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

We describe a case of Philadelphia chromosome-positive chronic myeloid leukemia (Ph-positive CML) expressing p190(BCR-ABL). Reverse transcription-polymerase chain reaction (RT-PCR) analysis of bone marrow cells showed a 472-bp band using primers specific for the p190(BCR-ABL) but not p210(BCR-ABL) transcript. Sequencing analysis revealed that the PCR product was derived from the fusion between BCR exon e1 and ABL exon a2 (e1a2). CML expressing p190(BCR-ABL) is relatively rare. In a review of the literature, it may be grouped into 2 categories; approximately half of the patients exhibited prominent monocytosis and intermediate hematological phenotype between CML and chronic myelomonocytic leukemia, and the remaining patients showed no monocytosis.
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PMID:Philadelphia chromosome-positive chronic myeloid leukemia expressing p190(BCR-ABL). 1252 Nov 92

We report a late appearance of the Philadelphia chromosome (Ph) with the p190 BCR/ABL chimeric transcript in a 69-year-old patient with acute myelogenous leukemia (AML) that had evolved from myelodysplastic syndrome (MDS). In July 1997, the patient was found to have pancytopenia caused by refractory anemia with excess of blasts, which evolved into AML in 4 months. The leukemic cells were positive for CD13, CD14, CD33, and HLA-DR and had a normal karyotype. The patient achieved a complete remission after combination chemotherapy. However, his leukemia relapsed in November 1999, with the appearance of leukemic cells positive for CD7, CD13, CD34, and HLA-DR with a 46, XY, add (18) (p11) karyotype. The patient failed to achieve the second remission after several courses of intensive chemotherapy. When the number of blastic cells, showing the same surface phenotypes, in the peripheral blood increased drastically in April 2000, chromosomal analysis of leukemic cells revealed a 46, XY, t(9;22) (q34;q11), add(18)(p11) karyotype. The fusion of the BCR and ABL genes was confirmed by fluorescence in situ hybridization analysis, and the reverse transcription-polymerase chain reaction analysis further revealed the presence of the p190 BCR/ABL chimeric transcript. The appearance of the Ph chromosome in the course of MDS transforming to AML is very rare and may be correlated to the disease progression.
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PMID:[Late appearance of Philadelphia chromosome with the p190 BCR/ABL chimeric transcript in acute myelogenous leukemia progressing from myelodysplastic syndrome]. 1278 57

Both clinical and experimental evidence illustrate that p190 and p210 BCR/ABL oncogenic tyrosine kinases induce resistance to DNA damage and confer an intrinsic genetic instability. Here, we investigated whether BCR/ABL expression could modulate nucleotide excision repair (NER). We found that ectopic expression of p210 BCR/ABL in murine lymphoid BaF3 cell line inhibited NER activity in vitro, promoting hypersensitivity of these cells to ultraviolet (UV) treatment and facilitating a mutator phenotype. However, expression of p210 BCR/ABL in human and murine myeloid cell lines and primary bone marrow cells resulted in the increased NER activity and resistance to UV irradiation. The ABL tyrosine kinase inhibitor STI571 reversed these effects, showing that p210 BCR/ABL tyrosine kinase activity is responsible for deregulation of NER. Hypoactivity of NER in p210 BCR/ABL-positive lymphoid cells was accompanied by the decreased interaction between proliferating cell nuclear antigen (PCNA) and xeroderma pigmentosum group B (XPB); conversely, this interaction was enhanced in p210 BCR/ABL-positive myeloid cells. p190 BCR/ABL did not affect NER in lymphoid and myeloid cells. In summary, our study suggests that p210 BCR/ABL reduced NER activity in lymphoid cells, leading to hypersensitivity to UV and mutagenesis. In contrast, p210 BCR/ABL expression in myeloid cells facilitated NER and induced resistance to UV.
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PMID:p210 BCR/ABL kinase regulates nucleotide excision repair (NER) and resistance to UV radiation. 1282 1

Acute megakaryoblastic leukaemia (AML-M7) is an uncommon disease, composing 0.5-1.2% of newly diagnosed adult acute myeloid leukaemias (AML). It is characterised by higher incidence and complexity of cytogenetic abnormalities. We report a rare case of Philadelphia (Ph) chromosome-positive AML-M7, presenting with extreme thrombocytosis and having a poor outcome. The diagnosis was established on the basis of morphological and flow cytometry data for megakaryoblastic proliferation in the bone marrow. Cytogenetics revealed 47,XX,+8,t(9;22)(q34;q11), and p190(BCR-ABL)-rearrangement was detected. MDR1-gene overexpression was not demonstrated; however, the patient was resistant to therapy and died in 6 months. The reported case contributes to the overt heterogeneity of Ph-positive AMLs, which warrants further investigation and understanding.
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PMID:Acute megakaryoblastic leukaemia with extreme thrombocytosis and p190(bcr/abl)rearrangement. 1461 10

The simultaneous occurrence of two specific primary chromosomal changes in hematological malignancies is rare. We report on a patient with acute myelo-monocytic leukemia and both inv(16)(p13q22) and t(9;22)(q34;q11) with a p190(BCR-ABL) rearrangement. The t(9;22)(q34;q11) translocation appears to be a secondary change. Similar secondary BCR-ABL rearrangements have already been described and, in most cases, the chimeric protein was of the p190(BCR-ABL) type as in our case. A complete remission was obtained by conventional chemotherapy followed with imatinib mesylate maintenance therapy. At relapse, the BCR-ABL transcripts were undetectable, which suggests that imatinib mesylate could be an effective adjuvant treatment in acute leukemia with a secondary t(9;22)(q34;q11).
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PMID:p190(BCR-ABL) rearrangement as a secondary change in a case of acute myelo-monocytic leukemia with inv(16)(p13q22). 1463 86

We demonstrate here that growth hormone (GH) stimulates the activation of RhoA and its substrate Rho kinase (ROCK) in NIH-3T3 cells. GH-stimulated formation of GTP-bound RhoA requires JAK2-dependent dissociation of RhoA from its negative regulator p190 RhoGAP. Inactivation of RhoA does not affect GH-stimulated JAK2 tyrosine phosphorylation nor p44/42 MAPK activity. However, RhoA and ROCK activities are required for GH-stimulated, Stat5-mediated transcription. RhoA-dependent enhancement of GH-stimulated, Stat5-mediated transcription is due to repression of histone deacetylase 6 activity recruited by transcription cofactor p300 that negatively regulates GH-stimulated, Stat5-mediated transcription. We also demonstrate that RhoA is the pivot for cAMP-dependent protein kinase inhibition of GH-stimulated, Stat5-mediated transcription as a consequence of cAMP-dependent protein kinase inactivation of RhoA through serine residue 188 of RhoA. We have therefore provided a novel mechanism by which a Ras-like small GTPase, RhoA, can regulate Stat5-mediated transcription.
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PMID:RhoA/ROCK activation by growth hormone abrogates p300/histone deacetylase 6 repression of Stat5-mediated transcription. 1510 57

The formation of neuronal networks in the central nervous system (CNS) requires precise control of axonal branch development and stabilization. Here we show that cell-specific ablation of the murine gene Ptk2 (more commonly known as fak), encoding focal adhesion kinase (FAK), increases the number of axonal terminals and synapses formed by neurons in vivo. Consistent with this, fak mutant neurons also form greater numbers of axonal branches in culture because they have increased branch formation and reduced branch retraction. Expression of wild-type FAK, but not that of several FAK variants that prevent interactions with regulators of Rho family GTPases including the p190 Rho guanine nuclear exchange factor (p190RhoGEF), rescues the axonal arborization phenotype observed in fak mutant neurons. In addition, expression of a mutant p190RhoGEF that cannot associate with FAK results in a phenotype very similar to that of neurons lacking FAK. Thus, FAK functions as a negative regulator of axonal branching and synapse formation, and it seems to exert its actions, in part, through Rho family GTPases.
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PMID:Control of axonal branching and synapse formation by focal adhesion kinase. 1537 65

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

Progress in understanding the molecular basis of signal transmission and transduction has contributed substantially to clarifying the mechanisms of leukemogenesis and of leukemia progression and has led to the identification of a number of specific molecular targets for treatment. Chronic myeloid leukemia (CML) has provided one of the best models, as the identification of a leukemia-specific hybrid tyrosine kinase (BCR-ABL, p210, p190) has led to the identification and the successful therapeutic application of a powerful tyrosine kinase inhibitor, imatinib. The BCR-ABL fusion gene is the result of a reciprocal translocation between the long arms of chromosomes 9 and 22, t(9;22)(q34;q11), which characterizes more than 95% of the cases of CML. The resulting chimeric proteins (P210 and P190), which retain a constitutively activated tyrosine kinase activity, have a causative role in the genesis of the leukemia process. In agreement with this observation, BCR-ABL tyrosine kinase inhibitors have recently emerged as powerful new therapeutic tools, obtaining extraordinary results in early chronic-phase CML as well as in more advanced phases of the disease. Although these results represent a remarkable breakthrough, there are still numerous issues, such as the emergence of resistance, that remain unsolved and that will need further investigation. In spite of its low incidence, CML remains a paradigmatic model for understanding the pathogenesis and therapeutic options of human leukemias.
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PMID:Rational approaches to the design of therapeutics targeting molecular markers: the case of chronic myelogenous leukemia. 1565 Feb 67

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