Gene/Protein Disease Symptom Drug Enzyme Compound
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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 first consistent karyotypic abnormality found to be associated with neoplastic disease was the Philadelphia (Ph) chromosome (Nowell & Hungerford, 1960). Furthermore, the best-studied example of translocation-mediated gene activation occurs in leukaemia patients bearing this abnormality (reviewed by Kurzrock et al, 1988). In these individuals, the Ph translocation (t(9;22)(q34;q11)) results in transposition of the ABL proto-oncogene from chromosome 9q34 to 22q11, where it is fused with part of the BCR gene. It is now known that as a result of the Ph translocation, p160BCR and p145ABL (the normal BCR and ABL gene products) are replaced by p210BCR-ABL. This aberrant protein constitutes the molecular fingerprint of CML. The enhanced tyrosine phosphokinase enzymatic activity (a property possessed by some growth factor receptors and transformation-inducing oncogenes) of p210BCR-ABL implicates a direct role for this molecule in the pathogenesis of CML. Because the Ph translocation is present in the early chronic phase, the union of the BCR and ABL genes is probably involved in the initiation of the leukaemic process. The secondary molecular forces driving progression of CML to blast crisis are however unknown, and may differ from patient to patient. Approximately 10% of CML patients lack a Ph chromosome. One-half of these individuals have bcr rearrangement and express p210BCR-ABL. Ph+ and Ph- bcr+ (p210+) CML are identical and should be treated the same. Molecular follow-up of diploid bcr+ CML patients is essential for detection of persistent malignancy after therapy. The presence of a specific marker--the BCR-ABL message--permits the development of new diagnostic approaches for CML. For instance, detection of a BCR-ABL message with the use of the highly sensitive polymerase chain reaction, a technique capable of detecting up to one leukaemia cell amongst one million normal cells, yields important information about minimal residual disease. Finally, the use of therapy directed against the BCR-ABL product may be a worthwhile strategy which deserves investigation, and may prompt a new era of tumour-specific treatment.
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PMID:The molecular pathology of chronic myelogenous leukaemia. 193 6

Expression of the 93-kd tyrosine kinase encoded by the human c-fes proto-oncogene (also known as FES) is restricted to mature hematopoietic cells of the granulocytic and monocytic lineages, suggestive of a function essential to normal myeloid differentiation. However, recent studies have shown that c-fes can transform fibroblasts if sufficient levels of gene expression are achieved. These findings indicate that strict regulation of the c-fes gene is critical to normal myeloid development, whereas elevated c-fes expression may contribute to malignant transformation. In the present study, we compared the c-fes messenger RNA (mRNA) levels in leukemia blasts from patients with myeloid or lymphoid leukemia with those of peripheral monocytes from a normal donor with the use of a quantitative ribonuclease protection assay. The presence of c-fes mRNA was readily detected in both acute myeloid leukemia (AML) and chronic myeloid leukemia (CML) cells, but c-fes mRNA was present in low levels or was absent in lymphoid leukemia cells. The leukemia cells of two of five AML patients and four of four CML patients expressed more c-fes mRNA than monocytes from a normal donor, with more than a threefold elevation in the cells of one CML patient. No evidence of amplification or rearrangement of the c-fes gene was detectable by Southern blot analysis of myeloid leukemia DNA, suggesting that the variation in c-fes mRNA levels are related to differences in transcriptional activity and/or message stability. These results indicate that elevated c-fes expression is a common feature of myeloid leukemia cells that could potentially contribute to the leukemia phenotype.
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PMID:Elevated expression of the c-fes proto-oncogene in adult human myeloid leukemia cells in the absence of gene amplification. 198 16

The Ph chromosome was the first specific karyotype abnormality associated with a particular neoplastic disease in humans. For many years it was suspected that chromosome abnormalities might cause cancer by alteration of specific genes or their expression. Significant recent developments in our understanding of the molecular consequences of the Ph translocation strengthen that assumption. The Ph translocation generates a hybrid gene consisting of 5' regulatory, promotor, and exon sequences of the bcr gene on chromosome 22 fused to 3' exons and polyadenylation/termination sequences of the ABL proto-oncogene from chromosome 9. It is well established that fusion of bcr and abl genes plays a crucial role in the pathogenesis of CML and ALL. Molecular methods can therefore be used as diagnostic tools to detect the Ph chromosome. Presently, the model of oncogenesis provided by our knowledge of how the abl proto-oncogene becomes activated as a result of the Ph translocation is one of the clearest models of oncogene activation. Despite the progress made, many areas remain to be explored. One important question is, how the hybrid protein is involved in leukemia. Research aimed at investigating the normal function of abl and bcr may be important in efforts to understand their abnormal functioning in leukemia and to increase our understanding of the disease.
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PMID:Molecular insights into the Philadelphia translocation. 205 Jun

Proto-dbl is a human proto-oncogene, whose oncogenic activation was initially detected by DNA transfection. We report significant sequence similarity between the predicted proto-dbl product and the products of CDC24, a Saccharomyces cerevisiae cell division cycle gene required for correct budding and establishment of cell polarity, and bcr, a gene implicated in the pathogenesis of chronic myelogenous leukemia (CML). Of 925 residues of the predicted proto-dbl protein, a stretch of 238 residues showed 29% and 22% identity over a region of similar length of the CDC24 and bcr proteins, respectively. When evolutionarily conservative substitutions were taken into account, the similarities were 68.8% and 71.6% for proto-dbl/CDC24 and proto-dbl/bcr gene products, respectively. Moreover, all three sequences were predicted to be markedly hydrophilic over this region. Very small deletions within the conserved region completely abolished transforming activity of dbl, while extensive deletion outside of this region had no effect. Even substitutions over a small stretch of close similarity with the other proteins substantially impaired transforming activity. Cells transformed by the dbl oncogene, like cdc24 mutants arrested at the nonpermissive temperature, form multinucleate cells. Thus, our findings indicate that the conserved region is an essential domain that may reflect important functional similarities among these otherwise highly divergent molecules.
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PMID:A region of proto-dbl essential for its transforming activity shows sequence similarity to a yeast cell cycle gene, CDC24, and the human breakpoint cluster gene, bcr. 206 22

The characteristic genetic exchange in chronic myeloid leukemia (CML) is the fusion of the ABL proto-oncogene and a specific part of the BCR or phl gene. Detection of this exchange by cytogenetic or Southern blot analysis is highly diagnostic for CML. The latter approach has not previously been used to quantify the relative proportions of leukemic and non-leukemic cells. We have assessed the feasibility of estimating the relative proportion of leukemic cells present in a sample by densitometric analysis of autoradiographs of Southern blots. In dilution experiments of CML cells with normal cells, a linear relationship could be demonstrated between the relative intensity of the autoradiograph band corresponding bcr rearrangement and the proportion of leukemic cells present. This relationship was found to be largely independent of autoradiograph exposure time. Six patients receiving various therapies have been evaluated for as long as 4.5 years by repeated densitometric and cytogenetic analysis. In general, a declining proportion of Philadelphia (Ph) chromosome positive cells was paralleled by decreasing intensity of the autoradiograph band representing bcr rearrangement. Densitometric changes were often seen prior to the detection of Ph negative cells. This analysis appears to provide a sensitive method for monitoring patients with CML.
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PMID:Densitometric analysis of Southern blot autoradiographs and its application to monitoring patients with chronic myeloid leukemia. 207 39

Comparisons of the level of proto-oncogene expression in neoplastic cells and in normal cells are being made to determine the role of these genes in neoplastic development. Recent papers have reported that leukemic cells differ from normal cells in having higher c-myc RNA levels. One problem in interpreting these data is that leukemic and normal cell populations differ in the proportion of immature cells present in each. The studies described here, using chronic phase chronic myelogenous leukemia (CML) cells, compared the level of proto-oncogene expression in immature and mature myeloid cells. Substantial differences in the level and pattern of expression were found with the immature cells containing higher c-myc RNA levels and the mature cells containing higher histone H3 RNA levels. c-fos RNA levels parallel the distribution of monocytes. While the c-myc RNA level in the CML cell population as a whole is similar to that in normal marrow cell populations and less than that in the bone marrow cells of patients with acute myelogenous leukemia (AML), c-myc RNA levels in subpopulations of immature chronic phase CML myeloid cells approximate that found in AML cells. Additionally, the studies described here suggest that the presence of high c-myc and c-fos RNA levels in light density immature cells may be a unique characteristic of acute myeloid leukemic cells.
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PMID:Differing patterns of proto-oncogene expression in immature and mature myeloid cells. 244 85

Point mutations within codon 12 of the Harvey (H-) ras proto-oncogene have recently been implicated in the progression of hemopoietic malignancy, particularly chronic myeloid leukemia. We have analyzed DNA from 170 cases of acute and chronic leukemia by using a restriction fragment length polymorphism. No evidence for clonal allelic H-ras codon 12 activation was found among these cases, which included 23 cases of chronic myeloid leukemia, 12 of which were in accelerated phase or blastic transformation. These data suggest that H-ras codon 12 mutations occur infrequently in hemopoietic neoplasms generally and may be less important in disease progression than has been previously suggested.
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PMID:Activation of Harvey ras oncogene by mutation at codon 12 is very rare in hemopoietic malignancies. 264 80

We investigated the practical value of antisense RNA/mRNA in situ hybridization for the detection of low level expression of the c-abl oncogene in non-Hodgkin lymphomas. This is of clinical relevance, since we recently showed that low level expression of this proto-oncogene mainly occurs in advanced stage disease of non-Hodgkin lymphomas and in cases of chronic lymphocytic leukemia with progressive course of the disease (Greil R, Gattringer C, Fasching B, Cleveland J, Thaler J, Radaskiewicz T, Gastl G, Huber C, Rapp U, Huber H: Int J Cancer 42:529 1988). When numerous technical parameters were tested for the adaptation of the method, fixation with 4% paraformaldehyde, gelatin coating of the slides, the time concentration product of proteinase K, and the kind of labeling had the greatest impact on results and successful performance of the technique. When the optimized method was applied to the v-abl-transformed NIH 3T3-, the K 562 CML blast cell line and to nine cases of lowly malignant non-Hodgkin lymphomas it semiquantitatively discriminated the varying amounts of v-abl, bcr/c-abl and c-abl mRNA expressed within these cells. Parallel analysis with Northern blotting confirmed the specificity of the method and pointed to a very high sensitivity, including the capacity to detect only few c-abl mRNA molecules/cell. An essential advantage of in situ hybridization was the detection of inhomogeneous expression of the c-abl mRNA within subpopulations of the malignant clone. In addition, this technique might be of particular importance when a gene is only weakly expressed on a small fraction of cells which might easily escape the detection by Northern blotting. Immunocytochemical investigation suggested parallel expression of the oncoprotein in six of seven c-abl mRNA positive cases as well as high specificity and sensitivity for the polyclonal and to a lesser extent for one monoclonal antibody. However, because of the high potential of cross-reactivity of anti-oncoprotein antibodies, parallel investigations on the mRNA level should be performed particularly when new anti-oncoprotein antibodies are applied. Our results demonstrate that this can be performed using in situ hybridization, even when the number of mRNA targets is very low.
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PMID:In situ hybridization for the detection of low copy numbers of c-abl oncogene mRNA in lymphoma cells: technical approach and comparison with results with anti-oncoprotein antibodies. 265 1

The distribution and frequency of point mutations in the first and second coding exons of the N-ras proto-oncogene was examined in 6 cases of Philadelphia positive (Ph+) hemopoietic malignancies. To increase the detection sensitivity of the mutations and to estimate more accurately the frequency of abnormal alleles in the hemopoietic cell population, a polymerase chain reaction (PCR)/shotgun cloning/double stranded DNA sequencing method was used. Mutations activating the ras oncogenes involving codon 61 were observed in 5 out of 6 cases; in one of these cases (CML3), mutation at codon 61 involved a two base transition. Mutations involving codon 59 were also observed in one case (CML1). In longitudinal studies of 3 cases of chronic myelogenous leukemia samples obtained at the time of initial diagnosis and 5 to 7 years later, a multiplicity of mutations were detected at the time of initial diagnosis prior to any therapy. In one case (CML3), a mutation in codon 61 detected at diagnosis was still present 5 years later, in a second case (CML1) a mutation in codon 61 appeared during the course of the disease and persisted for at least one year, and in the third case (CML2) a mutation in codon 61 was present at diagnosis but absent 5 years later. In one instance (CML1) a mutation in codon 59 was present at the time of initial diagnosis but was not detectable in later samples. Several other point mutations leading to aminoacid changes were scattered predominately through the second exon but were not consistently detected in longitudinal studies on cells from the same patient. The data suggest that there is considerable genetic instability in the 2nd exon of N-ras in the myeloid leukemias but in every case a small subset of cells contains the mutations and these cells do not have a proliferative advantage.
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PMID:Point mutations in both transforming and non-transforming codons of the N-ras proto-oncogene of Ph+ leukemias. 266 7

Structural abnormalities of the c-abl proto-oncogene are found in hematopoietic cells of more than 90 percent of individuals with chronic myelogenous leukemia. Therefore c-abl may be important in normal as well as malignant hematopoiesis. Normal human hematopoietic progenitor cells were exposed to three different c-abl sense or antisense oligodeoxynucleotides, and the effects on myeloid and erythroid colony formation were examined. The c-abl antisense oligodeoxynucleotides inhibited myeloid, but not erythroid, colony formation. The c-abl sense oligodeoxynucleotides and bcr sense and antisense oligodeoxynucleotides were not inhibitory in this assay. These data show that c-abl is critical in normal myelopoiesis and may explain the relatively selective expansion of leukocytes in patients with chronic myelogenous leukemia.
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PMID:Lineage-specific requirement of c-abl function in normal hematopoiesis. 267 39


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