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:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel erythroid cell line, RM10, was established from a long-term bone marrow culture of a patient with chronic myelogenous leukemia (CML). RM10 cells were positive for periodic acid Schiff (PAS), but negative for peroxidase and dual esterase. RM10 cells had la, pre B (CD10), myeloid (CD13, CD14, CD33) and erythroid (glycophorin A) markers, but had no other lymphoid, megakaryocytic, or mesenchymal cell markers. RM10 cells spontaneously synthesized hemoglobin, which was markedly enhanced with hemin. Isoelectric focusing of the cell lysates and northern blot analysis of the total cellular RNA revealed hemoglobin synthesis in the cells. Using 125I-labeled recombinant human erythropoietin (Epo), two classes of Epo receptors were demonstrated in the RM10 cells. However, Epo did affect neither growth nor erythroid differentiation of the cells. RM10 cells rapidly differentiated to monocytic cells in the presence of 12-0-tetradecanoylphorbol-13-acetate, and simultaneously expressed glycoprotein IIb/IIIa. RM10 cells had Philadelphia chromosome (Ph), and expressed p210bcr-abl using immunoprecipitation with anti-c-abl and anti-phosphotyrosine antibodies. These results indicate that the RM10 cells have the characteristics of multipotential hemopoietic cells originating from Ph-positive CML and that high affinity Epo receptor class is not a sufficient condition for Epo responsiveness.
Leukemia 1990 May
PMID:A novel CD10-positive erythroid cell line, RM10, established from a patient with chronic myelogenous leukemia. 216 10

Activation of the c-abl protooncogene occurs in Abelson murine leukemia virus, in Hardy-Zuckerman 2 feline sarcoma virus, and during the chromosomal translocations that generate BCR-ABL gene fusion products. To study the molecular mechanism involved in the c-abl activation, we have created a series of modifications in murine c-abl and assayed these constructs for oncogenic activity using the NIH 3T3 cell transformation assay. Our results show that amino-terminal deletions are sufficient for oncogenic activation of c-abl and high levels of oncogenic activities were generated by a deletion of 114 codons from the 5' end that deleted the SH3 region. A deletion of 53 codons from the 5' end (inclusive of deletions seen in Hardy-Zuckerman 2 feline sarcoma virus and BCR-ABL gene products) that retains the SH3 region of c-abl resulted in the generation of low levels of transforming activity. This transforming potential was substantially increased with the introduction of a G----A point mutation in codon 832 that is present in v-abl. The point mutation was found to affect the secondary structure and the tyrosine kinase activity of the mutant gene products.
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PMID:Activation of murine c-abl protooncogene: effect of a point mutation on oncogenic activation. 216 50

We have introduced a substitution mutation into the c-abl locus of murine embryonic stem cells by homologous recombination between exogenously added DNA and the endogenous gene. Model constructs were initially generated that consisted of a promoterless selectable neomycin resistance marker inserted into the v-abl gene of the complete Abelson murine leukemia virus genome, designed to be expressed either as a fusion protein or by translational restart. Tests of these viral genomes for transmission of v-abl and neo markers showed more stable coexpression in a protein fusion construct. The neo fusion was subcloned from this v-abl construct into a promoterless c-abl fragment, and the resulting DNA was used to transform embryonic stem cells. Direct screening of genomic DNAs showed that a high proportion of drug-resistant clones arose from homologous recombination into the endogenous c-abl locus.
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PMID:Targeted gene disruption of the endogenous c-abl locus by homologous recombination with DNA encoding a selectable fusion protein. 218 26

The Philadelphia translocation results in the expression of a family of chimaeric proteins in which a portion of the bcr protein is fused to c-abl protein. Using antibodies which recognize different portions of the bcr gene and abl gene products we have compared the normal bcr products with their chimaeric counterparts. We first conclude that the enhanced kinase activity of the rearranged bcr-abl products (p210 and p190) is recovered almost exclusively from the cytosolic fraction. This methodology was confirmed by the demonstration that in cells transformed by the Abelson murine leukemia virus (A-MuLV) the gag-abl kinase activity was recovered equally from the membrane and cytosolic fractions, in agreement with previous studies. To determine whether the distribution of kinase activity reflected the bulk distribution of the bcr-abl proteins, in vivo labeling followed by subcellular fractionation was performed. Both normal bcr proteins and the p210 bcr-abl protein were recovered from the cytosolic fraction with little detectable amounts present in other fractions. In vivo labeling was also used to demonstrate that both normal bcr products and the p210 bcr-abl had a relatively long half-life. It is concluded that bcr-abl products, like normal bcr products are located in the cytosolic fraction.
Leukemia 1990 Nov
PMID:BCR-ABL and BCR proteins: biochemical characterization and localization. 223 85

The Philadelphia (Ph1) chromosome (22q-), found in more than 90% of patients with chronic myeloid leukemia (CML), is one part of a reciprocal translocation, t(9;22) (q34;q11), in which the oncogene c-abl moves from 9q34 to 22q11. The translocation results in the translation of an aberrant abl-related protein with tyrosine kinase activity. Genetically active genes are known to have chromatin which is hypersensitive to deoxyribonuclease I (DNase I) and to be hypomethylated. Using an in situ nick translation technique on metaphase chromosomes, we have examined DNase I sensitivity and methylation status at the breakpoints 9q34 and 22q11 in bone marrow cells from controls (two cases) and CML patients (three cases). In CML cells DNase I sensitivity was significantly increased, at both breakpoints, in the translocated chromosomes compared with their normal homologues in CML cells and with both homologues in control marrows. A hypermethylated site, seen at 22q11 in normal 22s was hypomethylated on 22q-. The 9q34 region was hypomethylated in normal and translocated chromosomes. DNase I sensitivity, seen at 22q13 in CML cells, was lost following translocation in one of three cases. This technique demonstrates alterations in chromatin conformation and methylation status at translocation breakpoints which may be related to acquired genetic activity at one or both of these sites.
Leukemia 1990 May
PMID:Possible evidence for acquired genetic activity at both chromosomal breakpoints of the Philadelphia translocation in chronic myeloid leukemia. 238 79

The hallmarks of chronic myelogenous leukemia (CML) include the Philadelphia chromosome (Ph) translocation [t (9;22)(q34;q11)] and consistent molecular genetic aberrations: a break within a restricted 5.8 kb DNA segment, bcr, on chromosome 22q11; transposition of the c-abl protooncogene from chromosome 9q34 to 22q11; and formation of a hybrid bar-abl gene encoding an abnormal 210 Kd bcr-abl protein with augmented tyrosine kinase enzymatic activity. These molecular phenomena may occur even in the absence of cytogenetic evidence of the Ph translocation. They are highly specific and sensitive markers for CML, and are presumed to play a significant role in the pathogenesis of this malignancy. Surprisingly, we have encountered 11 patients who lacked the Ph translocation, bcr rearrangement, and (in the four patients with available mRNA) a bcr-abl message, and yet had a disease phenotype at diagnosis that was a morphologic facsimile of classic chronic phase CML. These patients presented with high white blood cell counts, neutrophilia, occasional basophilia, splenomegaly, and a hypercellular bone marrow with granulocytic hyperplasia and a left shift in myeloid maturation. Despite the striking resemblance between the early stages of bcr-negative and bcr-positive CML, disease progression manifests distinctly in these two disorders. In contrast to the blastic transformation that inevitably complicates bcr-positive CML, the natural history of our 11 Ph-negative, bcr-negative CML patients was characterized by increasing leukemia burden with leukocytosis, pronounced organomegaly, extramedullary infiltrates, and eventual bone marrow failure (anemia and thrombocytopenia) without marked increases in blast cells. Our current observations suggest that a chronic myeloid leukemia process can develop without associated changes in the bcr or c-abl genes. Although the initial phase of this disease is indistinguishable from CML, the presence or absence of molecular markers may aid in the prediction of the clinical course of Ph-negative CML.
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PMID:Philadelphia chromosome-negative chronic myelogenous leukemia without breakpoint cluster region rearrangement: a chronic myeloid leukemia with a distinct clinical course. 240 27

Deletion and rearrangement of chromosome 2 were shown to be major cytogenetic characteristics of radiation-induced murine myeloid leukemias. Analysis of the localization of the murine protooncogene c-abl, previously assigned by Goff et al. to chromosome 2, was done using the in situ hybridization method. The c-abl was located close to the centromere, within bands 2A-2B. This site does not correspond to the common characteristic deleted segments (2C-2D) predominantly observed in radiation induced murine myeloid leukemias.
Leukemia 1990 Feb
PMID:Chromosomal mapping of the murine c-abl proto-oncogene by in situ hybridization. 240 16

Chronic myelogenous leukemia (CML) is a stem cell disease which, on a clinical level, progresses from the release from growth control of normally differentiated cells (a preleukemic state) to an acute leukemia. On a molecular level, the evolution of CML to acute leukemia is a multistep process. We propose that an early step, at the stem cell level, is acquisition of the ability for gene movement, which allows subsequent submicroscopic and chromosomal rearrangements that cause changes in the growth characteristics and regulation of the stem cell. A specific platelet DNA polymerase (PDP - reverse transcriptase) may play a role in gene movement. The characteristic reciprocal translocation of chromosomes #9 and #22, causing the activation of the c-abl oncogene, appears to be responsible for the uncontrolled cellular growth. Yet, other growth factors (e.g., platelet derived growth factor) and activated oncogenes (e.g., c-sis) must be responsible for the stimulation, progression, and variability seen during the course of the disease. Because CML is a progressive disease with clinically definable stages, CML appears to be a model system for the study of the molecular basis of the progression of preleukemia to leukemia specifically, and preneoplasia to aggressive neoplasia in general.
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PMID:Implications of retroviral and oncogene activity in chronic myelogenous leukemia. 243 4

In chronic granulocytic leukemia (CGL) the Philadelphia translocation results in the production of a novel 210 kDa bcr-abl fusion protein which shows increased tyrosine protein kinase activity in comparison with its normal 145 kDa c-abl counterpart. Using an immunoblotting method and antiphosphotyrosine antibody, we have identified the tyrosine protein kinase substrates present in intact cells from two Philadelphia-positive CGL derived cell lines (K562 and BV173) and compared these with the substrates present in a Philadelphia-negative myeloid cell line (HL60). We have demonstrated an increased number of substrates, particularly of low (less than 110 kDa) molecular weight in the K562 or BV173 cells compared with the HL60 cells. There is virtual identity of the substrates present in the two CGL-derived lines. This work supports the hypothesis that the functional changes present in the bcr-abl 210 kDa protein of CGL results in altered tyrosine phosphorylation of intracellular proteins and that this is of importance in the pathogenesis of CGL.
Leukemia 1987 Jun
PMID:Tyrosine protein kinase substrates in Philadelphia-positive human chronic granulocytic leukemia derived cell lines (K562 and BV173): detection by using an immunoblotting technique. 244 34

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


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