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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The translocation t(12;22)(p13;q11) has been consistently described in myeloid malignancies and shown to result from a fusion between the TEL and
MN1
genes. Previously described deletions of 12p in acute lymphoblastic leukemias have been recently shown to harbor undetected translocations involving the TEL gene at 12p13. We document a case of an aggressive chronic B-cell
leukemia
whose cells had trisomy 12 and two unbalanced translocations involving 12p13, including a t(12;22)(p13;q11) as shown by conventional cytogenetics and fluorescence in situ hybridization (FISH). The 12p13 breakpoint of the t(12;22)(p13;q11) was telomeric to the TEL gene, and the second unbalanced translocation with breakpoint 12p13 resulted in the deletion of TEL. This case demonstrates that TEL gene deletions may be relevant in cases of mature B-lymphoproliferative diseases.
...
PMID:Two unbalanced translocations, t(12;22)(p13;q11) and t(12;?)(p13;?), in an aggressive chronic B-cell leukemia: TEL gene analysis using FISH. 916 30
The ETV6/TEL gene has been reported to fuse to PDGFRbetab MDS1/EVI1, BTL, ACS2, STL, JAK2, ABL, CDX2, TRKC, AML1, and
MN1
. Among them, PDGFRbeta, ABL, JAK2, and TRKC are tyrosine kinases (TK). We identified a novel ETV6 partner gene, ARG (ABL-related gene or ABL2), another TK gene in a cell line established from a patient with acute myelogenous leukemia (AML-M3) with a t(15;17)(q22;q11.2) and a t(1;12)(q25;p13), which has the remarkable feature to differentiate to mature eosinophils in culture with all-trans retinoic acid and cytokines. The ETV6/ARG transcripts consisted of exon 1 to 5 of ETV6 and the 3' portion of ARG starting from exon 1B or exon 2, resulting in an open reading frame for a fusion protein consisting of the entire PNT oligomerization domain of ETV6 and all of the functional domains of ARG including the TK domain. This is the same protein structure as identified in the other ETV6 TK fusion proteins. The reciprocal ARG/ETV6 transcript was not expressed, and the normal ETV6 allele was not deleted or rearranged. Although the ABL is known to be involved in various human malignancies, ARG has not been involved in human malignancies despite its high homology to ABL. Thus, this is the first report showing involvement of ARG in human
leukemia
. The ETV6/ARG protein may be involved in the unique differentiation capacity of this cell line. (Blood. 2000;95:2126-2131)
...
PMID:A new ETV6/TEL partner gene, ARG (ABL-related gene or ABL2), identified in an AML-M3 cell line with a t(1;12)(q25;p13) translocation. 1070 84
The
MN1
-TEL (meningioma 1-translocation-ETS-
leukemia
) fusion oncoprotein is the product of the t(12;22)(p13;q11) in human myeloid leukemia consisting of N-terminal
MN1
sequences, a transcriptional coactivator, fused to C-terminal TEL sequences, an E26-transformation-specific (ETS) transcription factor. To analyze the role of
MN1
-TEL in leukemogenesis, we created a site-directed transgenic (knock-in) mouse model carrying a conditional
MN1
-TEL transgene under the control of the Aml1 regulatory sequences. After induction,
MN1
-TEL expression was detected in both myeloid and lymphoid cells. Activation of
MN1
-TEL expression enhanced the repopulation ability of myeloid progenitors in vitro as well as partially inhibited their differentiation in vivo.
MN1
-TEL also promoted the proliferation of thymocytes while it blocked their differentiation from CD4-/CD8- to CD4+/CD8+ in vivo. After long latency, 30% of the
MN1
-TEL-positive mice developed T-lymphoid tumors. This process was accelerated by N-ethyl-N-nitrosourea-induced mutations.
MN1
-TEL-positive T-lymphoid tumors showed elevated expression of the Notch-1, Hes-1, c-Myc, and Lmo-2 genes while their Ink4a/pRB and Arf/p53 pathways were impaired, suggesting that these alterations cooperatively transform T progenitors. We conclude that
MN1
-TEL exerts its nonlineage-specific leukemogenic effects by promoting the growth of primitive progenitors and blocking their differentiation, but cooperative mutations are necessary to fully induce leukemic transformation.
...
PMID:MN1-TEL myeloid oncoprotein expressed in multipotent progenitors perturbs both myeloid and lymphoid growth and causes T-lymphoid tumors in mice. 1608 88
The chromosomal translocation t(12; 22)(p13;q11) in human myeloid leukemia generates an
MN1
-TEL (meningioma 1-translocation-ETS-
leukemia
) fusion oncoprotein. This protein consists of N-terminal
MN1
sequences, a transcriptional coactivator fused to C-terminal TEL sequences, an ETS (E26 transformation-specific) transcription factor. Enforced expression of
MN1
-TEL in multipotent hematopoietic progenitors in knock-in mice perturbed growth and differentiation of myeloid as well as lymphoid cells. Depending on obligatory secondary mutations, these mice developed T-cell lympholeukemia. Here we addressed the role of
MN1
-TEL in myeloid leukemogenesis using the same mouse model. Expression of
MN1
-TEL enhanced the growth of myeloid progenitors in an interleukin 3/stem cell factor (IL-3/SCF)-dependent manner in vitro whereas 10% of
MN1
-TEL-expressing mice developed altered myelopoiesis with severe anemia after long latency. Coexpression of
MN1
-TEL and IL-3, but not SCF, rapidly caused a fatal myeloproliferative disease rather than acute myeloid leukemia (AML). Because
MN1
-TEL+ AML patient cells overexpress HOXA9 (homeobox A9), we tested the effect of coexpression of
MN1
-TEL and HOXA9 in mice and found that 90% of
MN1
-TEL+/HOXA9+ mice developed AML much more rapidly than control HOXA9+ mice. Thus, the leukemogenic effect of
MN1
-TEL in our knock-in mice is pleiotropic, and the type of secondary mutation determines disease outcome.
...
PMID:Conditional MN1-TEL knock-in mice develop acute myeloid leukemia in conjunction with overexpression of HOXA9. 1610 79
MN1
-TEL is the product of the recurrent t(12;22)(p12;q11) associated with human myeloid malignancies.
MN1
-TEL functions as an activated transcription factor, exhibiting weak transforming activity in NIH3T3 fibroblasts that depends on the presence of a functional TEL DNA-binding domain, the N-terminal transactivating sequences of
MN1
and C-terminal sequences of
MN1
. We determined the transforming activity of
MN1
-TEL in mouse bone marrow (BM) by using retroviral transfer.
MN1
-TEL-transduced BM showed increased self-renewal capacity of primitive progenitors in vitro, and prolonged in vitro culture of
MN1
-TEL-expressing BM produced immortalized myeloid, interleukin (IL)-3/stem cell factor-dependent cell lines with a primitive morphology. Transplantation of such cell lines into lethally irradiated mice rescued them from irradiation-induced death and resulted in the contribution of
MN1
-TEL-expressing cells to all hematopoietic lineages, underscoring the primitive nature of these cells and their capacity to differentiate in vivo. Three months after transplantation, all mice succumbed to promonocytic
leukemia
. Transplantation of freshly
MN1
-TEL-transduced BM into lethally irradiated mice also caused acute myeloid leukemia within 3 months of transplantation. We infer that
MN1
-TEL is a hematopoietic oncogene that stimulates the growth of hematopoietic cells, but depends on secondary mutations to cause
leukemia
in mice.
Leukemia
2006 Sep
PMID:MN1-TEL, the product of the t(12;22) in human myeloid leukemia, immortalizes murine myeloid cells and causes myeloid malignancy in mice. 1681 Jan 99
The IGF-binding protein (IGFBP) family consists of six proteins that are expressed and secreted in different tissues. The proteins are regulators of physiological processes throughout the body by modulating the activity of IGF-I and IGF-II. In this article, we describe the coordinated expression of IGFBP5 and
MN1
in meningiomas.
MN1
is a transcriptional co-activator and we show that
MN1
stimulates the IGFBP5 promoter in Hep3B cells. A CACCC-containing sequence, located 140 bp upstream of the transcription start site of the promoter, is required for
MN1
action. This sequence matches with the CACCCAC consensus sequence that was selected in an oligonucleotide selection assay performed for
MN1
. The CACCC element has also been shown to be important for induction of the IGFBP5 promoter by retinoic acid (RA) and progesterone (Pg). We were unable to confirm the effect of Pg on the promoter in Hep3B and U2-osteosarcoma cells regardless of the presence of
MN1
. On the other hand, we show that induction of the promoter by RA depends on co-expressed
MN1
in Hep3B cells. MN1TEL, a
leukemia
-related fusion protein containing parts of the
MN1
and TEL (ETV6) genes, is capable of stimulating the IGFBP5 promoter but is unable to cooperate with RA in Hep3B cells. This suggests that the effects of RA can be negatively affected in leukemias caused by MN1TEL.
...
PMID:The MN1 oncoprotein activates transcription of the IGFBP5 promoter through a CACCC-rich consensus sequence. 1724 74
The gene encoding the transcriptional co-activator
MN1
is the target of the reciprocal chromosome translocation (12;22)(p13;q12) in some patients with acute myeloid leukemia (AML). In addition, expression array analysis showed that
MN1
was overexpressed in AML specified by inv(16), in some AML overexpressing ecotropic viral integration 1 site (EVI1) and in some AML without karyotypic abnormalities. Here we describe that mice receiving transplants of bone marrow (BM) overexpressing
MN1
rapidly developed myeloproliferative disease (MPD). This BM also generated myeloid cell lines in culture. By mimicking the situation in human inv(16) AML, forced coexpression of
MN1
and Cbfbeta-SMMHC rapidly caused AML in mice. These findings identify
MN1
as a highly effective hematopoietic oncogene and suggest that
MN1
overexpression is an important cooperative event in human inv(16) AML.
Leukemia
2007 Aug
PMID:MN1 overexpression is an important step in the development of inv(16) AML. 1752 18
We performed a genome-wide analysis of promoter associated CpG island methylation using methylated CpG island amplification (MCA) coupled to representational differential analysis (RDA) or a DNA promoter microarray in acute lymphoblastic leukemia (ALL). We identified 65 potential targets of methylation with the MCA/RDA approach, and 404 with the MCA/array. Thirty-six (77%) of the genes identified by MCA/RDA were shared by the MCA/array approach. Chromosomal location of these genes was evenly distributed in all autosomes. Functionally, 303 of these genes clustered in 18 molecular pathways. Of the 36 shared genes, 31 were validated and 26 were confirmed as being hypermethylated in
leukemia
cell lines. Expression analysis of eight of these genes was epigenetically modulated by hypomethylating agents and/or HDAC inhibitors in
leukemia
cell lines. Subsequently, DNA methylation of 15 of these genes (GIPC2, RSPO1, MAGI1, CAST1, ADCY5, HSPA4L, OCLN, EFNA5, MSX2, GFPT2, GNA14, SALL1, MYO5B, ZNF382 and
MN1
) was validated in primary ALL samples. Patients with methylation of multiple CpG islands had a worse overall survival. This is the largest published list of potential methylation target genes in human
leukemia
offering the possibility of performing rational unbiased methylation studies in ALL.
Leukemia
2008 Aug
PMID:Genome-wide identification of aberrantly methylated promoter associated CpG islands in acute lymphocytic leukemia. 1852 27
Although the cancer stem cell (CSC) concept implies that CSCs are rare, recent reports suggest that CSCs may be frequent in some cancers. We hypothesized that the proportion of
leukemia
stem cells would vary as a function of the number of dysregulated pathways. Constitutive expression of
MN1
served as a 1-oncogene model, and coexpression of
MN1
and a HOX gene served as a 2-oncogene model.
Leukemia
-initiating cell (LIC) number and in vitro expansion potential of LICs were functionally assessed by limiting dilution analyses. LIC expansion potential was 132-fold increased in the 2- compared with the 1-oncogene model, although phenotypically, both leukemias were similar. The 2-oncogene model was characterized by granulocyte-macrophage colony-stimulating factor (GM-CSF) hypersensitivity and activated STAT/ERK signaling. GM-CSF hypersensitivity of the 2-oncogene model (
MN1
/HOXA9) was lost in Stat5b(-/-) cells, and the LIC expansion potential was reduced by 86- and 28-fold in Stat5b(-/-) and Stat1(-/-) cells, respectively. Interestingly, in 201 acute myeloid leukemia (AML) patients, coexpression of
MN1
and HOXA9 was restricted to patients with the poorest prognosis and was associated with highly active STAT signaling. Our data demonstrate the functional heterogeneity of LICs and show that STAT signaling is critical for
leukemia
stem cell self-renewal in
MN1
- and HOXA9-expressing leukemias.
...
PMID:Modeling the functional heterogeneity of leukemia stem cells: role of STAT5 in leukemia stem cell self-renewal. 1989 22
Alkylating agents, topoisomerase II inhibitors, ionizing radiation, and other hematotoxins induce DNA damage in hematopoietic stem cells that results in lesions such as balanced and unbalanced chromosome rearrangements, -5/del(5q) and/or -7/del(7q), as well as other submicroscopic genetic lesions. Together with epigenetic alterations, these result in dysplasia, clonal expansion, and ultimately myeloid leukemia. Combinations of lesions are required to induce overt
leukemia
. Altering a small subset of signaling pathways leads to disruption of normal self-renewal, proliferation, differentiation, and apoptotic mechanisms that control the development of hematopoietic stem cells and their differentiation into mature effector cells. Recent studies have shown that cytogenetically normal (CN-) AML is quite heterogeneous at the molecular level. Patients with CN-AML harboring mutations in NPM1, FLT3, CEBPA, WT1 or expressing high levels of BAALC, ERG, or
MN1
have distinctly different clinical outcomes. NPM1 mutations are independently associated with higher remission rates and longer disease-free and overall survival in AML. Copy number alterations (CNAs) are deletions or amplifications of single genes. CNAs have been found at the breakpoints of known chromosomal translocations. Fewer CNAs have been detected in AML than in pediatric ALL. Micro-RNAs (miRs) are non-coding small RNA molecules containing about 22 nucleotides that are typically encoded within introns. They hybridize to complementary mRNA targets and modulate protein expression by inhibiting translation and/or inducing degradation of target messenger RNAs. This new class of genes has recently been shown to play a pivotal role in malignant transformation. miRs are down-regulated in many tumors and thus appear to function as tumor suppressor genes. Distinctive genome-wide miR expression profiles have been associated with different subsets of AML. A miR signature that is associated with clinical outcome in patients with high-risk molecular features of AML (those who have FLT3-ITD or wild-type NPM1) has been reported. This subgroup constitutes approximately 65% of patients with CN-AML and one-third of all patients with AML <60 years old. Down-regulation of the miR-181 family contributes to an aggressive
leukemia
phenotype through mechanisms associated with the activation of pathways of innate immunity mediated by toll-like receptors and interleukin-1beta.
...
PMID:Micro-RNAs and copy number changes: new levels of gene regulation in acute myeloid leukemia. 1982 34
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