Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0026986 (myelodysplastic syndrome)
 14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Somatic mutation of the FLT3 gene as an internal tandem duplication (ITD) of the juxtamembrane domain-coding sequence causes constitutive tyrosine phosphorylation and activation. Tumor-specific DNA has been documented in the sera of patients with solid tumors even when it is in an early stage. We compared the detection of FLT3 ITD in DNA extracted from cells of bone marrow (BM) aspirations with DNA extracted from peripheral blood (PB) plasma in patients newly diagnosed with acute myeloid leukemia (AML; 85 patients), myelodysplastic syndrome (MDS; 16 patients), and acute lymphocytic leukemia (ALL; 16 patients). FLT3 ITD was detected in 18 (21%) AML samples and in one (6%) MDS sample in both cellular and plasma DNA but in none of the ALL samples. Hemizygous/homozygous FLT3 ITD was detected in five (28%) of the FLT3 ITD-positive AML using plasma DNA, whereas only four of these cases showed hemizygous/homozygous FLT3 ITD using cellular DNA. The presence of FLT3 ITD was associated with significantly shorter survival (P = 0.02) when only patients younger than 50 years of age (48 AML+MDS patients) were considered. This finding was independent of cytogenetics in this age group. However, patients with the FLT3 ITD hemizygous/homozygous phenotype had even shorter survival (P = <0.001). As expected, the presence of FLT3 ITD correlated with higher white blood cell (WBC) counts. These data demonstrate that plasma DNA is a reliable alternative resource for detecting FLT3ITD, especially the hemizygous/homozygous genotype. Furthermore, the data derived from this study support the notion that the presence of FLT3 ITD in conjunction with the absence of the wild-type FLT3 allele predicts an especially poor prognosis for patients with AML.
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PMID:Better detection of FLT3 internal tandem duplication using peripheral blood plasma DNA. 1252 67

Increased bone marrow angiogenesis and vascular endothelial growth factor (VEGF) levels are adverse prognostic features in patients with acute myeloid leukemia (AML) or myelodysplastic syndromes (MDSs). VEGF is a soluble circulating angiogenic molecule that stimulates signaling via receptor tyrosine kinases (RTKs), including VEGF receptor 2 (VEGFR-2). AML blasts may express VEGFR-2, c-kit, and FLT3. SU5416 is a small molecule RTK inhibitor (RTKI) of VEGFR-2, c-kit, and both wild-type and mutant FLT3. A multicenter phase 2 study of SU5416 was conducted in patients with refractory AML or MDS. For a median of 9 weeks (range, 1-55 weeks), 55 patients (33 AML: 10 [30%] primary refractory, 23 [70%] relapsed; 22 MDS: 15 [68%] relapsed) received 145 mg/m2 SU5416 twice weekly intravenously. Grade 3 or 4 drug-related toxicities included headaches (14%), infusion-related reactions (11%), dyspnea (14%), fatigue (7%), thrombotic episodes (7%), bone pain (5%), and gastrointestinal disturbance (4%). There were 11 patients (20%) who did not complete 4 weeks of therapy (10 progressive disease, 1 adverse event); 3 patients (5%) who achieved partial responses; and 1 (2%) who achieved hematologic improvement. Single agent SU5416 had biologic and modest clinical activity in refractory AML/MDS. Overall median survival was 12 weeks in AML patients (range, 4-41 weeks) and not reached in MDS patients. Most observed toxicities were attributable to drug formulation (polyoxyl 35 castor oil or hyperosmolarity of the SU5416 preparation). Studies of other RTKI and/or other antiangiogenic approaches, with correlative studies to examine biologic effects, may be warranted in patients with AML/MDS.
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PMID:SU5416, a small molecule tyrosine kinase receptor inhibitor, has biologic activity in patients with refractory acute myeloid leukemia or myelodysplastic syndromes. 1264 63

Both ITD and D835 mutations of the fms-like tyrosine kinase (FLT3) gene cause constitutive activation of the receptor, in the absence of ligand. We have examined a cohort of 91 patients, AML (80) and MDS (11), to determine the prevalence of these mutations and any correlations between the two mutations and disease prognosis. FLT3/ITD (ITD+) or D835 mutations (D835+) were not detected in MDS patients examined. However, 10% (8/80) and 7.5% (6/80) of AML patients were ITD+ and D835+, respectively. ITD+ patients have a higher rate of relapse than patients with wild-type (WT) FLT3. Median overall survival was 4.6 months (range 0.6-36.2) for ITD+ and 19.85 months (range 0.2-197.5) for WT patients (P=0.0066), and disease-free survival (DFS) was also worse for ITD+ patients than FLT3/WT patients (P=0.047). FLT3/ITD is also a significant prognostic marker for overall survival (OS) and DFS in patients in the standard karyotype group (P=0.0040, 0.0365, respectively). ITD is more prevalent in patients in the standard karyotype category (7/41, 17.1%) as compared to patients in the poor-risk category (1/32, 3.1%). Similar to ITD, D835 mutations were found to be more frequent in patients with standard-risk rather than poor-risk cytogenetic category. WBC count (mean 63.8 x 10(9)/l) was significantly higher in ITD+ patients than patients with D835 mutations (mean 34.8 x 10(9)/l) and WT patients (mean 26.4 x 10(9)/l) (P=0.004). D835 mutants did not appear to have a worse median OS or DFS compared with the WT group. We conclude that FLT3/ITD mutations may be an important prognostic marker in AML, especially in the standard/good risk karyotype groups, where it may allow risk-directed therapy.
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PMID:Prognostic significance of FLT3 ITD and D835 mutations in AML patients. 1269 19

KIT and FMS, members of the class III receptor tyrosine kinase family, are expressed on normal hematopoietic cells and have important roles in normal hematopoiesis. FLT3 is also a member of the class III receptor tyrosine kinase family and plays important role in hematopoietic stem/progenitor cells, NK, and dendritic cells. Recently, internal tandem duplication (ITDs) mutations have been found in the juxtamembrane (JM) region of FLT3 receptor expressed by patients with acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). The mutations result in the constitutive dimerization and activation of the receptor, contributing to leukemic transformation. KIT and FMS are also frequently expressed in AML and are closely related to FLT3. Thus, similar ITD mutations could also occur in the KIT and/or FMS gene of patients with AML. To explore this possibility, 13 human leukemia-lymphoma cell lines and 44 AML patient samples were examined by reverse transcription-polymerase chain reaction (RT-PCR) for the presence of ITD mutations in the JM region of the KIT or FMS receptor. None of the 13 human leukemia-lymphoma cell lines or 44 AML primary bone marrow samples express ITDs in either KIT or FMS in the JM region that is involved in FLT3 mutations. The 13 cell lines and 44 AML samples were also examined for the possible co-expression of KIT and/or FMS receptors with their respective ligands, as we have seen for FLT3 and its ligand, FL. This co-expression could contribute to leukemic transformation through autocrine, paracrine, or intracrine activation mechanisms. And 6/13 cell lines and 27/44 primary AML samples exhibit co-expression of the KIT receptor and ligand (SCF) while 10/13 cell lines and 35/44 primary AML samples exhibit co-expression of the FMS receptor and ligand (CSF-1). Therefore, while ITD mutations were not found, the findings of co-expression of KIT and/or FMS with their respective ligands implies these receptors might contribute to leukemogenesis in some patients with AML through autocrine, paracrine, or intracrine interactive stimulation.
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PMID:Lack of KIT or FMS internal tandem duplications but co-expression with ligands in AML. 1468 12

Oncogenic mutations in the KRAS2, NRAS, or FLT3 gene are detected in more than 50% of patients with de novo acute myeloid leukemia (AML). RAS mutations are also prevalent in de novo myelodysplastic syndrome (MDS), especially chronic myelomonocytic leukemia and juvenile myelomonocytic leukemia. However, few studies have examined these genetic lesions in therapy-related myeloid malignancies. Monosomy 7/del(7q) and monosomy 5/del(5q) represent the most common cytogenetic abnormalities in therapy-related MDS and AML (t-MDS/t-AML) and are strongly associated with prior exposure to alkylating agents. Mutational analysis of bone marrow specimens from a well-characterized cohort of 26 t-MDS/t-AML patients with abnormalities of chromosomes 5 and/or 7 revealed 3 with RAS mutations. Further analyses of 23 of these cases uncovered one FLT3 internal tandem duplication and five TP53 mutations. The four patients with RAS or FLT3 mutations had monosomy 7, including one with abnormalities of chromosomes 5 and 7. One specimen demonstrated mutations in both KRAS2 and TP53. RAS and FLT3 mutations, which are thought to stimulate the proliferation of leukemia cells, appear to be less common in t-MDS/t-AML than in de novo AML, whereas TP53 mutations are more frequent.
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PMID:RAS, FLT3, and TP53 mutations in therapy-related myeloid malignancies with abnormalities of chromosomes 5 and 7. 1473 23

The role of internal tandem duplication of fms-like tyrosine kinase 3 (FLT3/ITD), mutations at tyrosine kinase domain (FLT3/TKD) and N-ras mutations in the transformation of myelodysplastic syndrome (MDS) to AML was investigated in 82 MDS patients who later progressed to AML; 70 of them had paired marrow samples at diagnosis of MDS and AML available for comparative analysis. Five of the 82 patients had FLT3/ITD at presentation. Of the 70 paired samples, seven patients acquired FLT3/ITD during AML evolution. The incidence of FLT3/ITD at diagnosis of MDS was significantly lower than that at AML transformation (3/70 vs 10/70, P<0.001). FLT3/ITD(+) patients progressed to AML more rapidly than FLT3/ITD(-) patients (2.5+/-0.5 vs 11.9+/-1.5 months, P=0.114). FLT3/ITD(+) patients had a significantly shorter survival than FLT3/ITD(-) patients (5.6+/-1.3 vs 18.0+/-1.7 months, P=0.0008). After AML transformation, FLT3/ITD was also associated with an adverse prognosis. One patient had FLT3/TKD mutation (D835Y) at both MDS and AML stages. Additional three acquired FLT3/TKD (one each with D835 H, D835F and I836S) at AML transformation. Five of the 70 matched samples had N-ras mutation at diagnosis of MDS compared to 15 at AML transformation (P<0.001), one lost and 11 gained N-ras mutations at AML progression. Coexistence of FLT3/TKD and N-ras mutations was found in two AML samples. N-ras mutations had no prognostic impact either at the MDS or AML stage. Our results show that one-third of MDS patients acquire activating mutations of FLT3 or N-ras gene during AML evolution and FLT3/ITD predicts a poor outcome in MDS.
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PMID:Acquisition of FLT3 or N-ras mutations is frequently associated with progression of myelodysplastic syndrome to acute myeloid leukemia. 1473 77

Targeted therapies for hematological malignancies have come of age since the advent of all trans retinoic acid (ATRA) for treating APL and STI571/Imatinib Mesylate/Gleevec for CML. There are good molecular targets for other malignancies and several new drugs are in clinical trials. In this review, we will concentrate on individual abnormalities that exist in the myelodysplastic syndromes (MDS) and myeloid leukemias that are targets for small molecule therapies (summarised in Fig. 1). We will cover fusion proteins that are produced as a result of translocations, including BCR-ABL, the FLT3 tyrosine kinase receptor and RAS. Progression of diseases such as MDS to secondary AML occur as a result of changes in the balance between cell proliferation and apoptosis and we will review targets in both these areas, including reversal of epigenetic silencing of genes such as p15(INK4B).
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PMID:Targeted therapies in myeloid leukemia. 1475 35

FLT3 gene internal tandem duplication (ITD) and activating loop mutations (D835) were determined in 22 cases of therapy-related acute myelocytic leukemia/myelodysplastic syndrome (t-AML/MDS) and 102 cases of de novo AML/MDS. In t-AML/MDS, FLT3 ITD was absent, and D835 was found in only one case of therapy-related acute promyelocytic leukemia (APL). In de novo AML/MDS, however, FLT3 ITD and D835 were significantly more frequent (28 of 102 cases, P=0.024) and were associated with high peripheral blood and marrow blast counts. Our results suggest that different pathogenetic pathways might be involved in t-AML/MDS and de novo AML/MDS.
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PMID:Low frequency of FLT3 gene internal tandem duplication and activating loop mutation in therapy-related acute myelocyticleukemia and myelodysplastic syndrome. 1503 94

Continuous human leukemia-lymphoma (LL) cell lines represent a rich resource of abundant, accessible and manipulable living cells contributing significantly to a better understanding of the pathophysiology of hematopoietic tumors. In particular, classical and molecular cytogenetics have benefitted enormously from the availability of LL cell lines with specific chromosomal abnormalities. Such aberrations may be the portal to the discovery of novel oncogene rearrangements for which positive cell lines provide a resource for both discovery and functional studies. The new continuous leukemia cell line MUTZ-11 was established in 1994 from the peripheral blood of a 60-year-old woman with acute myeloid leukemia (AML) M4 (following 2 years with myelodysplastic syndromes). DNA fingerprinting confirmed the authenticity and derivation of the cell line. The immunoprofile as determined by flow cytometry was as follows: positive for myelocytic markers (CD13, CD15, CD33, CD65 and CD68), negative for T-cell (except for CD4 and CD7), B-cell and erythroid-megakaryocytic markers. The cell line is constitutively cytokine-dependent and growth depends on externally added cytokines. With regard to cytokine receptor expression, the cell line was found to be positive for GM-CSFRalpha (granulocyte-macrophage colony-stimulating factor receptor, CD116), Kit (CD117) and IL-3Ralpha (interleukin-3 receptor, CD123). The cytokine response profiles as determined by [(3)H]-thymidine incorporation assay were: 2-to-12 fold growth stimulation of MUTZ-11 by GM-CSF, IFN-alpha (interferon), IFN-beta, IFN-gamma, IL-3 and SCF (stem cell factor); growth inhibition by TGF-beta1 (transforming growth factor), TNF-alpha (tumor necrosis factor) and TNF-beta. Cytogenetic analysis showed the following consensus karyotype: 46, XX, der(16)t(16;17)(p13.3;q23)x2. Previous molecular biological analysis documented that MUTZ-11 cells carry both an FLT3 internal tandem duplication (ITD) and an MLL partial tandem duplication (PTD). The scientific significance of MUTZ-11 lies (i). in the absolute cytokine-dependency and the proliferative response to various cytokines, (ii). in the unique cytogenetic (disomic t(16;17)) and (iii). molecular biological alterations (FLT3 ITD + MLL PTD). In summary, the new cytokine-dependent AML-derived cell line MUTZ-11 displays unique novel features and emphasizes the need for comprehensive analysis of new LL cell lines which may lead to the discovery of important pathogenetic alterations.
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PMID:New cytokine-dependent acute myeloid leukemia cell line MUTZ-11 with disomic chromosome rearrangement t(16;17). 1506 4

The FLT3 receptor is activated by juxtamembrane insertion mutations and by activation loop point mutations in patients with acute myeloid leukemia (AML). In a systematic tyrosine kinase gene exon resequencing study, 21 of 24 FLT3 exons were sequenced in samples from 53 patients with AML, 9 patients with acute lymphoblastic leukemia (ALL), and 3 patients with myelodysplasia samples. Three patients had novel point mutations at residue N841 that resulted in a change to isoleucine in 2 samples and to tyrosine in 1 sample. Introduction of FLT3-N841I cDNA into Ba/F3 cells led to interleukin-3 (IL-3)-independent proliferation, receptor phosphorylation, and constitutive activation of signal transducer and activator of transcription 5 (STAT5) and extracellular regulatory kinase (ERK), suggesting that the N841I mutation confers constitutive activity to the receptor. An FLT3 inhibitor (PKC412) inhibited the growth of Ba/F3-FLT3N841I cells (IC(50) 10 nM), but not of wild-type Ba/F3 cells cultured with IL-3. PKC412 also reduced tyrosine phosphorylation of the mutant receptor and inhibited STAT5 phosphorylation. Examination of the FLT3 autoinhibited structure showed that N841 is the key residue in a hydrogen-bonding network that likely stabilizes the activation loop. These results suggest that mutations at N841 represent a significant new activating mutation in patients with AML and that patients with such mutations may respond to small-molecule FLT3 inhibitors such as PKC412.
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PMID:Identifying and characterizing a novel activating mutation of the FLT3 tyrosine kinase in AML. 1517 81


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