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)

We recently showed that hemopoietic stem cells expressing the v-abl oncogene can cause leukemia when injected into lethally irradiated recipient mice. Progenitor cells expressing v-abl did not significantly contribute to disease development, and the leukemia was monoclonal in origin. By serially transplanting v-abl-transduced hemopoietic stem cells into normal, nonirradiated syngeneic recipients, we showed that multiple stem-cell clones do exist in some recipients. These cells fluctuated as normal stem cells do and could home to normal bone marrow. Based on the time course of disease, the recipients developed either an acute or a chronic phase of disorder. All recipients with the acute disease had stem-cell clones with random Abelson murine leukemia virus integration sites. All recipients with the chronic disorder had a specific Abelson murine leukemia virus integration site. We believe this abl-specific integration site, termed ASI, is important in abl-mediated stem-cell leukemogenesis.
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PMID:Chronic myeloproliferative disease induced by site-specific integration of Abelson murine leukemia virus-infected hemopoietic stem cells. 168 23

Chronic myelogenous leukemia and one type of acute lymphoblastic leukemia are characterized by a 9;22 chronosome translocation in which 5' sequences of the bcr gene become fused to the c-abl proto-oncogene. The resulting chimeric genes encode bcr/abl fusion proteins which have deregulated tyrosine kinase activity and appear to play an important role in induction of these leukemias. A series of bcr/abl genes were constructed in which nested deletions of the bcr gene were fused to the c-abl gene. The fusion proteins encoded by these genes were assayed for autophosphorylation in vivo and for differences in subcellular localization. Our results demonstrate that bcr sequences activate two functions of c-abl; the tyrosine kinase activity and a previously undescribed microfilament-binding function. Two regions of bcr which activate these functions to different degrees have been mapped: amino acids 1 to 63 were strongly activating and amino acids 64 to 509 were weakly activating. The tyrosine kinase and microfilament-binding functions were not interdependent, as a kinase defective bcr/abl mutant still associated with actin filaments and a bcr/abl mutant lacking actin association still had deregulated kinase activity. Modification of actin filament functions by the bcr/abl tyrosine kinase may be an important event in leukemogenesis.
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PMID:Activation of tyrosinase kinase and microfilament-binding functions of c-abl by bcr sequences in bcr/abl fusion proteins. 170 8

We report a mouse model with which to study leukemogenesis initiated by a specific genetic change introduced into a primary lymphoid-myeloid pluripotent stem cell. Fetal liver hemopoietic cells were infected with a high titer of helper-free Abelson murine leukemia virus (A-MuLV) and were used to reconstitute lethally irradiated mice. Two weeks later, progenies of a single primitive hemopoietic stem cell carrying a specifically integrated A-MuLV proviral DNA could be detected in both colony-forming units in spleen and myeloid colony-forming cells in the bone marrow. Beginning at 3 weeks after transplantation, the recipients developed elevated leukocyte counts, splenomegaly, and increase of blast cells in the peripheral blood. Multiple clones of A-MuLV-infected cells were infused into each recipient. However, in the same animal, DNA extracted from various affected organs and from factor-independent lymphoid and myeloid immortalized cells all contained an identical, specifically integrated proviral genome. The A-MuLV-infected stem cells differentiated into various lineages of hemopoietic cells. Our data show that the expression of the v-abl oncogene in a primary lymphoid-myeloid hemopoietic stem cell directly initiates leukemogenesis by stimulating factor-independent growth. The monoclonal-type disease development seen in these animals may require the occurrence of an additional genetic event.
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PMID:Leukemia initiated by hemopoietic stem cells expressing the v-abl oncogene. 199 61

The two major forms of the c-abl gene differ from their activated counterpart, the v-abl oncogene of the Abelson murine leukemia virus by the replacement of their N-terminal sequences with viral gag sequences. Overexpression of p150c-abl type IV in a retroviral vector similar to Abelson virus does not transform NIH 3T3 fibroblasts, even though it is expressed and myristoylated at levels comparable to pp160v-abl. Members of a nested set of deletion mutations of the N-terminus of c-abl type IV in this expression system will activate abl to transform murine fibroblasts. The smallest of these deletions, delta XB, efficiently transforms lymphoid cells in vitro and causes leukemia in vivo demonstrating that gag sequences are not necessary for abl-induced leukemogenesis. The delta XB mutation defines an N-terminal regulatory domain, which shares a surprising homology with chicken oncogene v-crk and phospholipase C-II. Although overexpression of the myristoylated form of c-abl does not transform cells, it nonetheless has a profound effect on cell growth.
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PMID:N-terminal mutations activate the leukemogenic potential of the myristoylated form of c-abl. 254 16

Our broad aims are to delineate oncogenic events in lymphoid neoplasia and to search for genes that control haemopoietic differentiation. To explore lymphoid neoplasia, we have constructed transgenic mice bearing different oncogenes coupled to the immunoglobulin heavy chain enhancer (E mu), to force expression within lymphocytes. The prototype E mu-myc mice are highly prone to lymphomagenesis, generating pre-B and B cell lymphomas. In their pre-neoplastic phase, E mu-myc expression perturbs B cell development, accelerating the accumulation of pre-B cells. Lymphomagenesis requires additional oncogenic events, such as ras activation, and can be reconstructed in vitro. Transgenic mice bearing the N-myc, N-ras, v-abl and bcr-v-abl oncogenes are also prone to tumours. A striking demonstration that oncogenes can perturb lineage commitment has emerged. Introduction of the v-raf gene into cloned E mu-myc transgenic B cells frequently led to a switch in haemopoietic lineage: the cells became macrophages. Two clues to this remarkable metamorphosis are that the macrophage lines produce a myeloid growth factor and most bear marked karyotypic alterations, perhaps indicating that the balance between a few critical lineage control genes has been disturbed. To explore the hypothesis that genes encoding the DNA-binding homeo box domain participate in haemopoiesis, cDNA libraries from haemopoietic sources were screened, and several distinct homeo box cDNAs were isolated. They revealed a complex pattern of expression among haemopoietic cell lines. These genes are attractive candidates for regulators of haemopoietic differentiation.
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PMID:Lymphoid neoplasia and the control of haemopoietic differentiation. 256 45

DNA of peripheral blood or bone marrow leukocytes from 8 normal subjects, 7 cases of acute lymphocytic leukemia (ALL), 2 of acute myelogenous leukemia (AML) and 1 of chronic myelogenous leukemia (CML), having been digested by endonuclease Eco RI or Pst I separately, was hybridized with the probes of 3' fragment (Pst I/Hind III) or 5' fragment (Hinc II/Pst I) of Abelson murine leukemia virus (A-MuLV) oncogene v-abl. The proto-oncogene c-abl, which is homologous to v-abl, was found amplified in 4 ALL, 1 CML and 1 AML. In one of these 4 ALL, c-abl was amplified even over 100 times. A new c-abl BamH I fragment with 6.7 kilobase pairs (kb) in length was observed in 2 ALL and 1 CML out of these 6 cases with amplification, but none of this fragment was found in the normal subjects or other leukemia patients. These 3 patients with the presence of 6.7 kb fragment were high risk ones and 2 of them had died, suggesting that 6.7 kb fragment be the index of poor prognosis. The amplification and rearrangement of c-abl imply the activation of proto-oncogene in leukemogenesis.
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PMID:[Amplification and rearrangement of proto-oncogene c-abl in human leukemia cells]. 321 75

The bcr/abl chimeric oncoprotein is considered to be implicated in the pathogenesis of Philadelphia chromosome-positive human leukemias. To investigate its biological function and the role in leukemogenesis in vivo, we generated transgenic mice expressing p210bcr/abl driven by the metallothionein promoter. Two of six founder mice and the transgenic progeny of one leukemic founder mouse developed leukemias several months after birth. Phenotypically, each leukemic mouse showed a thymic enlargement, a marked splenomegaly, and/or lymphnode swellings. Pathological examination revealed that leukemic cells were infiltrated in all tissues examined, especially in thymus, spleen, liver, and lymphnode. Expression of the p210bcr/abl transgene product and increased phosphorylation of cellular proteins in leukemic tissues were detected by the Western blot analysis. In addition, the expressed p210bcr/abl protein was demonstrated to possess an enhanced kinase activity by the in vitro immunecomplex kinase assay. These results indicate that hematopoietic precursor cells expressing the p210bcr/abl transgene product acquired a proliferative advantage and eventually developed leukemias in transgenic mice. The p210bcr/abl transgenic mice are considered to be an excellent animal model to investigate p210bcr/abl function and its role in leukemogenesis in vivo.
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PMID:[An animal model of leukemogenesis using transgenic mice]. 764 51

BCR/ABL tyrosine kinases are encoded by hybrid oncogene bcr/abl which is a result of t(9;22) reciprocal translocation. Bcr/abl oncogene is located on Philadelphia chromosome which is detectable in hematopoietic cells of more than 95% of patients with chronic myelogenous leukemia, and in some cases of acute lymphocytic leukemia (20-35%) and acute myeloblastic leukemia (5%). Because BCR/ABL tyrosine kinase is localized in the cytoplasm, cooperation with other cytoplasmic and nuclear molecules is necessary for the induction of leukemia. Identification of the molecular mechanisms involved in transduction of the oncogenic signal is likely to be useful in elucidating the molecular mechanisms of leukemogenesis and may eventually lead to the identification of novel targets for antileukemia therapy. One of the possible treatment--inhibition of bcr/abl oncogene expression by antisense strategy--is described below.
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PMID:[Molecular basis of chronic granulocytic leukemia: from test-tube to patient]. 806 3

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


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