were found in four AP samples. However, we observed deletions of chromosome 13 and 17 or i(17q) in three of them, suggesting that tumor suppressor gene alterations may also be responsible for the development of AP of CGL. Our data indicate that heterogeneous alterations in oncogenes and tumor suppressor genes accompany the evolution of CGL-CP to the AP of the disease.
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PMID:Changes in oncogene expression implicated in evolution of chronic granulocytic leukemia from its chronic phase to acceleration. 971 61

During the course of a study aimed at improving antisense oligodeoxynucleotide-mediated ex vivo bone marrow purging of patients suffering from chronic myeloid leukemia (CML), the properties of a number of antisense structures intended to reduce the expression of c-myc, mutant p53, and bcr-abl mRNAs and proteins were examined. The majority of the antisense oligodeoxynucleotides were designed to be capable of directing ribonuclease H (RNase H) cleavage of their target mRNAs. Streptolysin O (SLO) reversible permeabilization was used to deliver the oligodeoxynucleotides into the CML line KYO-1. We found that the efficiency and specificity of antisense oligonucleotide-induced reductions of target protein expression depended on target protein half-life, the oligonucleotide structure, and the specific sequence within the target mRNA. Transient reductions of c-myc mRNA and protein were achieved with a chimeric methylphosphonate-phosphodiester oligodeoxynucleotide antisense to the initiation codon, but cell proliferation was unaffected. In contrast, a chimeric oligodeoxynucleotide of similar structure targeted to an alternative site in the coding region of c-myc mRNA reduced target mRNA and protein levels for over 24 hours and halted cell proliferation. Chimeric methylphosphonate-phosphodiester oligodeoxynucleotide antisense to a point mutation in KYO-1 p53 mRNA efficiently reduced target mRNA expression, but only small, transient reductions in p53 protein expression were observed. However, a chimeric methylphosphonate-phosphorothioate oligodeoxynucleotide targeted to the same site reduced p53 protein to 30% of control levels over a 48-hour period. BCR-ABL protein expression was unaffected by chimeric oligodeoxynucleotides targeted to the breakpoint in bcr-abl mRNA, even when mRNA levels at early times were substantially reduced.
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PMID:The influence of target protein half-life on the effectiveness of antisense oligonucleotide analog-mediated biologic responses. 974 66

The biological progression of chronic myeloid leukaemia is often associated with secondary cytogenetic abnormalities but the molecular mechanisms underlying this progression are poorly understood. This study explores the association of c-myc gene amplification with the progression of chronic myeloid leukaemia in fourteen individuals. Three of these cases showed amplification of c-myc during the course of their disease. Cytogenetic and molecular analysis of serial samples from some patients suggested the successive expansion of distinct clones of malignant cells. Our findings also suggest that trisomy 8 and locus amplification could represent alternative mechanisms for increasing c-myc gene dosage.
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PMID:c-myc locus amplification and the acquisition of trisomy 8 in the evolution of chronic myeloid leukaemia. 976 50

Therapeutic strategies for leukemia are directed to induction of differentiation and apoptosis as well as growth inhibition. One of the key antileukemic agents, 1-beta-D-arabinofuranosylcytosine (ara C), is clinically applied according to these therapeutic aims. However, the molecular effects of 0.1 microg/ml of ara C, a concentration that corresponds to the serum level in leukemic patients on a conventional dose of ara C, have not been well disclosed. Here, we addressed these issues using K562 cells which derived from a blastic crisis of chronic myeloid leukemia. DNA synthesis of treated cells was suppressed from 1-6 h. But, it recovered at 12 h and no further inhibition was observed. The number of cells was not decreased but DNA fragmentation was observed at 72 h. The number of erythroid-differentiated cells also increased to 30% at 72 h. Along with treatment, no marked alteration of mRNAs for cell cycle-regulating genes was found and the retinoblastoma gene product remained hyperphosphorylated throughout treatment. The expression of mRNAs for apoptosis-regulating genes also remained unchanged, except for slight down-regulation of Bax. c-myc protein was not found later than 48 h, and Max mRNA was downregulated. c-jun was immediately induced, followed by the fluctuated expression level along with treatment. These findings suggest that the 0.1 microg/ml ara C changed the proliferation, differentiation and death of K562 cells in a biphasic manner. In the early phase, DNA synthesis was inhibited without altering the expression of cell cycle regulating-genes. In the latter phase, cell death and erythroid- differentiation occurred in accordance with the down-regulation of c-myc.
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PMID:Biological effects of a relatively low concentration of 1-beta-D-arabinofuranosylcytosine in K562 cells: alterations of the cell cycle, erythroid-differentiation, and apoptosis. 978 59

A 28-mer morpholino oligonucleotide analog was designed to hybridize to 8 bases of intron 1 and extend 2 bases beyond the translation initiation codon in exon 2 of the unspliced c-myc RNA transcript. Delivery of this compound into human chronic myeloid leukemia KYO1 cells, by streptolysin O permeabilization, resulted in almost total ablation of the 65 kDa c-MYC protein expression for at least 24 hours after treatment. An unexpected band with SDS-PAGE electrophoretic mobility indicating a protein of about 47 kDa was apparent on the 24-hour western blots that were developed using antibodies that recognize MYC protein C terminal epitopes. No inhibition of the approximately 2400 nt c-myc mRNA expression was observed by northern hybridization, a result of the inability of morpholino analogs to direct the activity of ribonuclease H. In fact, high molecular weight c-myc RNA species were found to have accumulated in antisense-treated KYO1 cells. Control sense and scrambled antisense morpholino analogs did not inhibit MYC protein expression or induce the appearance of the anomalous RNA and protein bands. Molecular analyses by RT-PCR and sequencing revealed that the morpholino antisense effector had (1) inhibited splicing of the c-myc pre-mRNA, (2) induced missplicing of the pre-mRNA, and (3) inhibited translation of normal spliced c-myc mRNA. Identical results were obtained with acute promyelocytic leukemia, acute lymphoblastic leukemia, and histiocytic lymphoma cell lines.
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PMID:Antisense morpholino oligonucleotide analog induces missplicing of C-myc mRNA. 1035 27

Inosine 5 -monophosphate dehydrogenase (IMPDH) is a rate-limiting enzyme for the synthesis of GTP and dGTP. Two isoforms of IMPDH have been identified. IMPDH Type I is ubiquitous and predominantly present in normal cells, whereas IMPDH Type II is predominant in malignant cells. IMPDH plays an important role in the expression of cellular genes, such as p53, c-myc and Ki-ras. IMPDH activity is transformation and progression linked in cancer cells. IMPDH inhibitors, tiazofurin, selenazofurin, and benzamide riboside share similar mechanism of action and are metabolized to their respective NAD analogues to exert antitumor activity. Tiazofurin exhibits clinical responses in patients with acute myeloid leukemia and chronic myeloid leukemia in blast crisis. These responses relate to the level of the NAD analogue formed in the leukemic cells. Resistance to tiazofurin and related IMPDH inhibitors relate mainly to a decrease in NMN adenylyltransferase activity. IMPDH inhbitors induce apoptosis. IMPDH inhitors are valuable probes for examining biochemical functions of GTP as they selectively reduce guanylate concentration. Incomplete depletion of cellular GTP level seems to down-regulate G-protein function, thereby inhibit cell growth or induce apoptosis. Inosine 5'-monophosphate dehydrogenase (IMPDH, EC 1.1.1.205) catalyzes the dehydrogenation of IMP to XMP utilizing NAD as the proton acceptor. Studies have demonstrated that IMPDH is a rate-limiting step in the de novo synthesis of guanylates, including GTP and dGTP. The importance of IMPDH is central because dGTP is required for the DNA synthesis and GTP plays a major role not only for the cellular activity but also for cellular regulation. Two isoforms of IMPDH have been demonstrated. IMPDH Type I is ubiquitous and predominately present in normal cells, whereas the IMPDH Type II enzyme is predominant in malignant cells. Although guanylates could be salvaged from guanine by the enzyme hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8), the level of circulating guanine is low in dividing cells and this route is probably insufficient to satisfy the needs of guanylates in the cells.
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PMID:Consequences of IMP dehydrogenase inhibition, and its relationship to cancer and apoptosis. 1039 Jun 1

Alterations of onco/tumour suppressor genes are involved in the formation of human hematological malignancies. Previously, in animal models, we demonstrated the applicability of in vivo gene expression investigations to monitor the effects of certain carcinogenic chemicals. In our present study we determined the expression of onco/suppressor genes from isolated peripheral white blood cells of patients with chronic myeloid leukaemia (CLL) and non-Hodgkin lymphoma (NHL). Gene expressions were determined by isolation of total RNA and slot blot hybridization with chemiluminescently labeled gene probes (Ha-ras, c-myc and p53) Expression levels were compared before and after treatment with a combined cytostatic protocol, containing cyclophosphamide, doxorubicin, vincristine and prednisolone (CHOP). Both the CLL and NHL group of patients exhibited significantly higher expression of the investigated genes than healthy controls. One month after the cytostatic treatment, we found considerably fewer individuals with overexpressed oncogenes than before the treatment. Our study proved that onco/tumour suppressor gene expressions could be used as biomarkers of certain hematological malignancies, and to monitor the therapeutical effect of cytostatic drugs.
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PMID:The usefulness of in vivo gene expression investigations from peripheral white blood cells: a preliminary study. 1049 9

abl and bcr genes play an important role in the diagnostics of chronic myelogenous leukemia (CML). The translocation of these genes results in an abnormal chromosome 22 called the Philadelphia chromosome (Ph). The chimeric bcr-abl gene is a fundamental phenomenon in the pathogenesis of CML. Malignant transformation of hematopoietic cells is also accompanied by the c-myc gene changes (translocation, amplification). Nuclear topology of the abl, bcr and c-myc genes was determined in differentiated as well as in irradiated HL-60 cells using dual-colour fluorescence in situ hybridisation and image analysis by means of a high resolution cytometer. After the induction of the granulocytic differentiation of HL-60 cells with all trans retinoic acid (ATRA) or dimethylsulfoxide (DMSO), the abl and bcr homologous genes were repositioned closer to the nuclear periphery and the average distances between homologous abl-abl and bcr-bcr genes as well as between heterologous abl-bcr genes were elongated as compared with untreated human leukemic promyelocytic HL-60 cells. Elongated gene-to-gene and centre-to-gene distances were also found for the c-myc gene during granulocytic differentiation. In the case of the monocytic maturation of HL-60 cells treated with phorbol esters (PMA), the abl and bcr homologous genes were repositioned closer to each other and closer to the nuclear centre. The position of the c-myc gene did not change significantly after the PMA stimulus. The proximity of the abl and bcr genes was also found after gamma irradiation using 60Co (5 Gy). Immediately after the gamma irradiation c-myc was repositioned closer to the nuclear centre, but 24 h after radiation exposure the c-myc position returned back to the pretreatment level. The c-myc gene topology after gamma irradiation (when the cells are blocked in G2 phase) was different from that detected in the G2 sorted control population. We suggest that changes in the abl, bcr and c-myc topology in the case of gamma irradiation are not the effects of the cell cycle. It is possible, that differences in the cell cycle of hematopoietic cells after the gamma irradiation and concurrent proximity of the abl, bcr and c-myc genes could be important from the point of view of contingent gene translocations, that are responsible for malignant transformation of cells.
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PMID:The influence of the cell cycle, differentiation and irradiation on the nuclear location of the abl, bcr and c-myc genes in human leukemic cells. 1073 5

Prior studies have shown that electroporation is a simple and effective method for the introduction of oligonucleotides (ODN) into cells. In ex vivo bone marrow purging models, electroporation of ODN into cells has been associated with selective killing of human neoplastic cells while sparing hematopoietic stem cells. Prior studies used conventional electroporation methods (i.e., exponential decay) to introduce ODN into cells. Square wave electroporation allows the delivery of a more defined and regulated electrical pulse and is associated with high transfection efficiencies in a variety of systems. The current study was undertaken to determine whether square wave electroporation was more effective than exponential decay electroporation for the delivery of ODN into hematopoietic cells. Using fluorescein-tagged ODN and K562, chronic myelogenous leukemia (CML) cells, higher transfection rates were observed after square wave electroporation. In addition, c-myc antisense ODN were more effective in reducing c-myc protein when introduced by square wave electroporation, as compared with introduction by exponential decay electroporation. Square wave electroporation is thus identified as the optimal method for delivering ODN into hematopoietic cells.
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PMID:Improved intracellular delivery of oligonucleotides by square wave electroporation. 1125 23

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