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)

Avian myeloblastosis virus (AMV) is an oncogenic retrovirus that rapidly causes myeloblastic leukemia in chickens and transforms myeloid cells in culture. AMV carries an oncogene, v-myb, that is derived from a cellular gene, c-myb, found in the genomes of vertebrate species. We constructed a plasmid vector that allows expression of a portion of the coding region for v-myb in a procaryotic host. We then used the myb-encoded protein produced in bacteria to immunize rabbits. The antisera obtained permitted identification of the proteins encoded by both v-myb and chicken c-myb. The molecular weights of the products of v-myb and c-myb (45,000 and 75,000 respectively) indicate that the v-myb protein is an appreciably truncated version of the c-myb protein.
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PMID:The product of the retroviral transforming gene v-myb is a truncated version of the protein encoded by the cellular oncogene c-myb. 630 4

Analysis of the subcellular location of the proteins encoded by the oncogenes of avian myeloblastosis virus and avian leukemia virus E26 ( p45v -myb and p135gag -myb-ets, respectively) and by the chicken c-myb gene ( p75c -myb) shows that all three proteins are located in the nucleus. In AMV-infected (but not transformed) chicken fibroblasts p45v -myb also resides in the nucleus, indicating that a nuclear location of p45v -myb in these cells is not sufficient to achieve transformation. In AMV-transformed myeloblasts a small fraction of p45v -myb occupies an additional site in the perinuclear region of the cytoplasm. If the myeloblasts are caused to differentiate to macrophages, most of p45v -myb is found in the cytoplasm. This redistribution of p45v -myb within the cell may be responsible for reversion of the transformed phenotype.
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PMID:Subcellular localization of proteins encoded by oncogenes of avian myeloblastosis virus and avian leukemia virus E26 and by chicken c-myb gene. 632 74

Expression of endogenous retrovirus genes and two different cellular oncogenes (c-onc genes) was examined at the transcriptional level in a variety of normal and lymphoma/leukemia tissues of the domestic cat. The two oncogenes, c-myb(related to avian myeloblastosis virus) and c-myc(related to avian myelocytomatosis virus) were selected for their association with the induction of hematopoietic malignancies, when present in the transforming retroviruses. Tissue-specific expression of endogenous feline leukemia virus (FeLV)-related genes was detected in cellular subpopulations of the cat placenta by in situ method of hybridization. Gel blotting analysis of placental poly(A)-selected RNA revealed that the FeLV-related RNA species were primarily subgenomic, representing the env gene region of the endogenous provirus elements. Like the endogenous retrovirus genes, c-myb and c-myc loci of the cat genomic DNA were also transcribed at differential levels in normal tissues of the cat. Dot-blot hybridization analysis showed that the expression of these two oncogenes was linked to growth and development as it varied with the gestational age of the fetus and from fetal to adult tissues. Among the major hematopoietic organs, spleen and bone marrow contained both c-myb and c-myc transcripts, while thymus preferentially expressed the c-myb gene. In contrast to the low level of c-myc expression in fetal thymus tissues, enhanced c-myc expression was detected in all five thymomas tested and also in several other neoplasms including two granulocytic leukemias. The feline c-myb gene was not very active in granulocytic leukemias or in three of the five thymomas. RNA gel blotting analysis of poly(A)-selected RNA of a thymoma and its lymph node metastasis showed identical pattern of c-myc transcripts.
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PMID:Characterization of the expression of cellular retrovirus genes and oncogenes in feline cells. 632 34

Total cellular polyadenylated RNA from a variety of fresh human lymphoma and leukemia cells, characterized by histopathology and certain cell surface markers, was analyzed for the expression of three distinct cellular oncogenes (c-onc genes), c-erbB, c-myc and c-myb by dot-blot hybridization assays. Probes used were molecularly cloned DNA containing the respective oncogene sequence of avian erythroblastosis virus, myelocytomatosis virus (MC29) and myeloblastosis virus. All lymphoma-leukemia cells irrespective of B, T or non-B/non-T lymphocyte lineage expressed the c-erbB locus. This gene was also found to be active in normal peripheral blood lymphocytes and lymphocytes from lymph nodes showing reactive hyperplasia. This observation suggested that c-erbB might be normally involved in cell growth functions since it was not unique to hematopoietic malignancies. In contrast to c-erbB, elevated expressions of c-myc or c-myb were detected in certain neoplasms of B-lymphocytes and some other lymphoproliferative disorders as compared to the majority of the samples tested which showed either low or undetectable levels of these transcripts. An examination of B-cell lymphomas and leukemias in which the majority of the cellular populations expressed either Kappa or lambda surface lg light chain molecules revealed variations in the levels of c-onc transcripts within a morphologic and immunologic subtype. These findings support the notion that, in general, genetic heterogeneity exists in groups of hematopoietic proliferations defined by conventional histopathologic and immunologic criteria. Although with the majority of the specimens there was no obvious correlation between the morphologic cell type of lymphoma/leukemia and the c-onc RNA levels, interestingly two of the three samples diagnosed as chronic lymphocytic leukemia, B-cell type, showed considerably increased transcription of the c-myc gene relative to the other B-cell neoplasms. Thus a class of differentiated B-cell leukemia has been identified in which the molecular mechanisms which affect c-myc gene expression can now be investigated.
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PMID:Differential expression of c-erbB, c-myc and c-myb oncogene loci in human lymphomas and leukemias. 660 29

Three types of tumors termed plasmacytomas (ABPC's), lymphosarcomas (ABLS's), and plasmacytoid lymphosarcomas (ABPL's) arise in BALB/c mice treated with pristane and Abelson murine leukemia virus (A-MuLV). While most ABPC's and BLS's contain integrated A-MuLV proviral genome and synthesize the v-abl RNA, most ABPL's do not. The ABPL tumors were examined for the expression of other oncogenes that may be associated with their transformed state, in the absence of transforming virus. These tumors expressed abundant c-myb RNA of unusually large size and showed DNA rearrangements of the c-myb locus.
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PMID:DNA rearrangement and altered RNA expression of the c-myb oncogene in mouse plasmacytoid lymphosarcomas. 668 62

Chronic myelogenous leukemia (CML) cell growth may be inhibited by exposure to antisense (AS) oligodeoxynucleotides (ODN). Our initial studies targeted the c-myb protooncogene and were carried out on cells derived from patients in CML blast crisis. Subsequently, we extended these studies to cells isolated from patients in chronic disease phase. We found that c-myb AS ODN inhibited growth of CML CFU-GM in a dose dependent, sequence specific manner in approximately 75% of cases evaluated. Bcr-abl expression was either greatly decreased or nondetectable in the residual colonies and no residual leukemic CFU were demonstrable upon re-plating of treated cells. AS ODN that target the c-kit protooncogene also inhibit CML CFU and lead to downregulation of bcr-abl in responding cells in approximately 50% of cases. Therefore, AS ODN may prove to be useful purging agents. Most recently, we have treated SCID mice engrafted with bcr-abl expressing human K562 cell leukemia with phosphorothioate modified AS ODN. We have found that treated mice survive three to eight times longer than their untreated or sense treated controls. In aggregate, these results suggest that AS ODN may prove useful for both ex vivo and in vivo treatment of patients with CML.
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PMID:Potential therapeutic applications of antisense oligodeoxynucleotides in the treatment of chronic myelogenous leukemia. 750 43

As the cell and molecular biology of hematopoietic cell development becomes known in greater detail, the roles of individual genes in regulating cell proliferation and growth also become better appreciated. Some genes appear to be of particular importance in these complex processes and are therefore potential targets for molecularly based therapeutics. The rationale for such treatment is that, if the function of critical genes can be efficiently and specifically perturbed, then the ensuing disruption might lead to preferential leukemic cell death. Several technologies for carrying out targeted gene disruption now exist. One approach, the "antisense" gene strategy, appears to be particularly well suited to the treatment of human leukemia ex vivo and perhaps in vivo as well. Herein I review the experience of my laboratory in using this approach to target the c-myb and c-kit proto-oncogenes in human leukemic cells. Our results suggest that use of oligodeoxynucleotides for disrupting the function of specific genes may prove useful for both ex vivo and in vivo treatment of patients with hematopoietic malignancies.
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PMID:Oligodeoxynucleotide-based therapeutics for human leukemias. 750 59

Steel factor (SF) synergizes with a variety of hemopoietins to support the growth and differentiation of human progenitor cells. The human factor-dependent cell line MO7 has been used as a model to study the interaction of SF with other growth factors such as GM-CSF, because both factors support the proliferation of this cell line and are synergistic in combination. Previous studies have shown that this effect is not readily explained by the synergistic activation of early, cytosolic signal transduction intermediates such as tyrosine kinases, Raf-1, MAP2 kinase, or phospholipase C gamma. In an attempt to further explore the biological and biochemical mechanisms of the synergy between SF and GM-CSF, we examined the effects of these growth factors on the regulation of nuclear proto-oncogenes, cell cycle control genes, and G1-->S transition of MO7 cells. Individually, GM-CSF was a much more potent growth factor for MO7 cells than SF, particularly under serum-free conditions. Only GM-CSF, but not SF, was able to stimulate G1-->S transition of MO7 cells after factor deprivation for 24 h. Northern blot analyses showed also differential effects of GM-CSF and SF on the expression of some nuclear proto-oncogenes and G1 cyclins. GM-CSF (10 ng/ml), but not SF (20 ng/ml) increased the expression of c-myc and cyclin D2 mRNA, whereas both factors caused transient increases of c-fos and cyclin D3 mRNAs. When added simultaneously, GM-CSF and SF induced an at least additive increase of c-fos mRNA expression; this effect required the presence of fetal calf serum. No additive effects of GM-CSF and SF on c-myc, cyclin D2 or D3 mRNA expression were observed. C-jun and c-myb mRNAs were constitutively expressed in the MO7 cell line, but not further increased after stimulation with GM-CSF or SF for 15 min to 48 h. The inability of SF to induce growth promoting genes such as c-myc and cyclin D2 may explain why this cytokine does not support sustained proliferation of MO7 cells. These observations suggest that SF and GM-CSF exert different effects on the expression of genes involved in regulatory pathways of cell proliferation, but the molecular mechanism of synergy remains to be elucidated.
Leukemia 1994 May
PMID:Signal transduction of steel factor and granulocyte-macrophage colony-stimulating factor: differential regulation of transcription factor and G1 cyclin gene expression, and of proliferation in the human factor-dependent cell line MO7. 751 43

Moloney murine leukemia virus (M-MuLV) is capable of inducing promonocytic leukemia in 50% of adult BALB/c mice that have received peritoneal injections of pristane, but Friend MuLV strain 57 (F-MuLV) is nonleukemogenic under similar conditions. It was shown earlier that these differences could not be mapped to the U3 region of the virus long terminal repeat, indicating the probable influence of structural genes and/or R-U5 sequences. In this study, reciprocal chimeras containing exchanged structural genes and R-U5 sequences from these two closely related viruses were analyzed for differences in ability to induce disease. Results showed that two regions of F-MuLV, psi-gag-PR and env, when substituted for those of M-MuLV were dramatically disease attenuating. The 5'-most region, which is widely distributed, overlaps with the 5' end of the env intron and includes the RNA packaging region, psi, the entire gag coding region, and the viral protease coding region (PR) of pol. It was also found that reciprocal constructs having substitutions of both of these regions of M-MuLV in an F-MuLV background allowed full reestablishment of promonocytic leukemia. These leukemias were positive for c-myb rearrangements which are characteristic of M-MuLV-induced promonocytic leukemias. Neither region alone, however, was sufficient to produce disease with a greater incidence than 13%. Further studies demonstrated that the inability of viruses with psi, gag, PR, or env sequences from F-MuLV to induce leukemia in this model system was not due to their inability to replicate in hematopoietic tissue, to integrate into the c-myb locus early on after infection in vivo, or to express gag-myb mRNA characteristic of M-MuLV-induced preleukemic cells and acute leukemia.
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PMID:Different abilities of Friend murine leukemia virus (MuLV) and Moloney MuLV to induce promonocytic leukemia are due to determinants in both psi-gag-PR and env regions. 751 30

Failed surface expression of the complement decay-accelerating factor (DAF) due to mutation of the PIG-A gene is a hallmark of affected paroxysmal nocturnal haemoglobinuria (PNH) blood elements. Previous findings that acute myelogenous leukaemia (AML) blasts evolving in a PNH patient differed from idiopathic AML blasts in that they exhibited DAF negativity suggested that the leukaemic blasts derived from an affected PNH cell. To investigate whether these cells differ from untransformed PNH cells in PIG-A genetic alterations or in DAF mRNA processing, or are distinguishable from conventional AML blasts in proto-oncogene activation or chromosomal structure, their DNA and RNA were examined using PIG-A, DAF and proto-oncogene probes and their karyotype was analysed. Analyses of the PIG-A genome revealed dual exchanges of A1110-->G and T1130-->A resulting in conversions of T370 to R and I377 to N in the coding region but no deletions or rearrangements. Investigations of DAF mRNA processing showed mRNA species differing in 3' UT regions from those in untransformed cells but similar to those in DAF-positive leukaemia cell lines. Studies of c-myb, c-myc, c-fos and c-fms showed no gross genetic alterations, amplifications or variations in mRNA transcripts deriving from these genes. Karyotypic analysis showed no alterations. The results indicate that in AML blasts evolving in PNH: (1) the PIG-A genome exhibits multiple point mutations but no gross genetic changes; (2) DAF mRNA transcripts exhibit differentiation-dependent variations that do not affect GPI-anchoring; (3) c-myb, c-myc, c-fos and c-fms activation show no differences from idiopathic AML; and (4) no karyotypic abnormalities are associated with AML transformation.
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PMID:PIG-A, DAF and proto-oncogene expression in paroxysmal nocturnal haemoglobinuria-associated acute myelogenous leukaemia blasts. 753 Apr 80


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