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)

The presence of activated transforming genes was investigated in four patients with therapy-related leukemia and in three with therapy-related myelodysplastic syndrome. DNA of bone marrow cells from six of the patients exhibited transforming activity in the tumorigenicity assay. Five of the six patients who were positive in the tumorigenicity assay contained activated N-ras oncogenes, and three contained activated K-ras oncogenes. Thus, concurrent activation of N-ras and K-ras oncogenes was observed in two patients. In vitro DNA amplification followed by oligonucleotide dot-blot analysis was used to investigate mutations in codons 12, 13, and 61 of the N-ras and K-ras oncogenes. Two patients exhibited an N-ras mutation, substituting aspartic acid (GAT) for glycine (GGT), and three patients exhibited an N-ras codon 13 mutation, substituting valine (GTT) for glycine. Two patients exhibited K-ras codon 12 mutations, substituting aspartic acid (GAT) or cysteine (TGT) for glycine (GGT), respectively, and one case exhibited a K-ras codon 61 mutation, substituting lysine (AAA) for glutamic acid (CAA). Cytogenetic analysis revealed that loss of chromosome 7 was frequent (four patients: 57%). Our data indicate that activation of N-ras and K-ras genes, as well as loss of heterozygosity for specific alleles on chromosome 7, plays a more important role in the leukemogenesis of both therapy-related leukemia and myelodysplastic syndrome.
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PMID:Transforming genes and chromosome aberrations in therapy-related leukemia and myelodysplastic syndrome. 185 83

DNA from 161 patients with various forms of hematologic malignancies were investigated for mutations in exons 1 and 2 of the N-RAS, K-RAS and Ha-RAS gene by direct sequencing of DNA amplified in vitro by the polymerase chain reaction. Mutations involving either codons 11, 12, or 13 of the N-RAS gene were identified in 18 of the 161 patients. The relative frequencies of N-RAS gene mutations in these hematologic disorders was as follows: acute myelogenous leukemia (AML), 15%; acute lymphoblastic leukemia (ALL), 14%; myelodysplastic syndromes, 24%; and myeloid and lymphoid blast crisis of chronic myelogenous leukemia (CML), 3%. No correlation was observed between the presence of mutations and cytologic features or immunophenotype of these malignancies. Mutations involving codons 12 or 13 were equally prevalent, with a glycine to aspartic acid substitution being the most frequently encountered change. A single T-ALL case had a codon 11 mutation resulting in substitution of alanine with threonine. We failed to find mutations in exons 1 and 2 of the K-RAS or Ha-RAS genes in any case except a single AML with a mutation in codon 61 of the K-RAS gene. Also, no mutations were identified in chronic phase of CML, chronic lymphocytic leukemia. Ph1 positive ALL, non-Hodgkin's lymphoma, Hodgkin's disease, or multiple myeloma. These results indicate that RAS mutations, especially those involving exon 1 of the N-RAS gene, are frequent only in a subset of hematologic malignancies.
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PMID:The pattern of mutational involvement of RAS genes in human hematologic malignancies determined by DNA amplification and direct sequencing. 218 88

The ras proto-oncogenes encode membrane bound proteins (p21) which are structurally distinct from the proteins encoded by the activated transforming ras genes. These activated ras genes have been identified in various human tumors as well as their preneoplastic lesions such as colorectal tumors (20-40%), pancreatic carcinomas (95%), lung carcinomas (20-30%), myelodysplasia (40%) and acute myeloid leukemia (30%). The activation of ras p21 is due to amino acid substitutions at positions 12, 13 or 61 of the p21 protein. This report describes two monoclonal antibodies designated D129 and D146 raised against a synthetic peptide corresponding to amino acids 5-16 of ras p21 activated by the substitution of aspartic acid for glycine at position 13. D129 and D146 react specifically with the peptide with the aspartic acid substitution at position 13, but not with the peptide with valine at position 13 or the peptide containing the normal glycine at position 13. Western blot analysis demonstrates that D129 and D146 react specifically with p21 extracted from transformed NIH3T3 fibroblast lines containing aspartic acid at position 13. These studies also demonstrate that D146 is able to detect the activated p21 with aspartic acid at position 13 that is shed into the culture media. Studies demonstrate that MAb D146 specifically immunoprecipitates the cellular p21 with aspartic acid at position 13 from transformed NIH3T3 cells, whereas D129 cannot immunoprecipitate the activated p21. Using a sandwich ELISA format, D146 is able to detect the p21 with position 13 aspartic acid from cell extracts and culture fluids. The ability of D146 to function in the ELISA format raises the possibility that this assay maybe a quick and effective way of determining the presence of activated p21 with aspartic acid at position 13 in human fluids and tissues.
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PMID:Characterization of monoclonal antibodies specific to the activated ras p21 with aspartic acid at position 13. 220 49

Mutations in codons 12 or 13 of the first exon of the N-RAS gene have been reported in myelodysplastic syndromes (MDS) in frequencies that vary between 9% and 40% depending on the techniques used in analysis. Gene amplification and direct sequencing provides the only unambiguous method of detecting those mutations that induce amino acid alterations. Using this technique, we analyzed 21 MDS patients for mutations in exon-1 of N-RAS. Codon 12 mutations substituting aspartic acid (GAT) for glycine (GGT) were found in four cases, and a codon 13 mutation substituting alanine (GCT) for glycine (GGT) was detected in one patient. We conclude that N-RAS exon-1 mutations in one patient. We conclude that N-RAS exon-1 mutations producing amino acid changes occur in about 20% to 25% of MDS cases.
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PMID:Analysis of N-RAS exon-1 mutations in myelodysplastic syndromes by polymerase chain reaction and direct sequencing. 264 13

Activation of the cellular oncogene c-N-ras has been frequently observed in DNA from leukemic cells in acute myeloid leukemia (AML). Ras gene activation sufficient to mediate in vitro transformation and rodent tumorigenesis usually results from point mutations and amino acid substitutions in the 12th or 61st codons. In AML and the related myelodysplastic syndromes, amino acid substitution at the 13th codon has been observed. An activated c-N-ras gene from a 45-year-old patient with AML was isolated by transfection analysis and subjected to molecular cloning and sequence analysis. A point mutation of the 12th codon (GGT to GAT) resulting in aspartic acid substitution for glycine was observed. In other neoplasms such as colon cancer, specific ras mutations occur predominantly (e.g., K-ras, codon 12). This predominance has been of demonstrable value in analyzing large cohorts for ras activation with techniques that are rapid and economical, such as oligonucleotide hybridization. It had previously been thought that such a predominance for activation of c-N-ras at codon 13 existed in AML; however, this study in concert with others underscores the importance of 12th codon c-N-ras mutations, along with 13th and 61st codon mutations in the molecular pathogenesis of AML. Guanylate to adenylate transition mutations are commonly observed in AML and may provide insight into potential environmental leukemogens. Addressing all commonly prevalent ras activating mutations bears impact in the future design of molecular surveys of the role of ras activation in leukemogenesis.
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PMID:12th codon mutation resulting in c-N-ras activation in acute myelogenous leukemia. 327 72

Karyotypic analysis was performed in a total of 69 patients with well-characterized idiopathic myelofibrosis. Karyotypic abnormalities were detected in 46% of cases examined during the chronic phase (29/63); with three abnormalities, del(13q), del(20q) and partial trisomy 1q, accounting for 75% of all abnormalities at diagnosis. The absence of del(5q), trisomy 8 and 21, as well as the rarity of monosomy 7, contrasts with pooled published data and may reflect our exclusion of closely related disorders, in particular MDS with fibrosis. Chromosomal aberrations increased to approximately 90% (8/9) in patients analysed during acute transformation. Mutational activation of codons 12, 13 and 61 of N-, Ha- and Ki-ras genes were assessed by polymerase chain reaction and hybridization with synthetic non-radioactive digoxigenin-labelled probes. Three mutations were detected in samples of peripheral blood DNA taken from 50 patients during the chronic phase of their disease: one N12 Asp (GGT-->GAT) and two N12 Ser (GGT-->AGT) mutations. The results from this study indicate that karyotypic abnormalities are present in at least 29% of cases at diagnosis and that del(13q), del(20q) and partial trisomy 1q are the most frequent findings. Ras mutations were relatively infrequent (6%) and appeared restricted to the N-ras gene. Karyotypic analysis at diagnosis was found to be of prognostic significance.
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PMID:Karyotypic and ras gene mutational analysis in idiopathic myelofibrosis. 781 70

Patients who have received cytotoxic therapy for primary neoplastic disease are at an increased risk of developing secondary (therapy-related) acute myeloid leukaemia (AML) or myelodysplasia (MDS). RAS and FMS mutations have been observed in patients with AML and MDS. It has been suggested that the mutational status within these genes may be predictive of early secondary leukaemic disease. In this study we have screened 50 haematologically normal patients in complete remission from childhood acute lymphoblastic leukaemia (ALL) for activating point mutations in the RAS and FMS proto-oncogenes. Such patients may be considered at risk of therapy-related disease. Codons 12, 13 and 61 were screened in RAS and codon 969 in FMS using the polymerase chain reaction (PCR) followed by oligonucleotide hybridization (ONH). Three of the 50 patients (6%) were found to harbour N12 RAS mutations. One of these three patients (2%) had both a N12 RAS and FMS 969 mutation. Upon sequencing the RAS mutations, substitutions of serine, cysteine and aspartic acid for glycine were identified. The FMS 969 mutation was also confirmed, by sequencing, as a histidine substitution. RAS mutations were not detected in presentation samples indicating that these lesions have been somatically acquired presumably subsequent to cytotoxic therapy for the primary disease. Continued follow-up of these patients may indicate a role for these mutations in the development of secondary malignancies.
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PMID:RAS and FMS mutations following cytotoxic therapy for childhood acute lymphoblastic leukaemia. 756 28

One of the first known effects of the endogenous peptide N-acetyl-Ser-Asp-Lys-Pro (AcSDKP) is to inhibit entry into DNA synthesis of pluripotent haematopoietic stem cells (CFU-S) in mice. A specific anti-AcSDKP polyclonal antibody allows the level of the tetrapeptide by to be determined by enzyme immunoassay with good sensitivity and specificity. We present results demonstrating the presence of AcSDKP in humans: serum levels of 34 healthy controls were found to be between 0.7 and 2.5 pm/ml, regardless of age and sex. High levels were found in 44% of asymptomatic controls but only in 8% of AIDS patients out of a total of 37 patients with HIV. Subsequently, studies of serum levels were performed before treatment in 121 subjects with disorders of the nonlymphoid and the lymphoid lineages. Our results did not demonstrate any decrease in serum levels, however a moderate or marked increase was noted in one-third of the subjects, which was greater in disorders of the non-lymphoid lineages (48% of 72 patients) than the lymphoid lineage (21% of 50 patients). The most significant differences were observed between controls versus patients with myeloproliferative disorders (MPD, 24 patients: p < 0.001), controls versus patients with acute myelogenous leukaemia (AML, 15 patients: p < 0.02), as well as patients with AML versus patients with primary myelodysplastic syndromes (PMDS, 10 patients: p < 0.05). The pathophysiology of these abnormalities is discussed.
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PMID:Serum levels of a negative regulator of cell proliferation (AcSDKP) are increased in certain human haemopathies. 850 76

Although mast cells (MC) appear to be myeloid cells, MC lineage involvement in myelogenous malignancies has been described only rarely. Based on clonal evolution, biology of afflicted cells, and disease criteria, three major groups of patients have been recognized: The first meets criteria for both diagnoses 'systemic mastocytosis' and 'associated hematologic clonal non-mast cell lineage disease (AHNMD)'. In such patients, myeloproliferative (MPS) or myelodysplastic syndromes (MDS), or acute myeloid leukemia (AML) is diagnosed apart from mastocytosis. In a second group of patients, large numbers of very immature MC-lineage cells (metachromatically granulated blast-like cells) are detectable, but the criteria to diagnose mastocytosis are not met. These patients have advanced myeloid neoplasms (MDS or MPS with blast cell increase, or AML) and variably suffer from mediator-related symptoms (flush, GI-tract ulcer, diarrhoea, coagulopathy). In some cases, the disease mimics mast cell- or basophilic leukemia. In contrast to basophilic leukemia, however, the metachromatic cells are strongly KIT+ and tryptase+. In contrast to true mast cell leukemia (MCL), MC do not form multifocal dense infiltrates in the bone marrow. Also, MC lack CD2 and CD25, and the C-KIT mutation Asp-816-Val. We propose the term 'myelomastocytic leukemia' or 'myelodysplastic mast cell syndrome' for these cases. In a third group of patients, myeloid neoplasms (MDS, MPS, AML) show constitutive expression of MC-associated antigens (tryptase, histamine) or mastocytosis-related gene defects (mutated C-KIT) without significant increase in metachromatic cells or criteria of mastocytosis. Whether these neoplasms display aberrant gene expression (or gene defects) or represent 'pre-pre-mast cell leukemias', remains unknown.
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PMID:Myelomastocytic overlap syndromes: biology, criteria, and relationship to mastocytosis. 1137 85

The transcription factor RUNX-1 plays a key role in megakaryocyte differentiation and is mutated in cases of myelodysplastic syndrome and leukemia. In this study, we purified RUNX-1-containing multiprotein complexes from phorbol ester-induced L8057 murine megakaryoblastic cells and identified the ets transcription factor FLI-1 as a novel in vivo-associated factor. The interaction occurs via direct protein-protein interactions and results in synergistic transcriptional activation of the c-mpl promoter. Interestingly, the interaction fails to occur in uninduced cells. Gel filtration chromatography confirms the differentiation-dependent binding and shows that it correlates with the assembly of a complex also containing the key megakaryocyte transcription factors GATA-1 and Friend of GATA-1 (FOG-1). Phosphorylation analysis of FLI-1 with uninduced versus induced L8057 cells suggests the loss of phosphorylation at serine 10 in the induced state. Substitution of Ser10 with the phosphorylation mimic aspartic acid selectively impairs RUNX-1 binding, abrogates transcriptional synergy with RUNX-1, and dominantly inhibits primary fetal liver megakaryocyte differentiation in vitro. Conversely, substitution with alanine, which blocks phosphorylation, augments differentiation of primary megakaryocytes. We propose that dephosphorylation of FLI-1 is a key event in the transcriptional regulation of megakaryocyte maturation. These findings have implications for other cell types where interactions between runx and ets family proteins occur.
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PMID:Differentiation-dependent interactions between RUNX-1 and FLI-1 during megakaryocyte development. 1947 Jul 63

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