EC:2.7.10.2 - FACTA Search

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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Philadelphia chromosome (Ph), a minute chromosome that derives from the balanced translocation between chromosomes 9 and 22, was first described in 1960 and was for a long time the only genetic lesion consistently associated with human cancer. This chromosomal translocation results in the fusion between the 5' part of BCR gene, normally located on chromosome 22, and the 3' part of the ABL gene on chromosome 9 giving origin to a BCR/ABL fusion gene which is transcribed and then translated into a hybrid protein. Three main variants of the BCR/ABL gene have been described, that, depending on the length of the sequence of the BCR gene included, encode for the p190(BCR/ABL), P210(BCR/ABL), and P230(BCR/ABL) proteins. These three main variants are associated with distinct clinical types of human leukemias. Herein we review the data on the correlations between the type of BCR/ABL gene and the corresponding leukemic clinical features. Lastly, drawing on experimental data, we provide insight into the different transforming power of the three hybrid BCR/ABL proteins.
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PMID:BCR/ABL genes and leukemic phenotype: from molecular mechanisms to clinical correlations. 1247 11

Chronic myelogenous leukemia is a myeloproliferative disorder (MPD) that, over time, progresses to acute leukemia. Both processes are closely associated with the t(9;22) chromosomal translocation that creates the BCR/ABL fusion gene in hematopoietic stem cells (HSCs) and their progeny. Chronic myelogenous leukemia is therefore classified as an HSC disorder in which a clone of multipotent HSCs is likely to be malignantly transformed, although direct evidence for malignant t(9;22)+ HSCs is lacking. To test whether HSC malignancy is required, we generated hMRP8p210BCR/ABL transgenic mice in which expression of BCR/ABL is absent in HSCs and targeted exclusively to myeloid progenitors and their myelomonocytic progeny. Four of 13 BCR/ABL transgenic founders developed a chronic MPD, but only one progressed to blast crisis. To address whether additional oncogenic events are required for progression to acute disease, we crossed hMRP8p210BCR/ABL mice to apoptosis-resistant hMRP8BCL-2 mice. Of 18 double-transgenic animals, 9 developed acute myeloid leukemias that were transplantable to wild-type recipients. Taken together, these data indicate that a MPD can arise in mice without expression of BCR/ABL in HSCs and that additional mutations inhibiting programmed cell death may be critical in the transition of this disease to blast-crisis leukemia.
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PMID:Expression of BCR/ABL and BCL-2 in myeloid progenitors leads to myeloid leukemias. 1289 Aug 67

Dual-color, dual-fusion fluorescence in situ hybridization (D-FISH) can accurately detect and quantify cells with BCR/ABL fusion in <1% of 500 nuclei in 80% of patients with chronic myelocytic leukemia (CML) and t(9;22)(q34;q11.2). The remaining patients have one of three forms of atypical D-FISH patterns; these patterns have different sensitivities to detect disease. Neoplastic cells with one ABL, one BCR, and one BCR/ABL fusion are particularly problematic, because normal cells with coincidental overlap have the same pattern. For these patients, the normal cutoff for D-FISH is >23%. We tested a new method that incorporates an aqua-labeled probe for the argininosuccinate synthetase (ASS) gene into the conventional BCR/ABL D-FISH probe set. This tricolor D-FISH (TD-FISH) method takes advantage of the aqua-labeled ASS probe to distinguish between neoplastic and normal cells. We used TD-FISH to study 20 normal specimens and 35 specimens from 20 patients with known loss of both BCR and ABL from the derivative chromosome 9. The results show that TD-FISH effectively discriminates between cells with overlapping BCR and ABL signals from cells with true BCR/ABL fusion and improves the ability to quantify minimal residual disease from >23% to >1% of 500 interphase nuclei.
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PMID:A novel tricolor, dual-fusion fluorescence in situ hybridization method to detect BCR/ABL fusion in cells with t(9;22)(q34;q11.2) associated with deletion of DNA on the derivative chromosome 9 in chronic myelocytic leukemia. 1469 34

The BCR/ABL fusion tyrosine kinase activates various intracellular signaling pathways, thus causing chronic myeloid leukemia (CML). Here we demonstrate that the inducible expression of BCR/ABL in a murine hematopoietic cell line, TonB210, leads to the activation of the Ras family small GTPase Rap1, which is inhibited by the ABL kinase inhibitor imatinib. The Rap1 activity in a CML cell line, K562, was also inhibited by imatinib. Inhibition of Rap1 activation by a dominant negative mutant of Rap1, Rap1-N17, or SPA-1 inhibited the BCR/ABL-induced activation of Elk-1. BCR/ABL also activated in a kinase activity-dependent manner the B-Raf kinase, which is an effector molecule of Rap1 and a potent activator of the MEK/Erk/Elk-1 signaling pathway. Together, these data suggest that, in addition to the well-established Ras/Raf-1 pathway, BCR/ABL activates the alternative signaling pathway involving Rap1 and B-Raf to activate Erk, which may play important roles in leukemogenesis.
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PMID:BCR/ABL activates Rap1 and B-Raf to stimulate the MEK/Erk signaling pathway in hematopoietic cells. 1559 48

The chronic myelogenous leukemia is a pluripotent hemopoietic stem cell disease characterized by the t(9;22) (q34;q11) reciprocal chromosomal translocation (Philadelphia chromosome). The translocation result the fusion of the ABL gene located at the long arm of chromosome 9 with the BCR gene located at the long arm of chromosome 22. The BCR/ABL fusion gene encodes a chimeric protein with elevated tyrosine kinase activity, that plays an important role in the pathogenesis of the disease. In the diagnosis of chronic myelogenous leukemia and in the evaluation of the therapeutic effect, the detection of the t(9;22)(q34;q11) translocation and BCR/ABL fusion gene plays an important role. The authors in the present paper provides a review on the recently used methods of the detection of t(9;22)(q34;q11) chromosomal translocation and BCR/ABL fusion gene and their role in the diagnosis, monitoring and evaluation of therapeutic effect in chronic myelogenous leukemia.
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PMID:[New approach in the diagnosis and monitoring of treatment in chronic myelogenous leukemia]. 1572 95

Nuclear topography, expression of the BCR/ABL fusion gene and its protein level/cellular pattern were studied in CML cell line K562 stimulated to differentiation, apoptosis and influenced by ABL-RNA interference (ABL-RNAi). Phorbol ester-induced maturation of K562 cells was accompanied by repositioning of down-regulated BCR/ABL genes closer to the nuclear membrane. This nuclear rearrangement could be connected with differentiation-related heterochromatinization of the amplified BCR-ABL locus, as demonstrated by increased histone H3(K9) dimethylation and decreased H3(K9) acetylation of B3A2 breakpoint. Topography of BCR/ABL in differentiated K562 cells was compared with other leukemic cell types: PMA-maturation of HL60 cells did not influence the nuclear positioning of individual BCR and ABL genes. Moreover, BCR and ABL genes in non-stimulated HL60 as well as in the bone marrow cells of CML patients, i.e. also BCR/ABL fusion genes, were positioned more interiorly in comparison with BCR/ABL multiple loci of K562 cells. Decreased expression of BCR/ABL gene was also found after cell stimulation by selectively pro-apoptotic agent etoposide and by ABL-RNAi leading to apoptosis. In order to compare the efficiency of selected experimental strategies, levels of Bcr/Abl and c-Abl proteins were determined and in all cases tested were reduced. In K562 cells the Bcr/Abl and c-Abl proteins were distributed homogeneously in both the cell nucleus and cytoplasm, while differentiation of K562 cells was characterized by a distinct pattern of Bcr/Abl and c-Abl proteins that were focally distributed rather in the cytoplasm while apoptotic population was completely absent of Bcr/Abl and c-Abl signals.
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PMID:Nuclear topography and expression of the BCR/ABL fusion gene and its protein level influenced by cell differentiation and RNA interference. 1597 41

BCR/ABL fusion gene, encoding a paradigmatic tyrosine kinase involved in chronic myelogenous leukemia (CML), can modulate the expression of genes involved in natural killer (NK) cell target recognition. Recent reports outline the role of allogeneic antileukemic NK effectors in the graft-versus-leukemia effect but the regulation of NK cell activation in the setting of graft-versus-leukemia effect remains unknown. Here we show that dendritic cells derived from monocytes of CML patients are selectively endowed with NK cell stimulatory capacity in vitro. We further show, using a gene transfer approach in mouse bone marrow progenitors, that ABL/ABL is necessary to promote dendritic cell-mediated NK cell activation. The dendritic cell/NK cell cross-talk in ABL/ABL-induced CML seems unique because JunB or IFN consensus sequence binding protein loss of functions, associated with other myeloproliferative disorders, do not promote dendritic cell-mediated NK cell activation. NK cell activation by leukemic dendritic cells involves NKG2D activating receptors and is blocked by imatinib mesylate. Indeed, ABL/ABL translocation enhances the expression levels of the NKG2D ligands on dendritic cells, which is counteracted by imatinib mesylate. Altogether, the clonal ABL/ABL dendritic cells display the unique and selective ability to activate NK cells and may participate in the NK cell control of CML. This study also highlights the deleterious role of imatinib mesylate at the dendritic cell level for NK cell activation.
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PMID:BCR/ABL promotes dendritic cell-mediated natural killer cell activation. 1602 45

The t(9;22)(q11.2;q34) translocation is found in a subset of acute lymphoblastic leukemia (ALL). The presence of this translocation involving the fusion of BCR/ABL genes represents a poor prognostic group. Because of the importance in detecting t(9;22) in ALL patients and because occasionally a cytogenetically cryptic BCR/ABL fusion is detected with fluorescence in situ hybridization (FISH), our laboratory routinely performs BCR/ABL FISH tests on all newly diagnosed ALL patients. In the past year, 25 consecutive, newly diagnosed, untreated ALL cases were analyzed. We report the cytogenetics and FISH findings of three cases containing a rearranged 9q34 region with an intact BCR (22q11.2) region and an absence of the BCR/ABL fusion. A split ABL signal representing a translocation of the 9q34 region with chromosome segments other than 22q11.2 (BCR) was observed in 3 cases. Two of these patients were 3 years old; one was 21 at the time of diagnosis. A split ABL FISH signal without the involvement of BCR does not represent a t(9;22) translocation, and prognostic implications of this apparent subgroup of ALL cases have not been determined. Cytogenetic, pathologic, and clinical aspects of these three cases are presented.
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PMID:9q34 rearrangements in BCR/ABL fusion-negative acute lymphoblastic leukemia. 1615 97

The BCR/ABL gene rearrangement is the causing factor in chronic myeloid leukemia (CML). In most cases, it is cytogenetically visualized as a translocation between chromosomes 9 and 22, known as the Philadelphia (Ph) translocation. About 5-10% of CML patients lack cytogenetic evidence of the Ph translocation but show BCR/ABL fusion by fluorescence in situ hybridization (FISH) or reverse transcriptase-polymerase chain reaction. Deletions around the breakpoints on the derivative 9 including ABL and or BCR sequences occur in 10-15% of Ph+ CML patients and are thought to have prognostic significance. We describe two patients with CML and normal karyotype in whom cryptic rearrangements involving chromosomes 9 and 22 resulted in the causative BCR/ABL gene. FISH with a three-color probe combination revealed BCR/ABL fusion on chromosome 9 without deletion in one patient; the other patient had BCR/ABL on chromosome 22 with an associated derivative 9 deletion. We discuss the proposed mechanisms in the formation of BCR/ABL in the setting of a normal karyotype. Some authors reported that patients with the chimeric gene located on the derivative 9 have a poor clinical course. We suggest that deletion rather than location of the chimeric gene alone is more likely to be associated with prognosis.
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PMID:BCR/ABL rearrangement in two cases of Philadelphia chromosome negative chronic myeloid leukemia: deletion on the derivative chromosome 9 may or not be present. 1633 61

The t(9;22) BCR/ABL fusion is associated with over 90% of chronic myelogenous and 25% of acute lymphocytic leukemia. Chromosome 11q23 translocations in acute myeloid and lymphoid leukemia cells demonstrate myeloid lymphoid leukemia (MLL) fusions with over 40 gene partners, like AF9 and AF4 on chromosomes 9 and 4, respectively. Therapy-related leukemia is associated with the above gene rearrangements following the treatment with topoisomerase II (topo II) inhibitors. BCR, ABL, MLL, AF9 and AF4 have defined patient breakpoint cluster regions. Chromatin structural elements including topo II and DNase I cleavage sites and scaffold attachment sites have previously been shown to closely associate with the MLL and AF9 breakpoint cluster regions, implicating these elements in non-homologous recombination (NHR). In this report, using cell lines and primary cells, chromatin structural elements were analyzed in BCR, ABL and AF4 and, for comparison, in MLL2, which is a homolog to MLL, but not associated with chromosome translocations. Topo II and DNase I cleavage sites associated with all breakpoint cluster regions, whereas SARs associated with ABL and AF4, but not with BCR. No close breakpoint clustering with the topo II/DNase I sites were observed; however, a statistically significant 5' or 3' distribution of patient breakpoints to the topo II DNase I sites was found, implicating DNA repair and exonucleases. Although MLL2 was expressed in all cell lines tested, except for the presence of one DNAse I site in the promoter, no other structural elements were found in MLL2. A NHR model presented demonstrates the importance of chromatin structure in chromosome translocations involved with leukemia.
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PMID:Common chromatin structures at breakpoint cluster regions may lead to chromosomal translocations found in chronic and acute leukemias. 1657 68

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