UMLS:C0023418 - FACTA Search

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

LC-FeLV is a myc-containing strain of feline leukemia virus which induces thymic lymphosarcoma in the domestic cat with short latency. A locus in feline DNA, termed flvi-2, is commonly interrupted in naturally occurring and experimentally induced thymic lymphosarcomas containing LC-FeLV; thus, interruption of a gene encoded by flvi-2 may cooperate with the myc oncogene in the induction of T-cell tumors by LC-FeLV. Clones homologous to flvi-2 have been isolated from a normal human thymus cDNA library. Nucleotide sequence analysis of the cDNA clones demonstrates that flvi-2 encodes bmi-1, a gene previously identified as a target for MoMuLV integration and as a myc-collaborator in retrovirally-induced B-cell lymphomas in E mu-myc transgenic mice. In feline thymic lymphomas, retroviral integrations occur downstream of the gene, and result in enhanced expression of a bmi-1 transcript of normal size. These findings demonstrate the interruption of bmi-1 in natural as well as experimentally induced tumors, implicate the activation of bmi-1 in the induction of T-cell as well as B-cell lymphoma, and support the premise that bmi-1 functions as a myc collaborator.
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PMID:flvi-2, a target of retroviral insertional mutagenesis in feline thymic lymphosarcomas, encodes bmi-1. 839 36

The T17 v-myc oncogene was transduced by feline leukemia virus in a spontaneous feline T-cell lymphosarcoma. Molecular cloning and sequencing of the v-myc gene revealed several unique mutations, including a large deletion affecting amino acids 49 to 124 and a 3-bp insertion within the basic DNA binding domain which converts Leu-362 to Phe-Arg. The T17 lymphoma cell line was found to express a truncated 50-kDa Myc protein at exceptionally high levels, while the endogenous c-myc gene was not detectably expressed. These observations suggest that the mutant Myc product expresses an oncogenic function in T cells. Further evidence that the T17 mutant gene retains oncogenic potential was provided by its detection in clonally integrated proviruses in secondary tumors induced by feline leukemia virus T17, where no reversion mutations were found in any of three tumors examined. However, the mutant T17 v-myc gene did not induce transformation in a chicken embryo fibroblast assay, in contrast to wild-type feline c-myc, which conferred higher growth rates on the chicken fibroblasts, along with altered morphology and the ability to form foci in soft agar. Chicken cells over-expressing feline c-myc died by apoptosis when cultured with low serum concentrations, while the T17 mutant had no discernible effect. These results suggest that the leukemogenic potential of Myc can be uncoupled from its ability to cause transformation in fibroblasts. A possible explanation for this apparent paradox is that developing T cells are acutely sensitive to a subset of Myc functions which are insufficient for fibroblast transformation.
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PMID:Apparent uncoupling of oncogenicity from fibroblast transformation and apoptosis in a mutant myc gene transduced by feline leukemia virus. 855 76

Many retroviruses that carry oncogenes (acute transforming viruses) are generally replication-defective and therefore require co-infection with a replication competent 'helper' retrovirus for infectivity. The helper virus provides the retroviral proteins necessary for particle production and infection. These include the envelope glycoproteins that specifically bind to cell surface receptors and mediate viral adsorption and entry. Thus, a particular helper virus may influence the nature of disease induced by an oncogene-containing retrovirus due to tissue tropism of the helper. In a previous study, a replication-defective recombinant Moloney murine leukemia virus containing the v-myc oncogene was generated (M-MuLV(myc); Brightman B.K., Pattengale P.K., and Fan H., J Virol 60: 68-81, 1986). When M-MuLV(myc) was inoculated into mice using the non-pathogenic amphotropic murine leukemia virus (Am-MuLV 4070) as a helper, T- and B-lymphoblastic lymphomas resulted with the following two surface phenotypes, namely, (1) Thy 1.2+, B220- and (2) Thy 1.2-, B220+. Thy 1.2 surface antigen is characteristic of cells of the lymphoid lineage, whereas B220 surface antigen is characteristic of cells of the B-lymphoid lineage. In these experiments, to assess the influence of the helper virus on the disease specificity of M-MuLV(myc), two weakly pathogenic ecotropic helper MuLVs that interact with different cell surface receptors than Am-MuLV (Mo+PyF101 and AKV MuLV) were used to pseudotype M-MuLV(myc). In both cases, when inoculated into mice, these pseudotypes induced only T-lymphoblastic lymphoma. These results indicate that for M-MuLV(myc) the types of the tumors induced are influenced by the helper virus utilized, and they suggest that different lymphoid cells may express different levels of retroviral receptors.
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PMID:The helper virus envelope glycoprotein affects the disease specificity of a recombinant murine leukemia virus carrying a v-myc oncogene. 1145 Sep 49

Thymic lymphomas induced by Moloney murine leukemia virus (MMLV) have provided many examples of oncogene activation, but the role of tumor suppressor pathways in these tumors is less clear. These tumors display little evidence of loss of heterozygosity, and MMLV is only weakly synergistic with the Trp53 null genotype, suggesting that viral lymphomagenesis involves mechanisms which do not require mutational loss of Trp53 function. To explore this relationship in greater depth, we infected CD2-myc transgenic mice with MMLV and examined the role of Trp53 in the genesis of these tumors. Most (19 of 27) of the tumors from MMLV-infected, CD2-myc Trp53(+/-) mice retained the wild-type Trp53 allele in vivo while tumors of uninfected CD2-myc Trp53(+/-) mice invariably showed allele loss from a significant fraction of primary tumor cells. The functional integrity of the Trp53 gene in these tumors was indicated by ongoing allele loss or selection for mutational stabilization during in vitro propagation and by the radiosensitivity of selected Trp53(+/-) tumor cell lines. An inverse correlation was noted between retention of the wild-type Trp53 allele and expression of p19(ARF), providing further evidence of negative-feedback control of the latter by p53. However, expression of p19(ARF) does not appear to be counterselected in the absence of p53, and its integrity in Trp53(+/-) tumors was indicated by its transcriptional upregulation on Trp53 wild-type allele loss in vitro in selected tumor cell lines. The role of MMLV was investigated further by analysis of proviral insertion sites in tumors of CD2-myc transgenic mice sorted for Trp53 genotype. A proportion of tumors showed insertions at Runx2, an oncogene which has been shown to collaborate independently with CD2-myc and with the Trp53 null genotype, and at a novel common integration site (ptl-1) on chromosome 8. Genotypic analysis of the panel of tumors suggested that neither of these integrations is functionally redundant with loss of p53, but it appears that the combination of the MMLV oncogenic program with the CD2-myc oncogene relegates p53 loss to a late step in tumor progression or in vitro culture. While the means by which these tumors preempt the p53 tumor suppressor response remains to be established, this study provides further evidence that irreversible inactivation of this pathway is not a prerequisite for tumor development in vivo.
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PMID:Selection for loss of p53 function in T-cell lymphomagenesis is alleviated by Moloney murine leukemia virus infection in myc transgenic mice. 1155 12

Baicalin is a flavonoid compound isolated from Scutellaria baicalensis, a Chinese traditional medicinal herb, and is used as an anti-inflammatory, antibacterial, anxiolytic and hepatoprotective drug. Accumulating evidence has demonstrated that baicalin exhibits potent antitumor properties by suppressing cell growth, arresting cell cycle progression and inducing differentiation or apoptosis in leukemia cell lines. However, whether or not the extrinsic pathway is involved in baicalin-induced apoptosis of leukemia cells and the mechanisms underlying the antitumor activity of baicalin remain unclear. In the present study, the effect of baicalin on the expression of caspase-8, Fas cell surface death receptor (Fas) and Fas ligand in HL-60 cells was assessed, and it was demonstrated that the Fas-mediated extrinsic pathway was also involved in baicalin-triggered cell apoptosis, in addition to the intrinsic pathway. Furthermore, baicalin was able to inhibit the proliferation of HL-60 cells by arresting the cell cycle at the G₀/G₁ phase, and by down-regulating Myc proto-oncogene protein (c-Myc) along with its target gene, human telomerase reverse transcriptase. In summary, the results of the present study demonstrated that baicalin was able to inhibit the growth of HL-60 cells through blockade of the G₀/G₁ phase of the cell cycle, and significantly induce the apoptosis of cells by activating the intrinsic and extrinsic pathways. The inhibition of HL-60 cell growth was also demonstrated to be mediated by telomerase inhibition through suppression of c-Myc. The results of the present study highlight the possibility of baicalin as a promising regimen for the treatment of AML.
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PMID:The downregulation of c-Myc and its target gene hTERT is associated with the antiproliferative effects of baicalin on HL-60 cells. 2916 3

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