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)

In this study, we examined a pediatric case of therapy-related myelodysplastic syndrome (tMDS). The symptoms developed 17 months after treatment for acute myeloblastic leukemia (AML, M2 subtype according to the French-American-British [FAB] classification) involving a chromosome abnormality at t(8;21)(q22;q22). Upon diagnosis of tMDS, spectral karyotyping analysis detected a new chromosomal translocation at t(2;8)(p23;p11.2). In addition, fluorescence in situ hybridization analysis suggested a rearrangement in the monocytic leukemia zinc finger (MOZ) gene, located in the 8p11 region of chromosome 8. However, no partner gene on 2p23 could be identified. To our knowledge, this is the first report of tMDS associated with a rearrangement of the MOZ gene. MOZ-linked fusion proteins such as MOZ-CBP (CREB binding protein), MOZ-TIF2 (transcriptional intermediary factor 2), and MOZ-p300 (adenoviral E1A-associated protein) are associated with AML chromosomal abnormalities at t(8;16)(p11;p13), inv(8)(p11q13), and t(8;22)(p11;q13), respectively, and are thought to account for leukemogenesis occurring through the aberrant regulation of histone acetylation. Through a similar mechanism, we believe that MOZ, fused to an unidentified partner gene at 2p23, may have caused an alteration in histone acetylation, resulting in the development of tMDS in this patient.
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PMID:Rearrangement of the MOZ gene in pediatric therapy-related myelodysplastic syndrome with a novel chromosomal translocation t(2;8)(p23;p11). 1261 66

Myelodysplastic syndrome (MDS) is a family of clonal disorders of hematopoietic stem cells that are characterized by ineffective hematopoiesis and susceptibility to acute myelogenous leukemias and are shown to be strikingly refractory to current therapeutic modalities. A substantial proportion of these complex diseases arises in the setting of exposures to environmental or occupational toxins, including cytotoxic therapy for a prior malignancy or other disorder. The conversion of a normal stem cell into a preleukemic and ultimately leukemic state is a multistep process requiring the accumulation of a number of genetic lesions. At the genomic level, MDS is typified by losses and translocations involving certain key gene segments, with disruption of the normal structure and function of genes that control the balance of proliferation and differentiation of hematopoietic precursors. More than half of the chromosomal abnormalities in MDS comprise deletions of chromosomes 5, 7, 11, 12, 13 and 20. This evidence suggests that as yet unidentified tumor-suppressor genes should have important roles in the molecular mechanisms of MDS. Further molecular approaches to such genetic lesions will identify the relevant tumor-suppressor genes. Over the past years, major signal transduction molecules have been identified and their genetic alterations have been extensively analyzed in both MDS and leukemias. These include receptors for growth factors, RAS signaling molecules, cell cycle regulators and transcription factors. Notable among them are transcription factors that regulate both proliferation and differentiation of hematopoietic stem cells. The disruption of the normal flow of the signal transduction pathways involving these molecules translates into ineffective multilineage hematopoiesis and bone marrow failure. Therefore, MDS provides a fertile testing ground on which we could study the molecular dissection implicated in the multistep leukemogenesis.
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PMID:Molecular mechanisms of myelodysplastic syndrome. 1281 Aug 28

The p14(ARF), p15(INK4B), and p16(INK4A) genes are important negative cell-cycle regulators often inactivated by deletions, mutations, or hypermethylation in malignancy. Hypermethylation of the three genes was studied in 81 patients with therapy-related myelodysplasia (t-MDS) or acute myeloid leukemia (t-AML) by methylation-specific PCR, and p15 methylation additionally by bisulfite genomic sequencing. In all, 55 patients disclosed p15 methylation, five patients showed p16 methylation, whereas p14 methylation was not observed. Methylation of p15 was closely associated with deletion or loss of chromosome arm 7q (P=0.0006). In t-MDS, the p15 methylation frequency and the p15 methylation density both increased significantly by stage (P=0.004 and 0.0002), and p15 methylation frequency increased with an increasing percentage of myeloblasts in the bone marrow (P=0.006). In a two-variable Cox model including the percentage of myeloblasts, p15 methylation was an independent prognostic factor (P=0.005). Methylation of p15 was less common in t-AML of subtype M5 than in other FAB subtypes (P=0.03). Methylation of p15 was unrelated to type of previous therapy, to latent period from start of therapy, to platelet count, and to p53 mutations. Inactivation of p15 and deletion of genes on chromosome arm 7q possibly cooperate in leukemogenesis.
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PMID:Methylation of p15INK4B is common, is associated with deletion of genes on chromosome arm 7q and predicts a poor prognosis in therapy-related myelodysplasia and acute myeloid leukemia. 1297 Jul 81

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

Patients with myeloid malignancies and either the 3q21q26 syndrome or t(1;3)(p36;q21) have been reported to share similar clinicopathological features and a common molecular mechanism for leukemogenesis. Overexpression of MDS1/EVI1 (3q26) or MEL1/PRDM16 (1p36), both members of the PR-domain family, has been directly implicated in the malignant transformation of this subset of neoplasias. The breakpoints in both entities are outside the genes, and the 3q21 region, where RPN1 is located, seems to act as an enhancer. MEL1 has been reported to be expressed in leukemia cells with t(1;3) and in the normal uterus and fetal kidney, but neither in bone marrow (BM) nor in other tissues, suggesting that this gene is specific to t(1;3)-positive MDS/AML. We report the molecular characterization of a t(1;3)(p36;q21) in a patient with MDS (RAEB-2). In contrast to previous studies, we demonstrate that MEL1, the PR-containing form, and MEL1S, the PR-lacking form, are widely expressed in normal tissues, including BM. The clinicopathological features and the breakpoint on 1p36 are different from cases previously described, and MEL1 is not overexpressed, suggesting a heterogeneity in myeloid neoplasias with t(1;3).
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PMID:Molecular characterization of a t(1;3)(p36;q21) in a patient with MDS. MEL1 is widely expressed in normal tissues, including bone marrow, and it is not overexpressed in the t(1;3) cells. 1471 37

A 22-year-old man with chronic myeloid leukemia (CML) received fractionated total body irradiation (TBI) (1440cGy) and etoposide (60 mg/kg) followed by infusion of 10 x 10(6) /kg CD34+ selected stem cells from his mother. Donor and recipient were 50% matched at the HLA-A and -B loci and 100% at HLA-DR. Mixed lymphocyte culture reaction was negative. Post-stem cell transplant (SCT) immunosuppression consisted of antithymocyte globulin, cyclosporine, and prednisone, and was discontinued after 7 months. The donor graft was rejected 2 years post-SCT. At 7 years post-SCT, he is clinically well with normal blood counts and no evidence of CML or myelodysplasia despite the presence over 6 years of multiple clones with balanced translocations and deletions in host bone marrow cells. The emergence of clonal hematopoiesis may provide insights into therapy-related leukemogenesis.
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PMID:Multiple unrelated clonal abnormalities in host bone marrow cells after allogeneic stem cell transplantation. 1506 8

The AML1 transcription factor is essential for normal hematopoiesis and is the target of several chromosomal translocations in acute leukemia. Acquired somatic AML1 mutations were recently demonstrated sporadically in de novo myelodysplasia (MDS) and acute myeloid leukemia (AML) including a few cases of therapy-related disease (t-MDS/t-AML). We examined 140 patients with t-MDS or t-AML for AML1 mutations by direct sequencing. We identified 9 missense, 3 nonsense, and 10 frameshift mutations, all heterozygous, in 22 patients (15.7%). Thirteen mutations were located in the N-terminal Runt homology domain (RHD), whereas 9 mutations were located in the C-terminal region including the transactivation domain (TAD). Nineteen patients with AML1 mutations had previously received alkylating agents whereas 2 patients had received radiotherapy only. AML1 mutations were highly significantly associated with presentation of the disease as t-MDS (P =.003), with deletion or loss of chromosome arm 7q (P =.001) and with subsequent transformation to overt t-AML (P =.0001). Patients with missense mutations presented a shorter survival compared with patients with nonsense/frameshift mutations (P =.03). Our results suggest that AML1 mutations and deletion of genes on chromosome arm 7q cooperate in leukemogenesis and predispose to leukemic transformation.
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PMID:Mutations of AML1 are common in therapy-related myelodysplasia following therapy with alkylating agents and are significantly associated with deletion or loss of chromosome arm 7q and with subsequent leukemic transformation. 1514 76

CREB-binding protein (CBP) and highly related p300 protein are transcriptional co-activators that play an essential role in chromatin remodeling through histone acetyltransferase activity and interaction with other transcriptional regulators. In this study, various hematological malignancies, including nine cell lines and 45 clinical samples (32 acute myeloid leukemias (AML), nine acute lymphoblastic leukemias (ALL), two cases of myelodysplastic syndrome (MDS), one multiple myeloma, and one chronic myelogenous leukemia in blast crisis), were examined to ask whether mutation of the CBP and p300 genes could be involved in leukemogenesis. The answer was approached by employing the reverse transcription-polymerase chain reaction and single-strand conformation polymorphism (RT-PCR/SSCP) technique and subsequent sequence analysis. A T-lymphoblastic cell line, CEM had an in-frame 21-base-pair deletion within the bromodomain of its p300 cDNA. Genomic DNA analysis revealed aberrant splicing caused by mutation of the acceptor site of intron 17 from ag to gg, which should interfere with catalytic step II of the pre-mRNA splicing reaction. In 1 MDS patient, a missense mutation was detected, which caused a replacement from Ser to Gly at codon 507 of p300. This is the first report of CBP/p300 mutations in leukemias, which might be relatively rare but nonetheless contribute to pathogenesis in some fraction of cases.
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PMID:Disease-related potential of mutations in transcriptional cofactors CREB-binding protein and p300 in leukemias. 1531 79

In the majority of cases of overt acute myeloid leukemia (AML), there is no knowledge about a preleukemic phase of myelodysplastic syndrome (MDS). A few recent case-control studies suggest an association between MDS and several occupations. We report a unique case of MDS/AML related to the patient's work condition with numerous cytostatic agents. The karyotype revealed a spectrum of genetic rearrangements identified by conventional cytogenetics, fluorescence in situ hybridization (FISH) and spectral karyotyping (SKY). We suggest that amplification of chromosomal material may play a greater role in leukemogenesis than has been recognized previously.
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PMID:Complex cytogenetics in a case of probably work related MDS/AML. 1547 79

We have identified a novel gene, upstream of the cytokine gene cluster region in 5q23-31, residing within one of the most common deleted segments associated with MDS. The novel gene exhibits significant alternative splicing generating at least six splice variants encoding four putative proline-rich protein isoforms, one of which is Golgi-associated. The gene is ubiquitously expressed and conserved among species with the C. elegans homologue being the most interesting, since it resides within an operon with two other genes, phospholipase D and dishevelled, a member of the Wnt pathway, suggesting a functional association. In addition, the novel gene and other key regulatory genes of the region, such IL3, Ril, AF5q31 and TCF-1, were found to be deleted in an atypical CML case, thus underscoring the significance of this subregion in the leukemogenesis process.
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PMID:Structural analysis and expression profile of a novel gene on chromosome 5q23 encoding a Golgi-associated protein with six splice variants, and involved within the 5q deletion of a Ph(-) CML patient. 1554 71

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