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)

We examined the expressions of both c-myc and MDR1 in four samples isolated from a CML-bc patient in series during the clinical course. A 46-year-old man was diagnosed as chronic phase of CML in june 1985. In February 1987, the diagnosis of blastic transformation was made because of marked increase of blastic cells. He was initially treated with vincristine (V) and prednisolone (P) successfully. However, the effect of VP therapy was gradually attenuated, so that combined chemotherapies including anthracyclines were started. After the treatments of several courses, tumor cells acquired the refractory to both vincristine and adriamycin . He died in January, 1988. Northern blot hybridization studies revealed no expression of MDR1 mRNAs. However, the expression of c-myc was increased in the latest sample. These findings suggest that the expression of c-myc mRNA in tumor cells of this case reflects one characteristic of clinically refractory states to chemotherapies.
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PMID:[The changes of mRNAs of both c-myc and MDR1 in CML-bc tumor cells during the clinical course: a case report]. 279 83

We have determined the prevalence of amplification and rearrangements for c-myc, c-myb, c-mos, bcr, c-abl, c-Ha-ras-1, c-N-ras, and c-K-ras-2 in a total of 51 cases of human leukaemia (19 patients with AML, 13 cases with CML, 14 cases with ALL, and 5 cases with CLL). Amplifications at a level of more than 2 two copies per haploid genome are apparently very rare and were found only once for c-myb in a c-ALL patient. Oncogene rearrangements were not found except for bcr, which was rearranged in all cases of CML, and 5 cases of ALL studied. Restriction fragment lengths polymorphisms (RFLPs) were also analysed. A previously described rare 5 kb EcoRI allele at the c-mos locus was absent in our patients. Rare alleles at the c-Ha-ras-1 locus were found to be significantly more prevalent in our patients than in a control group. Transfection experiments revealed no dominant transforming oncogenes in the tumour DNA of 3 patients carrying such rare alleles.
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PMID:Oncogene amplifications, rearrangements, and restriction fragment length polymorphisms in human leukaemia. 288 56

The methylation state of CCGG sites in and around the human ornithine decarboxylase gene, oncogenes c-myc and erb-A1, and actin genes were determined in human malignant leucocytes from patients with acute and chronic myeloid leukemia, chronic lymphatic leukemia, polycythemia vera, and multiple myeloma by means of isoschizomeric restriction endonuclease analysis. When compared with DNA from leucocytes of healthy controls, the ornithine decarboxylase and erb-A1 genes were substantially hypomethylated in all samples obtained from patients with chronic lymphatic leukemia. Hypomethylation of genes, particularly growth-related sequences, might be a crucial fact in the malignant transformation of human leucocytes. Its relatively simple detection from blood samples may prove clinically applicable in monitoring patients with chronic lymphatic leukemia.
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PMID:Hypomethylation of ornithine decarboxylase gene and erb-A1 oncogene in human chronic lymphatic leukemia. 290 92

We describe here a patient with Ph'-positive chronic myelogenous leukemia (CML) who developed a Ph'-negative blastic crisis. The blast DNA was analyzed on two different occasions, at the beginning of the blastic phase and at the end, shortly before the patient's death. Although cells from both samples had no Ph' chromosome marker (not even a masked one) we could detect a rearrangement of the bcr gene in the second DNA sample, using a '3'-bcr' probe. The same probe and a '5'-bcr' probe failed to detect any rearranged band in the first DNA sample. No rearrangement was identified at the c-myc and N-ras loci, while a slight c-myc amplification was evident in both DNA samples tested.
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PMID:Molecular analysis of the bcr rearrangement in a case of Ph'-negative blastic crisis of Ph'-positive chronic myelogenous leukemia. 291 93

To examine whether determination of (1) the copynumber or restriction pattern of certain oncogenes or (2) the mutational activation of the N-ras gene might contribute to the risk classification of acute lymphoblastic leukemia of childhood (ALL), we investigated DNA isolated from lymphoblasts of untreated patients. Restriction enzyme analysis of cellular oncogenes was performed on DNA of 25 patients. No rearrangements could be demonstrated within or near the genes c-myc, c-myb, c-abl, bcr, c-Ki-ras, and N-ras. No amplifications of these genes nor of N-myc or c-Ha-ras were present. Eight of 21 patients were heterozygote for "rare" Ha-ras allelic restriction fragments that have been associated with an increased risk of developing a malignancy. These patients were clinically indistinguishable from patients lacking these fragments. The breakpoint cluster region (bcr) that is rearranged in all patients with Philadelphia chromosome positive chronic myeloid leukemia, was normal in all cases, including at least one patient with Philadelphia chromosome positive ALL. A 2.8 kb HindIII fragment of a hitherto unknown gene or pseudogene related to v-myb probably derives from the Y chromosome. Nineteen patients were examined for point mutations in the N-ras gene, using a novel synthetic oligonucleotide hybridization assay. In two patients activating point mutations were present, both in positions 1 of the 12th codon. Both patients were somewhat older than the others (16 and 11 years), had L2 morphology, and were shown to have high growth fractions of tumor in their bone marrow.
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PMID:Absence of oncogene amplifications and occasional activation of N-ras in lymphoblastic leukemia of childhood. 301 Nov 51

K562 is a Philadelphia (Ph) chromosome-positive chronic myelogenous leukemia (CML) blast crisis cell line representing a pluripotent precursor cell. At the molecular level, K562 cells express high levels of the aberrant bcr-abl product, p210bcr-abl, believed to be critical to the pathogenesis of CML. The authors demonstrate that exposure of K562 cells to hemin causes a state of partial, reversible erythroid maturation, accompanied by a marked decrease in p210bcr-abl. The change in bcr-abl expression may be mediated at the translational level since steady state amounts and enzymatic activity of the bcr-abl protein are reduced whereas bcr-abl mRNA levels are unaltered. The decrease in p210bcr-abl phosphokinase enzymatic activity can be detected within 2 hours after addition of hemin to the culture media, indicating that changes in expression of this oncogene probably occur before or concurrent with differentiation. No change in bcr-abl protein occurred in a CML cell line (KBM-5) which did not undergo differentiation after exposure to hemin, consistent with a direct relationship between altered p210bcr-abl expression and hemin-induced erythroid differentiation. Importantly, the marked diminution in bcr-abl protein was not associated with a disruption in K562 growth rates, indicating that the proliferative capacity of these cells may be independent of the bcr-abl product. In contrast to hemin, cytosine arabinoside (Ara-C) caused terminal erythroid differentiation of K562 cells, characterized by irreversible hemoglobin accumulation and cytostasis; and no change in bcr-abl protein expression was observed. The distinct effects of Ara-C and hemin could reflect the existence of pleiotropic differentiation pathways. Both Ara-C and hemin-exposed cells showed a decrease in c-myc and c-myb transcripts, suggesting that altered levels of these proto-oncogenes may be associated with erythroid maturation, regardless of the rate of cell division. K562 cells provide a useful model for analyzing the interaction between oncogene expression and CML cell growth and differentiation.
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PMID:Effect of differentiation-inducing agents on oncogene expression in a chronic myelogenous leukemia cell line. 304 74

The expression of c-abl, c-sis, c-myc and N-ras oncogenes was examined in 2 lymphoblastoid cell lines, one with Ph1 (PB-1049) and the other without Ph1 (LN-1049), both established from a patient with chronic myelogenous leukemia (CML), and in a Ph1-positive cell line (PB-1049-T) derived from a tumor formed after transplantation of PB-1049 cells in a nude mouse with reference to their tumorigenic potential in nude mice. The normal transcripts of c-abl were detected in all 3 lymphoblastoid cell lines. Although in situ hybridization of v-abl proved, and restriction endonuclease analyses of the bcr region strongly indicated the occurrence of bcr-abl rearrangement in PB-1049 and PB-1049-T, we could not obtain any evidence for the expression of the hybrid bcr-abl mRNA. These results indicate that the Ph1 translocation does not ensure the production of the hybrid bcr-abl mRNA, and that the expression of hybrid bcr-abl gene is not essential for the maintenance of tumorigenicity of these cell lines. Expression of c-sis was not detected in any of the cell lines examined, whereas the expression of c-myc was uniformly higher in the 3 cell lines than in normal control cells. The levels of N-ras expression varied considerably, probably in parallel with the changes in tumorigenicity of the cell lines. N-ras expression in the PB-1049 and PB-1049-T cell lines was higher than that in the LN-1049 line when they retained tumorigenic potential, but it fell to the level of LN-1049 with loss or decline of tumorigenicity.
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PMID:Absence of the hybrid bcr-abl mRNA in Ph1-positive B lymphoblastoid cell lines established from a patient with chronic myelogenous leukemia. 312 21

The expression of the proto-oncogene c-myc was studied at the protein level in cells obtained from patients with AML and CML. In florid AML and during the blastic phase of CML the majority of cells contain c-myc protein with the amount of protein differing widely among the cells of individual patients. In contrast, during complete remission in AML and during the chronic phase of CML cells containing c-myc protein are rare. Several studies demonstrated a discordance in the amount of c-myc transcript and the amount of c-myc protein present in cell populations thereby suggesting the presence of translational or post-translational regulation of c-myc expression. Further, the data suggest that high levels of c-myc protein in the leukemic cells of AML patients are associated with a poor response to therapy and that high levels in AML patients in CR or in the peripheral blood of chronic phase CML patients may be indicative of impending acute leukemia.
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PMID:Assessment of c-myc expression in individual leukemic cells. 316 87

It is clear that there are at least two classes of cancer-related genes. The more characterized of these are the oncogenes, whose activation appears to play a major role in human neoplasia. There are now two families of oncogenes, the myc and ras families, whose cooperation seems capable of transforming normal cells in culture to tumorigenic cells. As such, they appear to form complementation groups with immortalizing and transforming properties, respectively. Moreover, the oncogenes can be subclassified as tyrosine kinases or kinase related, GTP binding proteins, growth factors or growth factor receptors or nuclear proteins. More than 20 viral oncogenes have been identified, for which more than 30 proto-oncogenes or pseudogenes exist in the human genome. Many of these have been cloned, characterized to some extent, and mapped to particular chromosomes or regions of chromosomes. Further, more than 20 additional putative oncogenes or transforming genes have been identified by tumor DNA transfection studies or at sites of integration or translocation for which no viral transforming gene cognates exist. Oncogenes can be activated by increased or unregulated expression, increased copy number (duplication, amplification), or somatic mutation resulting in a protein with increased oncogenic potential. Examples of all of these mechanisms can be found in several specific human cancers or leukemias. The cytogenetic correlate of enhanced expression is a translocation between two chromosomes at specific breakpoints with no net loss of genetic material (e.g., increased c-myc expression resulting from the 8;14 translocation in Burkitt's lymphoma). The phenomenon of increased gene copy number can sometimes be visualized as trisomy or tetrasomy for a particular chromosome but more dramatically as the development of extrachromosomal DMs or as chromosomally integrated HSRs (e.g., the N-myc gene amplification seen in neuroblastoma). Finally, certain somatic mutations can be associated with translocations (e.g., the bcr/abl fusion product created as a result of the 9;22 translocation in chronic myelogenous leukemia), but they are more commonly submicroscopic (as characterized by point mutations in the ras gene family). Evidence is accumulating for a second class of cancer-related genes whose absence or inactivation is associated with tumorigenesis. These genes are associated at the cytogenetic level with chromosomal deletions, in which the breakpoints may be variable, but specific, common regions are consistently deleted.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The involvement of oncogenes and suppressor genes in human neoplasia. 331 93

Nonrandom patterns of chromosome abnormality in tumors are providing clues to the location of oncogenes and their activation mechanisms. Studies of translocations in Burkitt's lymphoma cells have shown that the c-myc proto-oncogene is consistently juxtaposed with a rearranged and transcriptionally active immunoglobulin gene locus, with resultant myc gene deregulation. In other B cell tumors, translocations appear to bring previously unrecognized oncogenes (bcl-1, bcl-2) into similar association with the immunoglobulin heavy-chain locus. T cell receptor genes may also "activate" known and unknown oncogenes after chromosome translocation. In chronic myelogenous leukemia, the translocated c-abl oncogene forms a "hybrid" gene in its new location on the Philadelphia chromosome, with altered function. Gene amplification units, seen as cytogenetically homogeneous staining regions in chromosomes or as double-minute bodies in metaphases, can represent multiple copies of oncogenes and be important in late stages of tumor progression. Other significant alterations in gene dosage, recognized as gain or loss of all or part of a specific chromosome, also occur in human neoplasms, but their specific role in carcinogenesis is largely undefined.
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PMID:Chromosomal approaches to the molecular basis of neoplasia. 332 6

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