EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
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As recurrent chromosome abnormalities in leukemia are highly associated with particular subtypes, the genetic events of specific chromosome alteration must be associated with leukemogenesis and characteristics of the disease. The chromosomal breakpoints involved in inv(16) and t(16;16) have been shown to generate the fusion gene PEBP2beta(CBFbeta)/MYH11. The PEBP2beta/MYH11 fusion transcripts in all 8 patients with M4Eo, 2 of 18 with M4, and one CML in the blastic phase were detected by using RT-PCR and Southern blotting. We demonstrated the marked expression of CD34 and c-KIT (CD117) antigens in myelomonoblastic leukemia cells from all patients carrying this fusion gene, which was in contrast to the patients with M4 but without the fusion gene. These results indicate that immunophenotypic analysis is useful for detection of leukemia with the fusion gene, and that the PEBP2beta/MYH11 fusion gene is involved in immature cells expressing CD34 and c-KIT antigens.
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PMID:Acute myelomonoblastic leukemia carrying the PEBP2beta/MYH11 fusion gene. 972 Jul 17

In patients with an atypical stem-cell myeloproliferative disorder with lymphoma (B or T cell), myeloid hyperplasia, and eosinophilia, the chromosome 8p11-12 region is the site of a recurrent breakpoint that can be associated with three different partners, 6q27, 9q32-34, and 13q12. Rearrangements are supposed to affect a pluripotent stem cell capable of myeloid and lymphoid differentiation and to involve the same 8p11-12 gene. The t(8;13) translocation has recently been shown to result in a fusion between the FGFR1 gene that encodes a tyrosine kinase receptor for fibroblast growth factors and a novel gene, FIM (also called RAMP or ZNF198), belonging to a novel family of zinc finger genes. In the present study, we have cloned the t(6;8)(q27;p11) translocation in two patients and found a fusion between FGFR1 and a novel gene, FOP (FGFR1 Oncogene Partner), located on chromosome band 6q27. This gene is alternatively spliced and ubiquitously expressed. It encodes a protein containing two regions of putative leucine-rich repeats putatively folding in alpha-helices and separated by a hydrophobic spacer. The two reciprocal fusion transcripts were evidenced by reverse transcription-polymerase chain reaction in the tumoral cells of the patients. The predicted chimeric FOP-FGFR1 protein contains the FOP N-terminus leucine-rich region fused to the catalytic domain of FGFR1. It may promote hematopoietic stem cell proliferation and leukemogenesis through a constitutive phosphorylation and activation of the downstream pathway of FGFR1.
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PMID:The t(6;8)(q27;p11) translocation in a stem cell myeloproliferative disorder fuses a novel gene, FOP, to fibroblast growth factor receptor 1. 994 82

FLT3 ligand (FL) acting through its tyrosine kinase receptor FLT3 has pleiotropic and potent effects on hematopoietic cells. The well-described involvement of this ligand-receptor pair in physiological hematopoiesis raised the question whether FL and FLT3 also play a role in the pathobiology of leukemia. Following the early discovery of high receptor expression by myeloid leukemia cells, several investigators have focused their attention on these cells, both primary acute myeloid leukemia (AML) cells and continuous human myeloid leukemia cell lines. Regardless of the morphological FAB subtype, the vast majority of AML cases were FLT3-positive both at the mRNA and protein level; among the myeloid cell lines, predominantly the monocytic and myelocytic cell lines were FLT3-positive whereas the erythrocytic and megakaryocytic cell lines were FLT3-negative. Virtually all cell lines studied expressed FL transcripts; the finding that some cell lines displayed both ligand and receptor indicates the possibility of autocrine, intracrine or paracrine stimulatory loops. In vitro growth assays showed that FL caused a proliferative response in a high percentage of AML cases. Only constitutively growth factor-dependent myelocytic cell lines increased their proliferation upon incubation with FL whereas all growth factor-independent cell lines were refractory to FL stimulation. Combinations of FL with various cytokines (e.g. G-CSF, GM-CSF, IL-3, M-CSF, PIXY-321, SCF) had synergistic or additive mitogenic effects. Finally, FL had significant anti-apoptotic, survival-promoting effects on primary AML cells and myeloid cell lines under serum-free culture conditions. On the strength of the above findings, it can be concluded that the FL-FLT3 signaling system may play a certain, albeit probably not causal role in the development of human leukemias. Dissection of the exact molecular pathways that lead to proliferation and/or anti-apoptosis of myeloid leukemia cells as well as the detailed elucidation of the possible contribution of the FL-FLT3 genes to leukemogenesis remain future challenges.
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PMID:Effects of FLT3 ligand on proliferation and survival of myeloid leukemia cells. 1019 24

The FLT3 gene encodes a tyrosine kinase receptor that regulates proliferation and differentiation of hematopoietic cells. Recently, the internal duplication of FLT3 has been observed in hematological malignancies, suggesting the involvement of these mutations in leukemogenesis. The authors analyzed the expression of FLT3 mRNA and the incidence of its internal tandem duplication in normal hematopoietic and blood samples by reverse transcription-polymerase chain reaction (RT-PCR). Mononuclear cells (MNCs) in cord blood and bone marrow highly expressed FLT3 mRNA, whereas MNCs and polymorphonuclear cells (PMNs) in peripheral blood showed low or undetectable levels of FLT3. When the ratio of FLT3/beta-actin PCR products was calculated, the level of FLT3 mRNA expression was significantly higher in cord blood MNCs (n = 42) than that in peripheral MNCs (n = 14) or PMNs (n = 10). Although several PCR bands with different sizes were observed, no internal tandem duplication of FLT3 was detected in these normal blood samples. These findings indicate that the expression of FLT3 is lineage specific and consistently decreases during hematopoietic differentiation. The internal duplication of FLT3 is restricted in hematological malignancies and may occur at a specific stage in leukemogenesis.
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PMID:High expression but no internal tandem duplication of FLT3 in normal hematopoietic cells. 1050 20

Two distinct clinical syndromes have been associated with the p11.12 region of the short arm of chromosome 8: stem-cell myeloproliferative disorder (B-or T-cell lymphoblastic leukemia/lymphoma with myeloid hyperplasia and peripheral blood eosinophilia) and acute myeloid leukemia (myelomonocytic or monocytic with erythrophagocytosis). The FGFR1 and MOZ genes are rearranged in these diseases and encode one of the four fibroblast growth factor receptors and a member of a novel histone acetyltransferase family, respectively. The predicted fusion proteins that are putatively oncogenic - FOP-FGFR1, CEP110-FGFR1, and FIM-FGFR1 - and - MOZ-CBP, MOZ-p300, and MOZ-TIF2 - lead to tumorigenesis through distinct pathways. The constitutive kinase activity triggered by dimerization mediated by the protein-protein interaction motifs of the FGFR1 protein partner regardless of external stimuli and the delocalization of the fusion proteins compared to their normal counterparts may lead to tumorigenesis presumably by inducing inappropriate recruitment in the cytoplasm of signaling substrates. Currently, little is known about the precise role of MOZ in the regulation of gene transcription. However, all the aberrant proteins described to date retain the MOZ histone acetyltransferase domain fused to that of the transcription coactivators CBP, p300, and TIF2. The fusion of two acetyltransferases whose activity may be mistargetted or misregulated could be a critical event in leukemogenesis. The increasing number of translocations affecting FGFR1 and MOZ strongly suggest their involvement in oncogenic processes and point to these proteins as potential therapeutical targets.
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PMID:[FGFR1 and MOZ, two key genes involved in malignant hemopathies linked to rearrangements within the chromosomal region 8p11-12]. 1117 18

Eighty-two unselected cases of therapy-related myelodysplasia (t-MDS) or acute myeloid leukemia (t-AML) were investigated for internal tandem duplications of the FLT3 gene (FLT3/ITD), for internal tandem duplications of the MLL gene (MLL/ITD) and for mutations of the WT1 gene. FLT3/ITD were observed in three patients, another two patients presented MLL/ITD whereas mutations of the WT1 gene were not observed. All FLT3/ITD included the tyrosine-rich stretch between codons 589 and 599, and both MLL/ITD presented break points within Alu-repeats, as previously observed in de novo AML. The ITD were not related to any specific type of previous therapy, but three out of the five cases were observed among only six patients with overt t-AML and a normal karyotype (P = 0.0043). Interestingly, one of the patients with FLT3/ITD presented overt t-AML of subtype M1 with a normal karyotype after treatment with an alkylating agent. Complete remission was observed following treatment with daunorubicin and cytosine arabinoside, but after 37 months the patient relapsed with t-AML of subtype M3 with a t(15;17) and the same FLT3/ITD was still present. Thus FLT3/ITD may in this case represent a primary event in leukemogenesis, whereas the t(15;17) may represent a secondary event most likely induced by subsequent therapy. In conclusion, FLT3/ITD and MLL/ITD are mainly observed in uncharacteristic cases of t-AML with a normal karyotype and unrelated to previous therapy for which reason they could represent sporadic cases of de novoAML.
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PMID:Internal tandem duplications of the FLT3 and MLL genes are mainly observed in atypical cases of therapy-related acute myeloid leukemia with a normal karyotype and are unrelated to type of previous therapy. 1175 4

In Caenorhabditis elegans, Ras/ERK and Wnt/beta-catenin signaling pathways cooperate to induce P12 and vulval cell fates in a Hox-dependent manner. Here we describe eor-1 and eor-2, two new positively acting nuclear components of the Ras and Wnt pathways. eor-1 and eor-2 act downstream or in parallel to ERK and function redundantly with the Mediator complex gene sur-2 and the functionally related gene lin-25, such that removal of both eor-1/eor-2 and sur-2/lin-25 mimics the removal of a main Ras pathway component. Furthermore, the eor-1 and eor-2 mutant backgrounds reveal an essential role for the Elk1-related gene lin-1. eor-1 and eor-2 also act downstream or in parallel to pry-1 Axin and therefore act at the convergence of the Ras and Wnt pathways. eor-1 encodes the ortholog of human PLZF, a BTB/zinc-finger transcription factor that is fused to RARalpha in acute promyelocytic leukemia. eor-2 encodes a novel protein. EOR-1/PLZF and EOR-2 appear to function closely together and cooperate with Hox genes to promote the expression of Ras- and Wnt-responsive genes. Further studies of eor-1 and eor-2 may provide insight into the roles of PLZF in normal development and leukemogenesis.
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PMID:C. elegans EOR-1/PLZF and EOR-2 positively regulate Ras and Wnt signaling and function redundantly with LIN-25 and the SUR-2 Mediator component. 1213 May 41

FLT3 mutations, either internal tandem duplications (ITDs) or aspartate residue 835 (D835) point mutations, are present in approximately one third of patients with acute myeloid leukemia (AML) and have been associated with an increased relapse rate. We have studied FLT3 mutations in paired presentation and relapse samples to ascertain the biology of these mutations and to evaluate whether they can be used as markers of minimal residual disease. At diagnosis, 24 patients were wild-type FLT3, and 4 acquired a FLT3 mutation at relapse (2 D835(+), 2 ITD(+)), with a further patient acquiring an ITD at second relapse. Of 20 patients positive at diagnosis (18 ITD(+), 2 D835(+)), 5 who were all originally ITD(+) had no detectable mutation at relapse, as determined by a sensitive radioactive polymerase chain reaction. One of these patients had acquired an N-Ras mutation not detectable at presentation. Furthermore, another patient had a completely different ITD at relapse, which could not be detected in the presentation sample. These results indicate that FLT3 mutations are secondary events in leukemogenesis, are unstable, and thus should be used cautiously for the detection of minimal residual disease.
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PMID:Studies of FLT3 mutations in paired presentation and relapse samples from patients with acute myeloid leukemia: implications for the role of FLT3 mutations in leukemogenesis, minimal residual disease detection, and possible therapy with FLT3 inhibitors. 1223 47

Internal tandem duplication (ITD) mutations of the juxtamembrane domain-coding sequence of the FLT3 gene are found in up to 34% of patients with acute myeloid leukemia (AML) and are associated with a poor prognosis. FLT3/ITDs result in constitutive activation of the tyrosine kinase domain and transform growth factor-dependent cell lines. FLT3 activation leads to antiapoptotic and proliferative signals, but little is known about the impact of FLT3/ITDs on differentiation. This study was designed to investigate the effect of FLT3/ITD expression on the differentiation of the 32Dcl3 (32D) myeloblastic cell line to neutrophils in response to granulocyte colony-stimulating factor (G-CSF). Expression of FLT3/ITD completely blocked morphologic differentiation and induction of myeloperoxidase (MPO), lysozyme, and CCAAT/enhancer-binding protein epsilon (C/EBPepsilon) in response to G-CSF. Wild-type FLT3 and vector-transfected 32D cells were able to differentiate, although the maturation of FLT3-transfected cells was delayed by FLT3 ligand (FL) stimulation. CEP-701, a potent FLT3 tyrosine kinase inhibitor, overcame the morphologic block in differentiation caused by FLT3/ITD expression and allowed G-CSF induction of myeloid maturation markers. These findings suggest that blocking differentiation may be one of the mechanisms by which FLT3/ITDs contribute to leukemogenesis. CEP-701 and other FLT3 inhibitors may be useful for overcoming the block to differentiation (as well as the block to apoptosis) in the leukemic cells of patients with AML.
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PMID:Targeted inhibition of FLT3 overcomes the block to myeloid differentiation in 32Dcl3 cells caused by expression of FLT3/ITD mutations. 1239 74

Trisomy 8 is the most common chromosomal aberration in myelocytic malignancies, occurring both as a sole change as well as in addition to other abnormalities. In spite of this, next to nothing is known about its pathogenetic importance or its molecular genetic consequences. Possible mechanisms involved in the transformation process include dosage effects of genes mapping to chromosome 8 and presence of specific mutations or cryptic fusion genes on the duplicated chromosome. In the latter case, +8 would be secondary to a cryptic primary rearrangement and not involved in leukemogenesis as such, but rather in tumor evolution. Although hidden genetic changes have been found in some trisomies, for example, mutations in KIT in acute myelocytic leukemia (AML) with +4 and in MET in hereditary papillary kidney carcinoma with trisomy 7, none associated with +8 have so far been discovered. To address this issue, we have investigated a total of 13 cases of AML, myelodysplastic syndromes, and chronic myeloproliferative disorders with trisomy 8 as the sole chromosomal anomaly. All cases were studied by combined binary ratio multicolor fluorescence in situ hybridization (FISH) and with FISH using locus-specific probes for both arms of chromosome 8, the subtelomeric regions of 8p and 8q, and the leukemia-associated genes FGFR1, MOZ, ETO, and MYC. No cryptic changes were detected, thus excluding the possibility of gross genetic rearrangements or aberrations involving these loci on chromosome 8.
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PMID:Trisomy 8 as the sole chromosomal aberration in myelocytic malignancies: a multicolor and locus-specific fluorescence in situ hybridization study. 1449 2

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