UMLS:C0026986 - FACTA Search

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Query: UMLS:C0026986 (myelodysplastic syndrome)
14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the FLT3 gene expression and its internal tandem duplication in hematologic malignancies and its clinical significance, polymerase chain reaction (PCR) and DNA sequencing were used to detect the FLT3/ITD mutation in blast cells of bone marrow from 86 patients with hematologic malignancies, including 32 cases of acute myeoloid leukemia (AML), 18 cases of acute lymphoblastic leukemia (ALL), 2 cases of acute hybrid leukemia (AHL), 12 cases of myelodysplastic syndromes (MDS), 10 cases of chronic myelogenous leukemia (CML), 3 cases of non-Hodgkin's lymphoma (NHL) and 9 cases of multiple myeloma (MM). The resultes showed that the expression of FLT3/ITD gene could be detected in 5 of 32 (15.6%) AML patients, including 1/7 of M(3), 1/10 of M(4) and 3/10 of M(5). More FLT3 aberrations were found in AML-M(5). No FLT3/ITD was found in 18 cases of ALL, in 2 cases of AHL, in 12 cases of MDS and in 10 cases of CML. No FLT3 was found in 3 cases of NHL and in 9 cases of MM. Sequence analysis in 2 case with abnormal PCR electrophoretic patterns revealed that the ITDs were located within exon 14 from 27 to 63 bp, which was a simple tandem duplication, and did not altered the reading frame. FLT3/ITD was associated with a higher peripheral blood white cell count (p < 0.01), higher percentage of bone marrow blast cells (p < 0.01) and lower complete mission rate. It is concluded that more FLT3/ITD mutation occurs in AML-M(5) patients. Sequence of the mutants is in frame mutation. FLT3/ITD mutation is associated with higher peripheral blood white cell count, higher percentage of bone marrow blast cells and lower complete remission rate, FIT3/IID gene mutation may be used to predict prognosis of patients with AML.
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PMID:[Detection of FLT3 gene mutation in hematologic malignancies and its clinical significance]. 1770 88

The differences in clinical features and prognosis between hypoplastic myelodysplastic syndrome (h-MDS) and normo-/hypercellular MDS (NH-MDS) remain unsettled. In this study, the characteristics of 37 h-MDS patients and 152 NH-MDS patients were compared. Peripheral-blood white blood cell counts and bone marrow blast percentage were lower in h-MDS patients than in NH-MDS patients (P=0.012 and 0.016, respectively). Refractory anemia (RA) was predominant (56.8%) in h-MDS, whereas RA with excess of blast (RAEB) was most common (44.7%) in NH-MDS. Chromosomal abnormalities -7/7q- occurred less frequently in h-MDS patients than in NH-MDS patients (0 vs 18.3%, P=0.022). There was no significant difference in the prevalence of mutations of RAS, AML1, JAK2, PTPN11, FLT3/ITD, and hypermethylation of SOCS1 and SHP1 between these two groups. International Prognostic Scoring System (IPSS) was ideal for predicting prognoses in h-MDS patients (P=0.002). In low- or intermediate-1 (Int-1)-risk MDS patients, h-MDS patients had a superior survival than NH-MDS patients (P=0.01). In conclusion, distinct from NH-MDS, h-MDS patients have different patterns of hemogram, distribution of French-American-British subtypes, cytogenetic changes and prognoses. IPSS is applicable in h-MDS as in NH-MDS. In patients with low- or Int-1-risk MDS, h-MDS patients have a better prognosis than NH-MDS patients.
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PMID:Comparison of hypoplastic myelodysplastic syndrome (MDS) with normo-/hypercellular MDS by International Prognostic Scoring System, cytogenetic and genetic studies. 1809 13

Frameshift mutations of the nucleophosmin gene (NPM1) were recently reported as a frequently occurring abnormality in patients with de novo acute myeloid leukemia (AML). To evaluate the frequency of NPM1 mutations in patients with therapy-related myelodysplasia (t-MDS) and therapy-related AML (t-AML), and their possible association to type of previous therapy and to other gene mutations, 140 patients with t-MDS or t-AML were analyzed for mutations of NPM1. NPM1 mutations were observed in 7 of 51 patients presenting as overt t-AML, as compared to only 3 of 89 patients presenting as t-MDS (P=0.037). The mutations were not related to any specific type of previous therapy, but they were significantly associated with a normal karyotype and mutations of FLT3 (P=0.0002 for both comparisons). Only 1 of 10 patients with NPM1 mutations presented chromosome aberrations characteristic of therapy-related disease, and 7q-/-7, the most frequent abnormalities of t-MDS/t-AML, were not observed (P=0.002). This raises the question whether some of the cases presenting NPM1 mutations were in fact cases of de novo leukemia. The close association to class I mutations and the inverse association to class II mutations suggest mutations of NPM1 as representing a class II mutation-like abnormality in AML.
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PMID:NPM1 mutations in therapy-related acute myeloid leukemia with uncharacteristic features. 1827 44

Histomorphological evaluation of bone marrow trephines and smears represents the major approach to diagnose the chronic myeloproliferative diseases (CMPD) and the myelodysplastic syndromes (MDS). However, rising insights into molecular pathogenesis of human diseases strengthen the attempt of pathologists to define and to detect underlying defects beyond the microscope. Since discovery of the Philadelphia chromosome in chronic myeloid leukemia as the first specific molecular abnormality ever detected in a human neoplasia the gain of knowledge of molecular pathomechanisms in Philadelphia chromosome negative (Ph-) CMPD was rather sparse. A decisive breakthrough in Ph CMPD was the finding of JAK2 (V617F) derived from a somatic point mutation in the majority of patients with polycythemia vera (P.vera) and half of patients with essential thrombocythemia (ET) and primary myelofibrosis (PMF). It therefore can not be overestimated that detection of JAK2 (V617F) in a suspective myeloproliferation now enables a clearcut discrimination of a true Ph CMPD from a reactive state, e.g. P.vera from reactive erythrocytosis. Interestingly, a basic principle of molecular defects demonstrable in CMPD and related disorders seems to be the involvement of genes with kinase activities. Some of those genes will be discussed in more detail. In primary MDS, karyotyping via classical cytogenetics is the predominant molecular approach to estimate prognosis, e.g. -Y, del(5q) and del(20q) represent favourable anomalies. Indeed, in 5q- syndromes karyotyping enables definite subtyping and allows clinicians and patients to expect a good prognosis. Until now, dozens of molecular abnormalities such as mutations in AML1, FLT3 and Ras as well as epigenetic alterations of genes have been identified to various degrees in MDS subtypes. Some of them seem to be involved in disease initiation ("master event") and others might indicate disease progression. However, even though useful for further dissection of molecular pathomechanisms the majority of aberrations currently does not serve as potent markers in the daily routine. Nevertheless, in CMPD and MDS the importance of molecular analyses for diagnosis, estimation of prognosis, and disease monitoring will further increase in a foreseeable period of time.
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PMID:[Molecular diagnosis of chronic myeloproliferative diseases and myelodysplastic syndromes]. 1831 8

Disease progression in myeloid malignancies results from the accumulation of "mutations" in genes that control cellular growth and differentiation. Many types of genetic alterations have been identified in myeloid diseases. However, the mechanism(s) by which these cells acquire genetic alterations or "Genomic instability", is less well understood. Increasing evidence suggests that the genetic changes in myeloid malignancies lead to increased production of endogenous sources of DNA damage, such as, reactive oxygen species (ROS). The fusion gene BCR-ABL in chronic myeloid leukemia (CML), FLT3/ITD in acute myeloid leukemia (AML), and RAS mutations in myelodysplastic syndromes (MDS)/myeloproliferative diseases (MPD) result in ROS production. Increased ROS can drive a cycle of genomic instability leading to DNA double strand breaks (DSBs) and altered repair that can lead to acquisition of genomic changes. Evidence is coming to light that defects in a main repair pathway for DSBs, non-homologous end-joining (NHEJ), lead to up-regulation of alternative or "back-up" repair that can create chromosomal deletions and translocations. This article will review evidence for activation of RAS/PI3K/STAT pathways, that lead to increased ROS, DNA damage and defective repair in myeloid diseases, a mechanism for acquisition of additional mutations that can drive disease progression.
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PMID:Genomic instability in myeloid malignancies: increased reactive oxygen species (ROS), DNA double strand breaks (DSBs) and error-prone repair. 1846 25

Myelodysplastic syndrome (MDS) is a clonal hematopoietic stem cell disorder characterized by ineffective hematopoiesis and risk for evolving to acute leukemia. Some molecular abnormalities related to acute myeloid leukemia (AML) transformation have been reported, such as FLT3 (FMS-like tyrosine kinase 3) mutations. FLT3, a member of the class 3 receptor tyrosine kinase family, mediates stem cell proliferation and differentiation, and its mutations, internal tandem duplication (ITD) and Asp835, have been reported in rare MDS patients. We studied FLT3 ITD, prospectively, in 50 MDS patients at diagnosis, at 6 and 12 months follow-up, and at any other time-point if AML transformation was detected. FLT3 ITD was not observed at diagnosis, but during follow-up the mutation was present in 2 of 50 patients (4%). Of these, one case exhibited FLT3 ITD at the end of the 6 months of follow-up in approximately 8% of bone marrow cells; this case evolved into AML at 8 months, at which time FLT3 ITD was present in approximately 85% of bone marrow cells. The other case exhibited FLT3 ITD in 68% of bone marrow cells at 7 months, precisely at the time of AML transformation. Although rare in MDS, FLT3 ITD is associated with a high probability of evolution to AML.
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PMID:FLT3 internal tandem duplication during myelodysplastic syndrome follow-up: a marker of transformation to acute myeloid leukemia. 1850 25

Acute myelogenous leukemia (AML) with chromosomal translocation (6;9)(p23;q34) is a rare disease with poor prognosis and distinct clinical and morphologic features. t(6;9) results in a chimeric fusion gene between DEK (6p23) and CAN/NUP214 (9q34). FLT3-ITD mutation is one of the most frequent mutations in AML and correlates with poor clinical outcome. Prevalence of FLT3-ITD is as high as 70% among patients with t(6;9) AML, and patients with t(6;9) AML and FLT3-ITD mutations usually have higher white blood cell counts, higher bone marrow blasts, and significantly lower rates of complete remission. t(6;9) is most commonly associated with AML-FAB-M2 and is considered by some researchers to be a separate disease entity because of its distinct clinical and morphologic features and poor prognostic implication. Distinct morphologic features of this entity include marrow basophilia and myelodysplasia, and immunophenotypically, the blast cells are positive for CD9, CD13, CD33, and HLA-DR; are usually positive for CD45 and CD38; and may be positive for CD15, CD34, and terminal deoxynucleotidyl transferase.
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PMID:Acute myelogenous leukemia with t(6;9)(p23;q34) and marrow basophilia: an overview. 1897 25

Although some studies have validated the 2001 World Health Organization (WHO) classification of acute myeloid leukemia (AML), including the importance of multilineage dysplasia, others have suggested that multilineage dysplasia correlates with unfavorable cytogenetics but has no independent impact on prognosis. In 2008, the revised WHO classification has expanded this category into "AML with myelodysplasia-related changes" (AML-MRC). We evaluated the clinical, pathologic, cytogenetic, and molecular features of 100 AML patients using the 2008 WHO criteria. Patients underwent genetic screening for NPM1, FLT3-ITD, FLT3-D835, and CEBPA mutations. Compared with patients with AML, not otherwise specified, patients with AML-MRC were significantly older (P= .014), presented with a lower hemoglobin (P= .044), more frequently expressed CD14 (P= .048), and exhibited a decreased frequency of CEBPA mutations (P= .001). Multivariate analysis indicated that patients with AML-MRC had a significantly worse overall survival, progression-free survival, and complete response compared with AML-not otherwise specified (all P< .001). These data support the clinical, morphologic, and cytogenetic criteria for this 2008 WHO AML category.
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PMID:Clinical characterization of acute myeloid leukemia with myelodysplasia-related changes as defined by the 2008 WHO classification system. 1913 46

Elderly acute myeloid leukaemia (AML) patients have a dismal prognosis due to biological features of disease in itself and to presence of comorbidities. Aim of this study was to evaluate the prognostic impact of comorbidity prognostic score systems applied in our population of patients. as well as other clinical-biological features. We retrospectively considered the outcome of 120 patients aged >65 years diagnosed as having AML between January 2001 and December 2005. Comorbidities were evaluated by using Charlson comorbidity index (CCI), Hematopoietic cell transplantation comorbidity index (HCTCI) and a score proposed by Dombret et al. in 2007. Median patient age was 67 years. Forty-six patients were treated with intensive chemotherapy and 23 reached a complete remission. Seventy-four patients received only supportive therapies or low-dose chemotherapy. Multivariate analysis showed the effects of leukocytosis (p = 0.0013), antecedent Myelodysplastic syndrome (MDS) (p = 0.011), FLT3 abnormalities (p = 0.032), CCI (p = 0.0037) and Dombret et al. score (p = 0.045) as independent prognostic parameters for survival. Based on these variables we were able to stratify patients in low and high risk, with different median overall survival: patients were considered as low risk if they had none or only one of the above mentioned adverse factors for survival, with a median overall survival of 447 days. Patients with two or more adverse factors were categorized as high risk: this subgroup had a median overall survival of 227 days (p = 0.001). Comorbidities are independent factors that influence survival. Application of CCI and Dombret score may help to better identify patients at diagnosis who can benefit from intensive chemotherapy.
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PMID:Comorbidities and FLT3-ITD abnormalities as independent prognostic indicators of survival in elderly acute myeloid leukaemia patients. 1927 12

It is now conceivable that leukemogenesis requires two types of mutations, class I and class II mutations. We previously established a mouse bone marrow-derived HF6, an IL-3-dependent cell line, that was immortalized by a class II mutation MLL/SEPT6 and can be fully transformed by class I mutations such as FLT3 mutants. To understand the molecular mechanism of leukemogenesis, particularly progression of myelodysplastic syndrome (MDS) to acute leukemia, we made cDNA libraries from the samples of patients and screened them by expression-cloning to detect class I mutations that render HF6 cells factor-independent. We identified RasGRP4, an activator of Ras, as a candidate for class I mutation from three of six patients (MDS/MPD = 1, MDS-RA = 1, MDS/AML = 2, CMMoL/AML = 1 and AML-M2 = 1). To investigate the potential roles of RasGRP4 in leukemogenesis, we tested its in vivo effect in a mouse bone marrow transplantation (BMT) model. C57BL/6J mice transplanted with RasGRP4-transduced primary bone marrow cells died of T cell leukemia, myeloid leukemia, or myeloid leukemia with T cell leukemia. To further examine if the combination of class I and class II mutations accelerated leukemic transformation, we performed a mouse BMT model in which both AML1 mutant (S291fsX300) and RasGRP4 were transduced into bone marrow cells. The double transduction led to early onset of T cell leukemia but not of AML in the transplanted mice when compared to transduction of RasGRP4 alone. Thus, we have identified RasGRP4 as a gene potentially involved in leukemogenesis and suggest that RasGRP4 cooperates with AML1 mutations in T cell leukemogenesis as a class I mutation.
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PMID:Possible involvement of RasGRP4 in leukemogenesis. 1935 Mar 51

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