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)

The HOX-11 (TCL-3) gene, which is abnormally expressed in the leukemic cells of some patients with T-cell acute lymphoblastic leukemia, is a new member of the homeobox gene family. It is structurally altered by the t(10;14) chromosomal translocation, resulting in head-to-tail juxtaposition of HOX-11 with the T-cell receptor delta-chain gene. In order to understand the normal functions of HOX-11 and its role in T-cell leukemia, we have determined the exon-intron structure of the HOX-11 gene. By using oligonucleotide primers flanking an intron of the HOX-11 gene, we have developed a quantitative reverse transcription-polymerase chain reaction (RT-PCR) assay for the expression of HOX-11. We detected HOX-11 expression in multiple cell lineages including normal T cells and two T-cell lines in which the HOX-11 gene appeared to be unaltered in structure. Our results suggest that deregulation of the endogenous expression of HOX-11 in normal T cells represents an essential step towards the formation of this type of T-cell leukemia.
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PMID:Genomic organization of the putative human homeobox proto-oncogene HOX-11 (TCL-3) and its endogenous expression in T cells. 135 96

Abnormal expression of homeobox genes is one of the abnormalities associated with the development of murine and human leukemia. Myeloid leukemic cells that can be induced to differentiate to mature cells by interleukin 6 were stably transfected with an activated Hox-2.4 homeobox gene. Expression of the Hox-2.4 gene in the transfected clones inhibited specific pathways of the myeloid differentiation program induced by interleukin 6. The expression of some genes associated with differentiation was almost completely blocked, and the expression of other genes was either partially inhibited or not affected. The results support the hypothesis that abnormal expression of Hox-2.4 may contribute to the development of leukemia by interfering with the differentiation program.
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PMID:Inhibition of specific pathways of myeloid cell differentiation by an activated Hox-2.4 homeobox gene. 135 1

In the murine myelomonocytic leukemia WEHI-3B, proviral insertions have induced expression of the Hox-2.4 homeobox gene and the gene for the myeloid growth factor interleukin 3 (IL-3). To assess their potential oncogenic role, normal bone marrow cells were infected with retroviruses bearing the genes for IL-3 or IL-3 plus Hox-2.4. Unlike the IL-3 virus, the IL-3/Hox-2.4 virus was highly leukemogenic. Infected cells expressing both genes exhibited retarded differentiation in vitro, generated myelomonocytic cell lines, and provoked a rapid, transplantable myeloid leukemia in vivo. The oncogenic action of Hox-2.4 appears to derive from its ability to impede the IL-3-driven terminal differentiation of myeloid cells. The results suggest that homeobox genes can regulate key differentiation processes such as self-renewal capacity and that their inappropriate expression can be oncogenic.
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PMID:Homeobox gene expression plus autocrine growth factor production elicits myeloid leukemia. 197 23

The lineage and state of differentiation of cells in the mammalian haemopoietic compartment is associated with specific patterns of homeobox gene expression (EMBO J. 7, 2131, 1988). Agents which influence homeobox gene expression are thus of great interest in the study of human leukemias. Retinoic acid has direct regulatory actions on homeobox gene transcription (TIBS 158, 52, 1989; Differentiation 37, 773, 1988) and can induce select human leukemia cell lines to undergo terminal differentiation in vitro (Proc. natl Acad. Sci. U.S.A. 77, 2936, 1980). Retinoic acid is also a known teratogen for vertebrate foetal limb-bud development. Some of the teratogenic effects are duplicated by the drug Thalidomide (Embryopathic Activity of Drugs, Little Brown, Boston, p. 167, 1965; Haematological Cytology, Wolf Med. Pub. Ltd, London, p. 118, 1982). To investigate Thalidomide for other retinoid-like effects, we exposed cultures of human leukemia K562 cells to the metabolites generated in a Thalidomide hepatic-microsomal enzyme drug metabolizing system (Proc. natl Acad. Sci. U.S.A. 78, 2545, 1981). Here we report evidence that a single 2 h pulse-exposure to Thalidomide metabolites, induces K562 cells to undergo morphological differentiation in vitro. We also demonstrate a significant cytotoxic effect for these metabolites.
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PMID:Induction of morphological differentiation in the human leukemic cell line K562 by exposure to thalidomide metabolites. 201 4

The presence of an altered Hox-2.4 gene in the WEHI3B murine myeloid leukemia suggests that homeobox genes may contribute to neoplasia. A survey of 31 leukemia cell lines of the myeloid, lymphoid and erythroid lineages revealed that Hox-2.4 was expressed only in WEHI3B and the pre-B lymphoid line 70Z/3, in which no DNA rearrangement was observed. To clarify the WEHI3B alteration and normal Hox-2.4 structure, we have sequenced near full length cDNA clones from WEHI3B and 70Z/3, and the 5' portion of the normal Hox-2.4 gene. A WEHI3B cDNA clone demonstrates that an intracisternal A-particle (IAP) provirus has inserted within the first exon of the gene and generated a Hox-2.4 mRNA with a 5' sequence derived from the IAP long terminal repeat. A remarkable degree of similarity found between the amino acid sequences of Hox-2.4 and Hox-3.1, which reside on different chromosomes, supports the notion that an ancient homeobox gene cluster has been duplicated and dispersed early in vertebrate evolution.
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PMID:Expression of Hox-2.4 homeobox gene directed by proviral insertion in a myeloid leukemia. 256 62

The HOX11 homeobox gene was identified via the translocation t(10;14) in T cell leukaemia. To determine the function of this gene in mice, null mutations were made using homologous recombination in ES cells to incorporate lacZ into the hox11 transcription unit. Production of beta-galactosidase from the recombinant hox11 allele in +/- mutants allowed identification of sites of hox11 expression which included the developing spleen. Newborn hox11 -/- mice exhibit asplenia. Spleen formation commences normally at E11.5 in hox11 -/- mutant embryos but the spleen anlage undergoes rapid and complete resorption between E12.5 and E13.5. Dying spleen cells exhibit molecular features of apoptosis, suggesting that programmed cell death is initiated at this stage of organ development in the absence of hox11 protein. Thus hox11 is not required to initiate spleen development but is essential for the survival of splenic precursors during organogenesis. This function for hox11 suggests that enhanced cell survival may result from the t(10;14) which activates HOX11 in T cell leukaemias, further strengthening the association between oncogene-induced cell survival and tumorigenesis.
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PMID:The Hox11 gene is essential for cell survival during spleen development. 755 17

Leukemia results from the accumulation of multiple genetic alterations that disrupt the control mechanisms of normal growth and differentiation. The use of inbred mouse strains that develop leukemia has greatly facilitated the identification of genes that contribute to the neoplastic transformation of hematopoietic cells. BXH-2 mice develop myeloid leukemia as a result of the expression of an ecotropic murine leukemia virus that acts as an insertional mutagen to alter the expression of cellular proto-oncogenes. We report the isolation of a new locus, Meis1, that serves as a site of viral integration in 15% of the tumors arising in BXH-2 mice. Meis1 was mapped to a distinct location on proximal mouse chromosome 11, suggesting that it represents a novel locus. Analysis of somatic cell hybrids segregating human chromosomes allowed localization of MEIS1 to human chromosome 2p23-p12, in a region known to contain translocations found in human leukemias. Northern (RNA) blot analysis demonstrated that a Meis1 probe detected a 3.8-kb mRNA present in all BXH-2 tumors, whereas tumors containing integrations at the Meis1 locus expressed an additional truncated transcript. A Meis1 cDNA clone that encoded a novel member of the homeobox gene family was identified. The homeodomain of Meis1 is most closely related to those of the PBX/exd family of homeobox protein-encoding genes, suggesting that Meis1 functions in a similar fashion by cooperative binding to a distinct subset of HOX proteins. Collectively, these results indicate that altered expression of the homeobox gene Meis1 may be one of the events that lead to tumor formation in BXH-2 mice.
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PMID:Meis1, a PBX1-related homeobox gene involved in myeloid leukemia in BXH-2 mice. 756 94

We have previously cloned two mouse homeobox genes Tlx-1 (T-cell leukemia homeobox gene-1) and a related gene Tlx-2 based on their homology to human HOX11, a putative proto-oncogene involved in human T-cell leukemia. We have mapped Tlx-1 to mouse chromosome 19 and Tlx-2 to chromosome 6 by linkage analysis using an interspecific backcross (C57BL/6J x Mus spretus) F1 x M. spretus. The proposed gene orders and genetic distances for Tlx-1 and Tlx-2 are centromere 19-Lpc-1-(25.53 cM)-Pltr-4-(5.32 cM)-Tlx-1- (3.19 cM)-Ins-1-(7.45 cM)-Xmv-18, and centromere 6-Tcrb-(12.90 cM)-Mltr-3-(10.75 cM)-Tlx-2-(18.42 cM)-Xmv-6.
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PMID:Genetic mapping of two mouse homeobox genes Tlx-1 and Tlx-2 to murine chromosomes 19 and 6. 769 66

Retroviruses induce myeloid leukaemia in BXH-2 mice by the insertional mutation of cellular proto-oncogenes or tumour suppressor genes. Disease genes can thus be identified by proviral tagging through the identification of common viral integration sites in BXH-2 leukaemia. Here, we describe a new approach for proviral tagging that greatly facilitates the identification of BXH-2 leukaemia genes. Using this approach, we identify three genes whose expression is activated by proviral integration in BXH-2 leukaemias; Hoxa7, Hoxa9, and a Pbx1-related homeobox gene, Meis1. Proviral activation of Hoxa7 or Hoxa9 is strongly correlated with proviral activation of Meis1 implying that Hoxa7 and Hoxa9 cooperate with Meis1 in leukaemia formation. These studies provide the first genetic evidence that Pbx1-related genes cooperate with Hox genes in leukaemia formation and identify a number of new murine myeloid leukaemia genes.
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PMID:Cooperative activation of Hoxa and Pbx1-related genes in murine myeloid leukaemias. 856 41

The HOX11/TCL3 homeobox gene was identified at the breakpoint region in pediatric T-cell acute lymphoblastic leukemia harboring 10q24 chromosomal translocations. We previously reported that primary murine bone marrow cells transduced ex vivo with a recombinant HOX11-containing retrovirus, MSCV-HOX11, gave rise to cell lines at high frequency having characteristics of early myeloid cells. Cell lines were also established from the bone marrow and spleen of transplant recipients sacrificed 5 months after engraftment with MSCV-HOX11-transduced bone marrow cells. These latter lines, which exhibited a more differentiated myelomonocytic phenotype, harbored proviruses encoding a smaller HOX11 protein. None of the mice that received HOX11-expressing bone marrow cells or myeloid cell lines developed leukemia during 6-month observation periods. Here, we report that two bone marrow transplant recipients eventually developed T-cell acute lymphoblastic leukemia-like malignancies at 7 and 12 months posttransplant, indicating that progression to a fully malignant state required additional mutations. One tumor synthesized full-length HOX11 whereas the other expressed the smaller version of the protein. The smaller HOX11 protein suffered a carboxyl-terminal truncation. We subsequently constructed MSCV-based retroviral vectors expressing deleted forms of HOX11 and identified an amino-terminal region that was dispensible for generation of myeloid cell lines having a similar phenotype as those induced by full-length HOX11. We thus conclude that regions near the amino and carboxyl termini of HOX11 are not essential for transforming function, nor do they appear to determine the lineage or stage of differentiation of the target cell for transformation.
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PMID:Transforming function of the HOX11/TCL3 homeobox gene. 900 May 79

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