Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

CML, characterized by the BCR/ABL gene rearrangement has been more extensively studied than any other malignancy. Over the last decade, significant progress has been made in our understanding of BCR-ABL-induced alterations in intracellular signaling. Unfortunately, we still only poorly understand the correlation between the clinical symptoms of chronic phase CML and the BCR-ABL oncoprotein. This is in part due to lack of a good in vivo animal model of chronic phase CML. In vivo and in vitro studies from the Clarkson group, recently reviewed in this journal (Leukemia 1997; 11: 1404-1428), have significantly enhanced our understanding of the pathophysiology of CML. However, further characterization of the effect of the BCR-ABL oncoprotein on signal molecules involved with cell differentiation, cell proliferation, cell survival and cell adhesion in primary Ph+ CML progenitors or in vivo models of CML will be needed to provide a full understanding of the pathophysiology of chronic phase CML.
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PMID:Chronic myelogenous leukemia: too much or too little growth, or both? 930 92

Reverse transcription polymerase chain reaction was used to detect an unusual BCR/ABL transcript in a patient who presented with thrombocythaemia and was Philadelphia chromosome positive but weakly reactive to conventional BCR/ABL fusion probes. Sequencing revealed the presence of a 12 bp insert between BCR exon2 (b2) and ABL exon2 (a2). In such cases the use of conventional BCR/ABL probes may lead to false negative results. This is the first report of this transcript. Clinically the patient has responded well to therapy.
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PMID:A novel BCR-ABL rearrangement in a Philadelphia chromosome-positive chronic myelogenous leukaemia variant with thrombocythaemia. 951 86

The results of polymerase chain reaction (PCR) analysis after transplantation for chronic myelogenous leukemia (CML) are difficult to interpret clinically. Positive findings for BCR/ABL can be seen not only in patients who go on to relapse but also in patients who, after years of follow-up, remain in complete remission. The cause for the lack of concordance between PCR findings and relapse is not clear. We identified two patients with CML who had rare pseudo-Gaucher cells in their bone marrow aspirate specimens prior to, and at 1, and 6 or 12 months following syngeneic or allogeneic hematopoietic transplantation. After the transplant, the patients obtained clinical remission and were shown to be cytogenetically normal and to have germline MBCR in blood or bone marrow by Southern analysis. One patient was PCR-positive for BCR/ABL in the marrow at 12 months. In order to determine whether the pseudo-Gaucher histiocytes were BCR/ABL-positive, we used fluorescence in situ hybridization and probes for MBCR and ABL and analyzed Wright-stained smears to correlate molecular cytogenetic findings with cell type. On three aspirate smears from each patient (at 6 or 12 months post-transplant), all of the pseudo-Gaucher cells studied (10/10 in one patient and 12/12 in the other) showed the fusion for BCR/ABL. Other cells analyzed randomly (erythroid precursors, granulocytes and rare monocytes, lymphocytes and plasma cells) did not. Our cases provide the first proof that pseudo-Gaucher cells carry the BCR/ABL fusion. Furthermore, they illustrate that these cells can be found in the marrow for up to 12 months following transplantation. Our results permit speculation that pseudo-Gaucher cells or other long-lived histocytes may be one cause of persistent PCR positivity after transplantation that is not predictive of disease relapse.
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PMID:Pseudo-Gaucher histiocytes identified up to 1 year after transplantation for CML are BCR/ABL-positive. 951 87

Twenty to 25% of patients with chronic myelogenous leukemia (CML) treated with interferon-alpha (IFN-A) achieve a complete cytogenetic response (CCR). However, cells bearing rearrangement of BCR/ABL can still be detected many years after achieving a CCR despite the absence of clinical evidence of active disease. It has been suggested that the disease is kept in a dormant state by immune mechanisms. How this is achieved is not known, but it has been speculated that p210BCR/ABL might be presented by malignant cells through HLA molecules, thus making them the target for specific immune cell killing. Because specific peptides will be expressed in association with certain HLA molecules, different HLA phenotypes could be associated with different response rates to IFN-A. The response to IFN-A-based therapies in 239 patients with chronic phase CML was analyzed according to their HLA phenotype. One hundred and ninety-four (81%) achieved complete hematologic response, 142 (59%) had a cytogenetic response which was major (MCR) in 93 patients (39%): complete (CCR) in 71 (30%) and partial (PCR) in 22 (9%). Patients with an HLA-B27 phenotype had the best response rate to IFN-A: 10 of 14 (71%) had an MCR, including eight (57%) with a CCR (P=0.02). Patients with HLA-B35, -A3, and -A31 also showed a trend towards a higher response rate, whereas patients with HLA-B18 had the lowest response rate (MCR 17%). Patients with HLA-B27 and those with HLA-A31 showed a trend for better survival, whereas patients with HLA-A2, -B7, or -B18 had a trend for shorter survival. We conclude that response to IFN-A in patients with CML may be associated with the HLA phenotype. However, a much larger population would be required to determine if the impact of HLA phenotype on survival is independent of other clinical prognostic features. These findings could be relevant for the understanding of immune mechanisms of control of CML and possibly the design of immune therapy for this disease.
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PMID:Association of HLA phenotype and response to interferon-alpha in patients with chronic myelogenous leukemia. 955 1

In acute leukemia (AL) with a late-appearing Philadelphia (la-Ph) translocation, it is unclear whether these translocations arise from the same molecular event as classical Ph translocations. In order to elucidate the molecular events of la-Ph and subsequent translocations of la-Ph leukemia, we performed molecular analysis on the complex rearrangements, in a cell line, MY, which was established from bone marrow mononuclear cells of a patient with a la-Ph acute biphenotypic leukemia. This la-Ph, expressing an acute lymphoblastic leukemia (ALL)-type BCR/ABL transcript, produces a novel P180BCR/ABL fusion protein reflecting deletion of 174 bases (58 amino acids) encoded by the a2 exon of the ABL gene. An immune complex kinase assay showed that this protein had autophosphorylation activity. Fluorescence in situ hybridization (FISH) in conjunction with G-banding analysis revealed that the initial der(9)t(9;22)(q34;q11) progressed to a der(9)(9pter-->9q34::22q11-->22q13::5q11.2 -->5q15:: 10q23-->10qter) by, first, a three-way translocation among the der(9)t(9;22)(q34;q11), chromosome 5, and the normal chromosome 22, and then a subsequent translocation with chromosome 10. Moreover, both the end-stage leukemic cells of the patient and the MY cell line had another translocation, t(X;12)(p11.2;p13). The 12p breakpoint was located near the ETV6 gene by analysis of pulsed-field gel electrophoresis, but transcription of ETV6 was unaffected. Tumorigenicity analysis indicated that an additional translocation, t(2;3)(p16;q29), may have caused a more malignant clone, because only MY cells with the t(2;3)(p16;q29) were capable of growing subcutaneously in nude mice within 40 days. The molecular events of leukemogenesis and leukemic progression in the present la-Ph AL occurred by accumulation of unique translocations. This cell line, MY, expressing a novel variant P180BCR/ABL protein with a deletion of the a2 exon of the ABL gene, may be useful for elucidating the pathophysiology of this fusion protein and for studying ETV6-related leukemogenesis and t(2;3), as well as the molecular mechanisms of the complex translocations.
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PMID:Establishment of a cell line with variant BCR/ABL breakpoint expressing P180BCR/ABL from late-appearing Philadelphia-positive acute biphenotypic leukemia. 979 May 3

Abnormal beta1 integrin receptor function may contribute to the continuous proliferation and abnormal circulation of malignant hematopoietic progenitors in chronic myelogenous leukemia (CML). Previous studies suggest that abnormal integrin function in CML progenitors is related to the presence of the BCR/ABL oncogene. BCR/ABL may alter integrin function in CML by phosphorylating cytoskeletal and/or signaling proteins important for normal integrin function. We evaluated the effect of Tyrphostin AG957, a protein tyrosine kinase (PTK) inhibitor which has activity against the p210BCR/ABL kinase, on beta1 integrin function in CML progenitors. Incubation of CML marrow CD34+HLA-DR+ cells with Tyrphostin AG957 at concentrations that did not affect colony-forming cells (CFC) viability, but which partly inhibited p210BCR/ABL kinase activity, significantly increased CML CFC adhesion to stroma and alpha4beta1 and alpha5beta1 integrin binding fragments of fibronectin (FN). CML CFC proliferation, unlike that of normal CFC, is not inhibited following integrin receptor engagement with FN or anti-integrin antibodies. AG957 did not alter CML CFC proliferation by itself, but resulted in significant inhibition of CML CFC proliferation following integrin engagement. Another PTK inhibitor, Tyrphostin AG555, which does not have anti-p210BCR/ABL kinase activity, did not affect CML CFC adhesion or proliferation. Neither AG957 nor AG555 affected normal CFC adhesion or proliferation. In BCR/ABL expressing cells, AG957 partially inhibited phosphorylation of several proteins that are BCR/ABL PTK substrates and are involved in normal integrin signaling. These studies suggest that abnormal tyrosine phosphorylation may play an important role in defective integrin function in CML progenitors.
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PMID:Tyrphostin AG957, a tyrosine kinase inhibitor with anti-BCR/ABL tyrosine kinase activity restores beta1 integrin-mediated adhesion and inhibitory signaling in chronic myelogenous leukemia hematopoietic progenitors. 982 45

Chronic myelogenous leukemia (CML) originates in a pluripotent hematopoietic stem cell of the bone marrow and is characterized by greatly increased numbers of granulocytes in the blood. Myeloid and other hematopoietic cell lineages are involved in the process of clonal proliferation and differentiation. After a period of 4-6 years the disease progresses to acute-stage leukemia. On the cellular level, CML is associated with a specific chromosome abnormality, the t(9; 22) reciprocal translocation that forms the Philadelphia (Ph) chromosome. The Ph chromosome is the result of a molecular rearrangement between the c-ABL proto-oncogene on chromosome 9 and the BCR (breakpoint cluster region) gene on chromosome 22. Most of ABL is linked with a truncated BCR. The BCR/ABL fusion gene codes for an 8-kb mRNA and a novel 210-kDa protein which has higher and aberrant tyrosine kinase activity than the normal c-ABL-coded counterpart. Phosphorylation of a number of substrates such as GAP, GRB-2, SHC, FES, CRKL, and paxillin is considered a decisive step in transformation. An etiological connection between BCR/ABL and leukemia is indicated by the observation that transgenic mice bearing a BCR/ABL DNA construct develop leukemia of B, T, and myeloid cell origin. CML cells proliferate and expand in an almost unlimited manner. Adhesion defects in bone marrow stromal cells have been proposed to explain the increased number of leukemic cells in the peripheral blood. However, findings of our laboratory have shown that the BCR/ABL chimeric protein that is expressed in transfected cells may, under certain conditions, also increase the adhesion to fibronectin via enhanced expression of integrin. Our previous immunocytological studies on the expression of beta1 and beta2 integrins have found no qualitative differences between normal and CML hematopoietic cells in vitro. Even long-term-cultured CML bone marrow or blood cells continuously express those adhesion molecules that are characteristic of the cytological type. Recent experiments indicate that certain early CML progenitors may adhere to the stromal layer in vitro similarly to their normal counterparts. They cannot be completely removed by long-term culture on allogeneic stromal cells. At present, the only curative therapy is transplantation of allogeneic hematopoietic stem cells. Based on the molecular and cellular state of knowledge of CML, new therapies are being developed. BCR/ABL antisense oligonucleotides, inhibitors of tyrosine kinase, peptide-specific adoptive immunotherapy or peptide vaccination, and restoration of hematopoiesis by autologous stem cell transplantation following CML cell purging are examples of important approaches to improving CML treatment.
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PMID:Chronic myelogenous leukemia: molecular and cellular aspects. 987 25

Chronic myeloid leukemia (CML) is a hematopoietic stem cell disorder that is characterized by splenomegaly and marked elevation of the blood leukocyte count with granulocyte in maturity. Ph chromosome was identified in CML in 1960 and was found to clearly result from reciprocal translocation between chromosome 9 and chromosome 22 (t(q;22)) (q34;q11). CML arises from a single pluripotent hematopoietic stem cell with the Ph chromosome and demonstration of the Ph chromosome in blood or marrow cells establishes and unequivocal diagnosis of CML. The Ph chromosome is recognized as the cytogenetic result of a rearrangement of the ABL gene on chromosome 9 and the BCL gene on chromosome 22, which leads to the creation of a BCR/ABL fusion gene on chromosome 22. Abnormal ABL-related protein with increased tyrosine kinase activity suggested a molecular mechanism of CML. The BCR/ABL fusion gene can be found not only in the chromosome but in interphase nuclei by fluorescence in situ hybridization (FISH). We employed both fluorescence activated cell sorter (FACS) and FISH to study the lineage involvement of individual stem cells and progenitor cells in patients with CML. Evidence of BCR/ABL fusion was found in pluripotent stem cells (CD34+, Thy1+), myeloid cells, B progenitor cells (CD34+, CD19+) and T/NK progenitor cells (CD34+, CD7+, CD5+) but not mature T cells (CD3+) or natural killer cells (CD3-, CD56+). These data suggested that BCR/ABL gene fusion occurs in pluripotent stem cells and that Ph+ T cells and natural killer cells are eliminated during differentiation.
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PMID:[Progress in laboratory medicine in chronic myeloid leukemia]. 991 8

A double Philadelphia chromosome (Ph)-positive leukemia cell line with common-B cell phenotype, designated TMD5, was established from the blast cells of a patient with double Ph-positive acute lymphoblastic leukemia. TMD5 cells expressed 190 kDa BCR/ABL chimeric protein and 145 kDa ABL protein. The cells proliferated without added growth factors. Autocrine growth mechanism was not recognized. The addition of growth factors such as G-CSF, GM-CSF, IL-3, IL-6, or Stem Cell Factor did not affect the growth. Herbimycin A suppressed the growth of TMD5 cells at the low concentration that did not affect Ph-negative cells. It suppressed tyrosine phosphorylation of intracellular proteins in TMD5 cells. Dexamethasone and dibutyryl cyclic AMP also suppressed the growth. They, however, did not affect the phosphorylation significantly. Neither all-trans retinoic acid nor interferon-alpha affected the growth. TMD5 cells, characterized minutely here and rare in that they have double Ph chromosomes, will be a useful tool for the study of Ph-positive leukemia.
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PMID:Establishment of a double Philadelphia chromosome-positive acute lymphoblastic leukemia-derived cell line, TMD5: effects of cytokines and differentiation inducers on growth of the cells. 1007 Oct 78

The factor-independent Dami/HEL and Meg-01 and factor-dependent Mo7e leukemic cell lines were used as models to investigate JAK/STAT signal transduction pathways in leukemic cell proliferation. Although Dami/HEL and Meg-01 cell proliferation in vitro was independent of and unresponsive to exogenous cytokines including granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-3 (IL-3), IL-6, thrombopoietin (TPO), and tumor necrosis factor-alpha (TNF-alpha), the growth of Mo7e cells was dependent on hematopoietic growth factors. When these cell lines were cultured in medium without cytokines, a constitutively activated STAT-like DNA-binding factor was detected in nuclear extracts from both Dami/HEL and Meg-01 cells. However, the STAT-like factor was not detectable in untreated Mo7e cells, but was activated transiently in Mo7e cells in response to cytokine treatments. The constitutively activated and cytokine-induced STAT-like DNA-binding factor in these three cell lines was identified as STAT5 by oligonucleotide competition gel mobility assays and by specific anti-STAT antibody gel supershift assays. Constitutive activation of JAK2 also was detected in the factor-independent cell lines, but not in Mo7e cells without cytokine exposure. Meg-01 cells express a p185 BCR/ABL oncogene, which may be responsible for the constitutive activation of STAT5. Dami/HEL cells do not express the BCR/ABL oncogene, but increased constitutive phosphorylation of Raf-1 oncoprotein was detected. In cytokine bioassays using growth factor-dependent Mo7e and TF-1 cells as targets, conditioned media from Dami/HEL and Meg-01 cells did not show stimulatory effects on cell proliferation. Our results indicate that the constitutive activation of JAK2/STAT5 correlates with the factor-independent growth of Dami/HEL and Meg-01 cells. The constitutive activation of JAK2/STAT5 in Dami/HEL cells is triggered by a mechanism other than autocrine cytokines or the BCR/ABL oncoprotein.
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PMID:Constitutive activation of the JAK2/STAT5 signal transduction pathway correlates with growth factor independence of megakaryocytic leukemic cell lines. 1009 Sep 48


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