Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0598766 (leukemogenesis)
4,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two forms of activated BCR/ABL proteins, P210 and P185, that differ in BCR-derived sequences, are associated with Philadelphia chromosome-positive leukemias. One of these diseases is chronic myelogenous leukemia, an indolent disease arising in hematopoietic stem cells that is almost always associated with the P210 form of BCR/ABL. Acute lymphocytic leukemia, a more aggressive malignancy, can be associated with both forms of BCR/ABL. While it is virtually certain that BCR/ABL plays a central role in both of these diseases, the features that determine the association of a particular form with a given disease have not been elucidated. We have used the bone marrow reconstitution leukemogenesis model to test the hypothesis that BCR sequences influence the ability of activated ABL to transform different types of hematopoietic cells. Our studies reveal that both P185 and P210 induce a similar spectrum of hematological diseases, including granulocytic, myelomonocytic, and lymphocytic leukemias. Despite the similarity of the disease patterns, animals given P185-infected marrow developed a more aggressive disease after a shorter latent period than those given P210-infected marrow. These data demonstrate that the structure of the BCR/ABL oncoprotein does not affect the type of disease induced by each form of the oncogene but does control the potency of the oncogenic signal.
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PMID:Differences in oncogenic potency but not target cell specificity distinguish the two forms of the BCR/ABL oncogene. 187 48

The Philadelphia (Ph) translocation t(9;22)(q34;q11) occurs frequently in chronic myeloid leukemia (CML) but is less common in acute lymphoblastic leukemia (ALL) and rare in acute myeloid leukemia (AML). In most cases of CML and some cases of Ph+ ALL the protooncogene ABL from 9q34 is translocated to the breakpoint cluster region (bcr) of the BCR gene at 22q11 to form a chimeric gene encoding a novel 210-kd protein (P210 BCR-ABL) with enhanced tyrosine kinase activity. In other patients with Ph+ ALL and Ph+ AML, the breakpoint probably occurs in the first intron of the BCR gene; this results in a smaller chimeric gene which encodes a P190 BCR-ABL. We studied a patient with AML (FAB M6) arising de novo who had a "masked" Ph chromosome in association with extensive karyotypic changes. The leukemic cells initially showed rearrangement of the bcr, presence of a hybrid mRNA, and expression of the P210 BCR-ABL. These changes were absent in remission. These results support the concept that the BCR-ABL chimeric gene plays a crucial role in leukemogenesis but suggest that factors other than the position of the breakpoint in the BCR gene determine the lineage of the target cell for malignant transformation.
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PMID:Rearrangement of the breakpoint cluster region and expression of P210 BCR-ABL in a "masked" Philadelphia chromosome-positive acute myeloid leukemia. 317 49

In order to clarify the function of P210 bcr/abl oncogene in leukemogenesis, IL-3 dependent murine hematopietic cell line, FDC-P2, was transfected with the plasmid containing cDNA of P210 bcr/abl oncogene (pGD'210) or murine IL-3 (pcDmIL3) by electroporation. Four out of five pGDH210 transfected clones as well as FDC-P2 transfected with pcDmIL3, acquired autonomous proliferation (i.e. lost the requirement for IL-3 supplementation). The expression of bcr/abl oncogene was weak in one clone, which remained dependent on IL-3. Unlike pcDmIL3 transfectants, which secrete IL-3 into the supernatant, IL-3 was not demonstrated in the culture supernatant of pGD'210 transfected FDC-P2. These finding suggest that P210 bcr/abl oncogene is directly associated with autonomous proliferation, which is the first process of leukemogenesis.
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PMID:Transfection of the bcr/abl oncogene into factor-dependent cells by electroporation: acquisition of autonomous proliferation. 807 Jul 54

We have developed a system for expressing bcr/abl genes in the mouse hematopoietic system utilizing retroviral gene transfer and bone marrow transplantation. Expression of the P210bcr/abl gene in mice gives rise to a spectrum of hematological malignancies, most prominently a myeloproliferative syndrome which closely resembles human chronic myelogenous leukemia (CML). Studies of this system and related systems in other laboratories have begun to yield insights into the pathophysiology of the human bcr/abl leukemias. The CML-like syndrome appears to be a consequence of infection of a multipotential hematopoietic progenitor target cell. The leukemic clone is difficult to transplant to secondary recipients, but undergoes evolution to acute leukemia. The P190 form of bcr/abl appears to be more potent in leukemogenesis than P210, but may also be associated with a CML-like picture upon infection of a multipotential target cell. There may be a spectrum of different chronic phase duration associated with different Bcr/Abl proteins, with bcr sequences influencing the rate of disease progression. In mice, duplication or alterations of the bcr/abl gene itself may constitute a major mechanism of disease progression.
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PMID:Disease progression in a murine model of bcr/abl leukemogenesis. 825 3

The products of the Philadelphia chromosome translocation, P210 and P190(BCR/ABL), are cytoplasmic protein tyrosine kinases that share the ability to transform hematopoietic cytokine-dependent cell lines to cytokine independence but differ in the spectrum of leukemia induced in vivo. We have analyzed the Janus kinase (JAK) and signal transducer and activator of transcription (STAT) pathways in hematopoietic cells transformed by Bcr/Abl. STAT5 and, to a lesser extent, STATs 1 and 3 were constitutively activated by tyrosine phosphorylation and induction of DNA binding activity in both P210 and P190(BCR/ABL)-transformed cells, but P190 differed in that it also prominently activated STAT6. There was low level tyrosine phosphorylation of JAKs 1, 2, and 3 in Bcr/Abl-transformed cells, but no detectable complex formation with Bcr/Abl, and activation of STAT5 by P210 was not blocked by two different dominant-negative JAK mutants. These results suggest that P210 and P190(BCR/ABL) directly activate specific STAT family members and may help explain their overlapping yet distinct roles in leukemogenesis.
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PMID:P210 and P190(BCR/ABL) induce the tyrosine phosphorylation and DNA binding activity of multiple specific STAT family members. 894 Jan 93

The activated tyrosine kinase, Bcr-abl, is implicated in a number of hematopoietic malignancies. The exact biological mechanism by which the kinases transforms cells is still not well delineated. Previous data has suggested that the inhibition of apoptosis and the deregulation of cell cycle progression as the result of P210Bcr-abl expression might contribute to leukemogenesis. In vitro systems in which Bcr-Abl is over-expressed have concluded that similar growth regulatory pathways are affected as a result of the expression of both P210 and P190Bcr-abl. Here, we utilized an in vitro P190Bcr-abl leukemia mouse model to dissect the early events that contribute to transformation by this isoform of Bcr-Abl. In this mouse model P190Bcr-abl is expressed as a low but physiologically relevant level in that all mice develop pre-B leukemia lymphomas. We show that cell cycle and apoptotic responses to DNA damage are intact in bone marrow and spleen cells of such animals. We also demonstrate a normal induction of p21WAF-1/CIP1 in both hematopoietic and non-hematopoietic tissue as a result of genotoxic stress. We suggest that P190Bcr-abl induced transformation is different than that of P210Bcr-abl.
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PMID:Early events in leukemogenesis in P190Bcr-abl transgenic mice. 1098 Jun 12

Chronic myelogenous leukemia (CML) is a biphasic neoplasm of the bone marrow that is precipitated by the Philadelphia chromosome, a t(9;22) balanced translocation that encodes a constitutively activated nonreceptor tyrosine kinase termed P210(BCR-ABL). This oncoprotein has several intracellular functions; however, the most important effect of P210(BCR-ABL) leading to cell transformation is phosphorylation of signaling molecules through a constitutively active tyrosine kinase domain. Despite extensive knowledge of the structure and functional domains of BCR-ABL, its precise function in transformation is not known. Progress has been hampered, in part, by the lack of relevant CML models, as cell culture and in vitro assays do not mimic the pathogenesis of CML. Recently, there has been significant progress toward improving murine models that closely resemble human CML. This has allowed researchers to evaluate critical functions of BCR-ABL and has provided a model to test the efficacy of therapeutic medications that block these pathways. Our laboratory has developed two intersecting research programs to better understand the functioning of P210(BCR-ABL) in leukemogenesis. In one approach, we have developed a murine CML model by transferring HSCs that express BCR-ABL from a retroviral vector. All recipients develop a rapidly fatal MPD that shares several important features with CML. This model has been extremely useful for studying the function of BCR-ABL in the pathogenesis of CML. A second approach utilizes a quantitative cell detachment apparatus capable of measuring small changes in cell adhesion to investigate the mechanism by which P210(BCR-ABL) causes abnormal cell binding. Altered cell adhesion may contribute to the imbalance between proliferation and self-renewal in the hematopoietic progenitor compartment. To better understand the role abnormal adhesion may play in the development of leukemia, we have attempted to correlate the effects of functional P210(BCR-ABL) mutants in regulating adhesion and oncogenicity.
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PMID:The biology of chronic myelogenous leukemia:mouse models and cell adhesion. 1247 8

The Bcr protein was originally identified because of its fusion to Abl as a consequence of the Philadelphia chromosome translocation found in chronic myelogenous and acute lymphoblastic leukemias. The Bcr moiety is essential for the transforming activity of the Bcr/Abl oncogene. In search of physiologically relevant Bcr and Bcr/Abl-interacting proteins, we performed an interaction screen in yeast using the entire Bcr protein as bait. We here report that the alpha catalytic subunit of protein kinase CKII strongly and specifically forms a complex with Bcr in yeast in mouse lysates. The region in Bcr responsible for CKIIalpha binding was localized to residues 242-413. CKIIalpha was previously shown to be involved in leukemogenesis and tumorigenesis using different experimental approaches including mouse models. Inhibition of Bcr/Abl P190 in lymphoma cells from Bcr/Abl transgenic mice using imatinib reduced CKIIalpha activity. A highly selective inhibitor of CKIIalpha, 4,5,6,7-tetrabromo-2-benzotriazole, inhibited the growth of murine lymphoid cells with induced P210 Bcr/Abl expression and of P190 lymphoma cells. Our results demonstrate that CKIIalpha plays an important role in the proliferation of Bcr/Abl expressing cells, and suggests that inhibitors of CKIIalpha may have therapeutic potential in the treatment of Bcr/Abl-positive leukemia patients.
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PMID:Protein kinase CKIIalpha interacts with the Bcr moiety of Bcr/Abl and mediates proliferation of Bcr/Abl-expressing cells. 1461 49

Chronic myeloid leukemia (CML) is characterized by the expression of the P210 BCR/ABL fusion protein. The molecular mechanisms behind this oncogene-mediated hematological disease are, however, not fully understood. Here, we describe the establishment and phenotypic characterization of U937 cells in which P210 BCR/ABL can be conditionally expressed using tetracycline. The induction of BCR/ABL in the obtained clones resulted in a rapid phosphorylation of the STAT1, STAT3 and STAT5 molecules, consistent with the findings in other model systems. Phenotypic characterization of the clones revealed that BCR/ABL induces a slight decrease in the proliferation and viability, without a marked effect on cell cycle distribution, the rate of apoptosis or on cellular differentiation, as judged by several cell surface markers and capacity to reduce nitro blue tetrazolium. Interestingly, BCR/ABL was found to upregulate the expression of carcinoembryonic-related antigen (CEA)CAM1 (CD66a), which is a plasma membrane-linked glycoprotein belonging to the CEAs and involved in signal transduction and cellular adhesion. The expression of CEACAM1 was reversible upon imatinib treatment in BCR/ABL-expressing U937 cells as well as in BCR/ABL-positive K562 cells. The established cell lines may prove useful in further modeling and dissection of BCR/ABL-induced leukemogenesis.
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PMID:Establishment and phenotypic characterization of human U937 cells with inducible P210 BCR/ABL expression reveals upregulation of CEACAM1 (CD66a). 1471 93

To develop murine models of leukemogenesis, a series of transgenic mice expressing BCR-ABL in different hematopoietic cell subsets was generated. Here we describe targeted expression of P210 BCR-ABL in stem and progenitor cells of murine bone marrow using the tet-off system. The transactivator protein tTA was placed under the control of the murine stem cell leukemia (SCL) gene 3' enhancer. Induction of BCR-ABL resulted in neutrophilia and leukocytosis, and the mice became moribund within 29 to 122 days. Autopsy of sick mice demonstrated splenomegaly, myeloid bone marrow hyperplasia, and extramedullary myeloid cell infiltration of multiple organs. BCR-ABL mRNA and protein were detectable in the affected organs. Fluorescence-activated cell sorter (FACS) analysis demonstrated a significant increase in mature and immature myeloid cells in bone marrow and spleen, together with increased bilineal B220+/Mac-1+ cells in the bone marrow. tTA mRNA was expressed in FACS-sorted hematopoietic stem cells expanded 26-fold after BCR-ABL induction. Thirty-one percent of the animals demonstrated a biphasic phenotype, consisting of neutrophilia and subsequent B-cell lymphoblastic disease, reminiscent of blast crisis. In summary, this mouse model recapitulates many characteristics of human chronic myeloid leukemia (CML) and may help elucidate basic leukemogenic mechanisms in CML stem cells during disease initiation and progression.
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PMID:Inducible chronic phase of myeloid leukemia with expansion of hematopoietic stem cells in a transgenic model of BCR-ABL leukemogenesis. 1533 42


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