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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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
PURPOSE To determine the prognostic importance of the
meningioma 1
(
MN1
) gene expression levels in the context of other predictive molecular markers, and to derive
MN1
associated gene- and microRNA-expression profiles in cytogenetically normal acute myeloid leukemia (CN-AML). PATIENTS AND METHODS
MN1
expression was measured in 119 untreated primary CN-AML adults younger than 60 years by real-time reverse-transcriptase polymerase chain reaction. Patients were also tested for FLT3, NPM1, CEBPA, and WT1 mutations, MLL partial tandem duplications, and BAALC and ERG expression. Gene- and microRNA-expression profiles were attained by performing genome-wide microarray assays. Patients were intensively treated on two first-line Cancer and
Leukemia
Group B clinical trials. Results Higher
MN1
expression associated with NPM1 wild-type (P < .001), increased BAALC expression (P = .004), and less extramedullary involvement (P = .01). In multivariable analyses, higher
MN1
expression associated with a lower complete remission rate (P = .005) after adjustment for WBC; shorter disease-free survival (P = .01) after adjustment for WT1 mutations, FLT3 internal tandem duplications (FLT3-ITD), and high ERG expression; and shorter survival (P = .04) after adjustment for WT1 and NPM1 mutations, FLT3-ITD, and WBC. Gene- and microRNA-expression profiles suggested that high
MN1
expressers share features with high BAALC expressers and patients with wild-type NPM1. Higher
MN1
expression also appears to be associated with genes and microRNAs that are active in aberrant macrophage/monocytoid function and differentiation. CONCLUSION
MN1
expression independently predicts outcome in CN-AML patients. The
MN1
gene- and microRNA-expression signatures suggest biologic features that could be exploited as therapeutic targets.
...
PMID:Prognostic importance of MN1 transcript levels, and biologic insights from MN1-associated gene and microRNA expression signatures in cytogenetically normal acute myeloid leukemia: a cancer and leukemia group B study. 1945 32
Retroviral expression of leukemogenic oncogenes in the murine hematopoietic system is essential but not sufficient to induce acute leukemia. Proviral integration-mediated elevated expression of the
meningioma 1
(
MN1
) oncogene suggested
MN1
acting as cooperating event in mixed-lineage
leukemia
1 (MLL) and eleven nineteen leukemia (ENL)-induced murine
leukemia
. Indeed, co-expression of
MN1
with MLL-ENL enhanced transformation in vivo, and resulted in a significantly reduced latency for induction of an aggressive acute leukemia when compared with
MN1
or MLL-ENL alone. In addition, co-expression of
MN1
increased the granulocyte macrophage progenitor cell population with
leukemia
-initiating properties as shown in secondary transplantation experiments. Gene expression profiling experiments identified putative downstream
MN1
targets, of which FMS-like tyrosine kinase 3 (FLT3) and CD34 were upregulated in both
MN1
-overexpressing murine leukemias and in pediatric acute leukemias with high
MN1
levels. Interestingly, small interfering RNA (siRNA)-mediated
MN1
knockdown resulted in cell cycle arrest and impaired clonogenic growth of human
leukemia
cell lines with high
MN1
levels. Our work shows for the first time that high
MN1
levels are important for the growth of leukemic cells, and that increased
MN1
expression can synergize with MLL-ENL and probably other transforming fusion genes in
leukemia
induction through a distinct gene expression program that is able to expand the
leukemia
-initiating cell population.
Leukemia
2010 Mar
PMID:Functional characterization of high levels of meningioma 1 as collaborating oncogene in acute leukemia. 2007 57
