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 BCR-ABL hybrid gene, the main product of the t(9;22)(q34;q11) translocation, is found in the leukaemic clone of at least 95% of CML patients. The fusion protein encoded by BCR-ABL varies in size, depending on the breakpoint in the BCR gene. Three breakpoint cluster regions have been characterized to date: major (M-bcr), minor (m-bcr) and micro (mu-bcr). The overwhelming majority of CML patients have a p210 BCR-ABL gene (M-bcr), whose mRNA transcripts have a b3a2 and/or a b2a2 junction. There is apparently no significant difference between patients with a 5' or a 3' M-bcr breakpoint, except maybe for a slight predominance of b3a2-expressing cases among those with increased platelet counts (ET-like syndrome). The smallest of the fusion proteins, p190BCR-ABL, (m-bcr breakpoint) is principally associated with Ph-positive ALL. Rare cases of CML are due to a p190-type of BCR-ABL gene and, in these, the disease tends to have a prominent monocytic component, resembling CMML. CML resulting from a p230 BCR-ABL gene (mu-bcr breakpoint) is also rare, and has been associated with the CNL variant and/or with marked thrombocytosis. Exceptional CML cases have been described with BCR breakpoints outside the three defined cluster regions, or with unusual breakpoints in ABL resulting in BCR-ABL transcripts with b2a3 or b3a3 junctions, or with aberrant fusion transcripts containing variable lengths of intronic sequence inserts. The reciprocal ABL-BCR gene found in the derivative 9q+ chromosome of the t(9;22) is transcriptionally active in nearly two-thirds of CML patients but has not been shown so far to have a functional role in CML. 'Ph-negative CML' comprises cases of typical CML in whom the BCR-ABL gene can be detected by molecular methods and others who are genuinely BCR-ABL negative and usually have an atypical disease phenotype.
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PMID:BCR-ABL gene variants. 937 60

The Philadelphia chromosome translocation t(9;22)(q34;q11) may give rise to different BCR/ABL fusion mRNAs due to different genomic breakpoints and alternative splicing. The e1a2, b2a2 or b3a2 and c3a2 fusion mRNAs encode distinct fusion proteins (p190, p210 and p230, respectively), which are associated with different forms of leukemogenesis in humans and animal models. Our patient presented with acute pre-B cell lymphoblastic leukemia (ALL) with normal cytogenetics. After 3 years of standard ALL therapy, he relapsed with t(9;22)-positive chronic myelogenous leukemia (CML). Retrospective molecular analyses of the pre-treatment pre-B cell ALL sample showed the b3a2 (p210) and e1a2 (p190) BCR/ABL fusion transcripts. Only the b3a2 (p210) transcript was detected at relapse. Southern and immunoglobulin heavy chain (IgH) analyses of the presentation and relapse samples revealed an identical BCR rearrangement in both samples. However, only the ALL sample harbored an IgH gene rearrangement. These findings show a clonal relationship between the more differentiated pre-B cell and less differentiated CML clones and that the p210 and p190 fusion mRNAs were alternatively spliced from a single genomic breakpoint. Our patient's unusual molecular findings provide circumstantial evidence that the p190 protein may promote a more differentiated phenotype in a comparatively less differentiated p210-transformed precursor cell.
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PMID:Pre-B acute lymphoblastic leukemia with b3a2 (p210) and e1a2 (p190) BCR-ABL fusion transcripts relapsing as chronic myelogenous leukemia with a less differentiated b3a2 (p210) clone. 1060 22

The t(9;22) translocation associated with chronic myelogenous leukemia (CML) fuses the c-ABL gene on chromosome 9 with the BCR gene on chromosome 22, resulting in the production of one or more of a family of chimeric oncoproteins, p190, p210, or p230 BCR/ABL. These proteins have activated ABL kinase activity and are located in the cytoplasm of CML cells, predominantly in the cytoskeleton. Recent studies have led to the identification of numerous potential substrates for BCR/ABL, including many proteins that normally function in signal transduction pathways downstream from hematopoietic growth factor receptors. BCR/ABL is autophosphorylated on tyrosine residues and attracts a variety of adapter proteins and other signaling proteins, setting up large signaling complexes that ultimately result in growth. viability, and adhesion signals. Using new in vitro and animal model systems, it is now becoming possible to link specific signaling pathways to biological abnormalities in CML cells. Furthermore, the relative importance of some BCR/ABL-activated pathways is becoming clear. In vivo studies in certain lines of transgenic mice suggest that the antiapoptotic effect of Bcr/Abl is more important than previously thought. Our current studies indicate important roles for phosphoinositide 3-kinase/Akt and for STAT molecules. As a result of these more detailed biochemical analyses of BCR/ABL function, new targets for future drug development have been identified.
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PMID:Phosphatidyl inositol signaling by BCR/ABL: opportunities for drug development. 1158 59

To further elucidate the role of angiogenesis in the pathogenesis of chronic myelogenous leukemia (CML) we evaluated the effects of the bcr-abl translocation on the secretion of the angiogenic factors VEGF, FGF-2, HGF, IL-8 and matrix metalloproteinases (MMPs) as well as on the angiogenic potential in vivo of bcr-abl+ cells. First, we examined murine FL5.12 cells transfected with the bcr-abl constructs p185, p210 and p230 and found that the transfected cells secreted as much as four-fold more VEGF (p185 > p210 >p230) than wild-type (wt) cells, as well as MMP-9 and MMP-2. When Matrigel fragments containing these bcr-abl+ cells were implanted subcutaneously in SCID or Balb-C mice they became significantly more vascularized and hemoglobinized than implants containing normal or wt cells (p185 > p210 > p230). Similarly, we found that myeloblasts expanded from bone marrow (BM) CD34+ cells derived from Philadelphia-positive CML patients secreted up to 10 times more VEGF, FGF-2, HGF and IL-8 compared to myeloblasts derived from normal donors' BM CD34+ cells and that BM mononuclear cells (MNC) isolated from CML patients induced vascularization of Matrigel implants in mice. Moreover, we found that peripheral blood MNC expressed MMP-2 and membrane-type (MT)1-MMP in about 50% of CML patients studied, and MMP-9 in all of them. Furthermore, VEGF stimulated the secretion of MMP-9 in these primary CML cells. We conclude that stimulation of angiogenesis by angiogenic factors, including MMPs, could play an important role in the pathogenesis of CML, suggesting that therapies targeting the newly formed endothelium could be developed for CML.
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PMID:Bcr-abl-positive cells secrete angiogenic factors including matrix metalloproteinases and stimulate angiogenesis in vivo in Matrigel implants. 1204 Apr 48

There are two major forms of the BCR/ABL fusion gene, involving ABL exon 2, but including different exons of BCR gene. The transcripts b2a2 or b3a2 code for a p210 protein. Another fusion gene leads to the expression of an e1a2 transcript, which codes for a p190 protein. Another, less common fusion gene is c3a2[e19a2], which encodes a p230 protein. The incidence of one or the other rearrangement in chronic myeloid leukaemia (CML) patients varies in different reported series. This study was designed to determine the frequency of coexpresion of the p210, p190 and p230 transcripts in 250 Mexican patients with CML. We performed nested and multiplex reverse transcriptase polymerase chain reaction (RT-PCR) on bone marrow samples from adult patients and found that all cases were positive for some type of BCR/ABL rearrangement. In 226 (90.4%) patients it was p210, while the remaining 9.6% showed coexpression or one of the transcripts of p190/p210/p230. In 7% of patients with p210 expression there are both isoforms (b3a2/b2a2), presumably the result of alternative splicing. The rate of coexpression of the p190/p210 transcripts was 5%, which is much lower than in other reports. This may be due to the technical factors. These patients had high platelet counts, marked splenomegaly and chromosomal abnormalities in addition to Ph'. Other types of coexpression seen were p210/p230 and p190/p210/p230, in patients with high-risk clinical factors. Our study confirms the occurrence of coexpression of different BCR/ABL transcripts, although the rate (9.6%) was much lower than has been reported in other populations. This may reflect either the sensitivity of the detection techniques used or the possibility of genetic differences between the populations studied. Coexpression may be due to alternative splicing or to phenotypic variation, with clinical courses different from classical CML.
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PMID:BCR/ABL p210, p190 and p230 fusion genes in 250 Mexican patients with chronic myeloid leukaemia (CML). 1206 77

Chronic myeloid leukaemia (CML) is caused by the product of the BCR-ABL oncogene, located on the Philadelphia (Ph) chromosome. BCR-ABL is generated as a result of a reciprocal t(9;22) chromosomal translocation. The mechanisms responsible for this illegitimate recombination event remain elusive but are presumed to require a close spatial association of the translocation partners (chromosomes 9 and 22). BCR-ABL fusion transcripts can be detected by a sensitive reverse transcription-polymerase chain reaction (RT-PCR) in the leucocytes of some healthy individuals suggesting that chromosomal translocations may occur frequently in the general population. The presence of BCR-ABL fusion transcripts does not imply that the individual will inevitably develop CML since other conditions must be favourable for expansion of the abnormal clone. Breakpoints in the ABL gene occur within a 5' segment. BCR-ABL fusion transcripts lack ABL exon a1 and consist of BCR exons fused directly to ABL exon a2. The breakpoints in the BCR gene on chromosome 22 are found within three defined regions. Depending on the position of the BCR breakpoint, fusion genes are generated that encode 190-, 210- or 230-kD forms of the Bcr-Abl tyrosine kinase. Since the ABL component of the fusion gene is largely invariant, it follows that variability in disease phenotype may be due to protein sequences encoded by the translocation partner, BCR. Different disease phenotypes are associated with each of the three Bcr-Abl oncoproteins, p190(Bcr-Abl), p210(Bcr-Abl )and p230(Bcr-Abl). Mechanisms associated with malignant transformation include altered cellular adhesion, activation of mitogenic signalling pathways, inhibition of apoptosis and proteasomal degradation of physiologically important cellular proteins. CML is subject to an inexorable progression from an 'indolent' chronic phase to a terminal blast crisis. Disease progression is presumed to be associated with the phenomenon of genomic instability.
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PMID:Cytogenetic and molecular genetic aspects of chronic myeloid leukaemia. 1243 15

The aim of this study was to enhance the antileukemic efficacy of the alkylphosphocholine erucylphospho-N,N,N-trimethylpropylammonium (ErPC3) in chronic myeloid leukemia (CML)-derived cell lines by a bcr-directed antisense oligonucleotide (ASO-bcr). The mechanism was substantiated by Western blotting of the BCR-ABL expression level of CML cells, and the efficacy was substantiated by inhibition of colony formation compared with normal hematopoietic cells. The clonogenicity of K-562 cells expressing high levels of p210(BCR-ABL) was inhibited significantly by the ASO-bcr (T/C%, 30; P < 0.05) but not by ErPC3 (T/C%, 70). Combined sequential exposure to ErPC3 and the ASO-bcr, however, inhibited synergistically colony growth (T/C%, 3; P < 0.01). The colony growth of BV-173 cells expressing lower levels of p210(BCR-ABL) than K562 cells was inhibited to a greater extent by the ASO-bcr (T/C%, 15; P < 0.01). AR-230 cells that express high levels of p230(BCR-ABL) showed an intermediate decrease in colony formation in response to the ASO-bcr (T/C%, 20; P < 0.05). BCR-ABL levels of BV-173, CML-T1, and LAMA-84 cells were reduced in response to the ASO-bcr, as evidenced by Western blot. However, K-562 and AR-230 cells showed reduced BCR-ABL expression only after repeated treatment. ErPC3 and the ASO-bcr did not reduce colony formation (CFU-GM) of normal mouse bone marrow cells from long-term bone marrow cell cultures; instead, ErPC3 stimulated colony formation (P < 0.05) and did not induce chromosomal aberrations in mouse bone marrow. In conclusion, the combination of ErPC3 with a suitable antisense oligonucleotide inhibited synergistically colony formation of CML cell lines without damaging normal cells and thus might have a bearing on the purging of autologous hematopoietic transplants in CML patients.
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PMID:Combination with an antisense oligonucleotide synergistically improves the antileukemic efficacy of erucylphospho-N,N,N-trimethylpropylammonium in chronic myeloid leukemia cell lines. 1249 21

Chronic myelogenous leukemia is characterized by the presence of the reciprocal t(9;22)(q34;q11) in which c-abl located on chromosome 9, and the bcr locus located on chromosome 22, are disrupted and translocated creating a novel bcr-abl fusion gene residing on the derivative chromosome 22. In most cases, the breakpoint in abl occurs within intron 1. Depending on the breakpoint in bcr, exon 2 of abl (a2) joins with exons 1 (e1), 13 (b2), or 14 (b3), or rarely to exon 19 (e19) of bcr resulting in chimeric proteins of p190, p210 and p230, respectively. Currently, several multiplex real-time reverse transcriptase-polymerase chain reaction (RT-PCR)-based assays for detecting bcr-abl are available to assess the levels of the three common fusion transcripts, b2a2, b3a2 and e1a2. Although these assays circumvent the requirement for individual fusion sequence quantitative polymerase chain reaction-based assays, they do not identify the specific fusion transcript. Knowledge of the latter is useful to rule out false-positive results and to compare clones before and after therapy. We designed a novel multiplex real-time RT-PCR assay to detect bcr-abl that allows accurate quantification and determination of the specific fusion transcript. In this assay, abl primer labeled at its 5' end with the fluorescent dye NED (Applied Biosystems) is incorporated into the bcr-abl fusion product during amplification. The NED fluorescent dye in abl primer, without interfering with fluorescent TaqMan probe signal, allows subsequent identification of the fusion transcript by semiautomated high-resolution capillary electrophoresis and GeneScan analysis.
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PMID:TaqMan RT-PCR assay coupled with capillary electrophoresis for quantification and identification of bcr-abl transcript type. 1465 55

The diagnosis of chronic myeloid leukemia is based on detection of the Philadelphia (Ph) chromosome or the BCR-ABL gene. The junction present in the transcript may vary according to the reciprocal translocation t(9;22)(q34;11). Identification of the transcript (p190, p210 or p230) does not reveal the type of junction but this information is very important for classification of patients in clinical trials. Most identification kits do not explore p230 transcripts and are unable to determine exotic breakpoints. We have developed a clinical molecular diagnosis assay, able to identify all of the BCR-ABL transcripts and, by single assay, to characterize all of the possible transcript junctions. This technique is based on RT-PCR and PCR-capillary electrophoresis. For each patient sample, we performed RT-PCR with three different BCR primers each coupled to a specific different fluorochrome and a unique reverse ABL primer. Depending on the transcript, only one BCR primer was used for each RT-PCR. After capillary electrophoresis and fluorescence determination, we were able to identify both the transcript and its junction at the same time.
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PMID:Characterization of the different BCR-ABL transcripts with a single multiplex RT-PCR. 1550 73

The BCR/ABL fusion oncogene found in Philadelphia-positive leukemia exists in three principle forms: p190, p210 and p230. P210 BCR/ABL is commonly found in patients with chronic myelogenous leukemia (CML) and is further categorized into b3a2 or b2a2 subtypes on the basis of the BCR breakpoint. Although these 2 subtypes may be clinically heterogeneous, only the b3a2 BCR/ABL gene has been extensively studied at the molecular and cellular levels. In the present study, we compared the in vivo leukemogenic activity of the b3a2 and b2a2 BCR/ABL genes by using lentiviral transduction/transplantation mouse models. Lineage-depleted bone marrow cells of BALB/c mice were transduced with a lentiviral vector including either b2a2 or b3a2 BCR/ABL cDNA and then transplanted into lethally irradiated mice. In this model, p210 BCR/ABL subtype developed only B220(+), CD3e(-), Gr1(-), and Mac1(-) B-cell acute lymphoblastic leukemia but not myeloid leukemia. There were no differences in the incidence of leukemogenesis, the white blood cell count, the percentage of blast cells, or the survival rates between the b2a2 and b3a2 groups. We have demonstrated that b2a2-type BCR/ABL has leukemogenic activity similar to that of b3a2-type BCR/ABL.
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PMID:Leukemogenesis of b2a2-type p210 BCR/ABL in a bone marrow transplantation mouse model using a lentiviral vector. 1960 20


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