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 neurofibromatosis 1 (NF1) gene product, neurofibromin, contains a GTPase-activating protein (GAP)-related domain, or NF1 GRD, that is able to down-regulate p21ras by stimulating its intrinsic GTPase. Since p21ras.GTP is a major regulator of growth and differentiation, mutant neurofibromins resulting from somatic mutations in the NF1 gene might interfere with ras signaling pathways and contribute to the development of tumors. We describe an amino acid substitution in the NF1 GRD, altering Lys-1423, that has occurred in three tumor types: colon adenocarcinoma, myelodysplastic syndrome, and anaplastic astrocytoma, and in one family with neurofibromatosis 1. The GAP activity of the mutant NF1 GRD is 200- to 400-fold lower than that of wild type, whereas binding affinity is unaffected. Thus, germline mutations in NF1 that cause neurofibromatosis 1 can also occur in somatic cells and contribute to the development of sporadic tumors, including tumors not associated with neurofibromatosis 1.
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PMID:Somatic mutations in the neurofibromatosis 1 gene in human tumors. 156 47

The frequency of RAS activation was studied in 48 patients with acute myeloid leukaemia (AML) or with myelodysplastic syndromes (MDS), in order to address the question of whether patients possessing monosomy 7 or other alterations of chromosome 7 have a higher incidence of RAS activation than those lacking chromosome 7 abnormalities. Samples were screened for oncogenic point mutation by DNA amplification followed by oligonucleotide hybridization analysis at codons 12, 13 and 61 of N-RAS and codons 12 and 13 of K-RAS. Two additional samples were considered to have activated RAS due to additional karyotypic abnormalities t(5;12) or loss of both copies of chromosome 17 and hence, the neurofibromatosis (NF1) loci. The group of chronic myelomonocytic leukaemia (CMML) patients had activated RAS in 4/11 cases and inclusion of two CMMLt patients (with monosomy 7) brings this incidence to 5/13. No change in frequency of RAS activation was seen between groups containing de novo AML samples with or without chromosome 7 abnormalities (1/5 and 2/12, respectively). However, assessment of MDS samples in the process of, or subsequent to, leukaemic progression showed a difference between the two groups. The frequency of RAS activation in samples with monosomy 7 was 4/9 samples while none of the seven samples without chromosome 7 changes showed RAS activation. The co-existence of RAS activation and monosomy 7 in MDS indicates that these lesions can co-operate in the multistep process of leukemogenesis.
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PMID:Possible co-existence of RAS activation and monosomy 7 in the leukaemic transformation of myelodysplastic syndromes. 750 Jun 52

Myelodysplastic syndrome (MDS) in childhood is considered to be very rare, but sound epidemiologic data are lacking. We report a population-based study of MDS in Denmark from 1980 to 1991. The medical charts were reviewed of 988 children identified from the Danish National Hospital Discharge Registry with a diagnosis of myeloid leukemia or blood cytopenia. Blood and bone marrow smears from all cases of possible MDS were re-evaluated. The cases were categorized according to the FAB classification, with the exception of chronic myelomonocytic leukemia (CMML) in which more than 5% myeloblasts in the blood was accepted. Juvenile chronic myeloid leukemia (JCML) was included as CMML. MDS was diagnosed in 46 children representing 9% of all hematologic malignancies in children less than 15 years of age. The annual incidence was 4.0/million and did not increase with time. Refractory anemia with excess of blasts and CMML each accounted for one third of the cases. Down syndrome was present in seven children. Other predisposing conditions included Fanconi anemia, neurofibromatosis, constitutional trisomy 8 mosaicism, and familial leukemia. Only one child had therapy-related MDS. The study indicates that the incidence of childhood MDS is higher than generally assumed and approximate to the incidence of acute myeloid leukemia.
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PMID:Childhood myelodysplastic syndrome in Denmark: incidence and predisposing conditions. 765 25

G2 chromosomal sensitivity to bleomycin (30 micrograms/ml) was tested in PHA-stimulated lymphocytes of healthy subjects and in patients with familial and sporadic tumors. These were multiple endocrine neoplasias (MEN) types 1, 2A and 2B, familial medullar thyroid cancer, Recklinghausen neurofibromatosis type I, sporadic and hereditary malignant tumors, and a preleukemic disorder, the myelodysplastic syndrome. Control subjects were either young (15-20), middle-aged (28-49) or old (70-83 years). Cells from old healthy subjects and from subjects with MEN 1 showed increased sensitivity to clastogenic effects of bleomycin. All the remaining investigated groups were insignificantly different from controls. Our data suggest that in contrast with recessively inherited syndromes with chromosome instability the mutagen hypersensitivity, as evaluated by the extent of chromosomal damage, is not a feature of most dominantly inherited tumor syndromes.
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PMID:Chromosome sensitivity to bleomycin in patients with dominantly inherited and sporadic tumors. 768 69

Children with neurofibromatosis, type 1 (NF-1) are at increased risk of developing malignant myeloid disorders and their bone marrows frequently show loss of the normal allele of the NF1 tumor-suppressor gene. NF1 encodes a protein called neurofibromin, which accelerates guanosine triphosphate (GTP) hydrolysis on the p21ras (Ras) family of signaling proteins. We used a genetic approach to test the hypothesis that NF1 negatively regulates myeloid cell growth through its effect on Ras. This model predicts that, if RAS mutations and loss of NF1 function deregulate myeloid growth by the same biomechanical mechanism, then activating RAS mutations will be restricted to children with malignant myeloid disorders who do not have NF-1. We studied 71 children, including 28 with bone marrow monosomy 7 syndrome (Mo7), 35with juvenile chronic myelogenous leukemia (JCML), three with other forms of preleukemia, and five with acute myelogenous leukemia (AML), for activating mutations of KRAS and NRAS. The incidence of RAS mutations was 21% (12 of 55) in patients without NF-1 and 0% (zero of 16) in children with NF-1 (P = .04). Among the 55 patients who did not have NF-1, we found RAS mutations in four of 27 with Mo 7, in five of 24 with JCML, in two of 3 with AML, and in a patient with myeloproliferative syndrome (MPS). These data from primary human cancer cells provide strong genetic evidence that NF1 limits the growth of myeloid cells by regulating Ras.
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PMID:Genetic analysis is consistent with the hypothesis that NF1 limits myeloid cell growth through p21ras. 794 98

We report the case of a 14-month-old boy with myelodysplastic syndrome (refractory anemia with blast excess) and bone marrow monosomy 7. Within 2 years after presentation hematological remission gradually occurred without any chemotherapy. After the patient had received three transfusions within the first 4 months, red cell production normalized. However it took 18 more months for neutropenia to resolve. The patient is well 34 months after the first presentation. Molecular analysis of the bone marrow blasts showed no mutations of the ras genes or of the FLR-exon of the NF-1 gene. To our knowledge this is the first report of monosomy 7 syndrome with spontaneous hematological remission.
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PMID:Spontaneous hematological remission in a boy with myelodysplastic syndrome and monosomy 7. 805 84

A mutational hotspot in the neurofibromatosis 1 (NF1) gene has recently emerged from the analysis of different malignancies including one patient with myelodysplastic syndrome (MDS). In these cases, Lys 1423 in the GTPase-activating protein (GAP)-related domain of NF1 is substituted which causes a significant reduction of intrinsic GAP activity. We studied 57 MDS patients and 27 cases of acute myelocytic leukemia (AML) for mutations at codon 1423 in the so-called FLR exon of NF1 by an assay based on restriction enzyme digestion. We investigated the entire FLR exon and its flanking intron sequences using single-strand conformation polymorphism (SSCP) analysis of polymerase chain reaction (PCR) products and sequencing. None of the cases exhibited a codon 1423 mutation. However, a patient with chronic myelomonocytic leukemia (CMML) showed a 3 bp deletion within the splice acceptor region in front of the FLR exon. These data suggest that NF1 exon FLR mutations contribute infrequently to the development of MDS and AML.
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PMID:Mutations within the FLR exon of NF1 are rare in myelodysplastic syndromes and acute myelocytic leukemias. 832 Oct 21

Juvenile myelomonocytic leukemia (JMML) is a pediatric myelodysplastic syndrome that is associated with neurofibromatosis, type 1 (NF1). The NF1 tumor suppressor gene encodes neurofibromin, which regulates the growth of immature myeloid cells by accelerating guanosine triphosphate hydrolysis on Ras proteins. The purpose of this study was to determine if the NF1 gene was involved in the pathogenesis of JMML in children without a clinical diagnosis of NF1. An in vitro transcription and translation system was used to screen JMML marrows from 20 children for NF1 mutations that resulted in a truncated protein. Single-stranded conformational polymorphism analysis was used to detect RAS point mutations in these samples. We confirmed mutations of NF1 in three leukemias, one of which also showed loss of the normal NF1 allele. An NF1 mutation was detected in normal tissue from the only patient tested and this suggests that JMML may be the presenting feature of NF1 in some children. Activating RAS mutations were found in four patients; as expected, none of these samples harbored NF1 mutations. Because 10% to 14% of children with JMML have a clinical diagnosis of NF1, these data are consistent with the existence of NF1 mutations in approximately 30% of JMML cases.
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PMID:Mutations of the NF1 gene in children with juvenile myelomonocytic leukemia without clinical evidence of neurofibromatosis, type 1. 963 26

The major established cause of acute myeloid leukemia (AML) in the young is cancer chemotherapy. There are two forms of treatment-related AML (t-AML). Each form has a de novo counterpart. Alkylating agents cause t-AML characterized by antecedent myelodysplasia, a mean latency period of 5-7 years and complete or partial deletion of chromosome 5 or 7. The risk is related to cumulative alkylating agent dose. Germline NF-1 and p53 gene mutations and the GSTT1 null genotype may increase the risk. Epipodophyllotoxins and other DNA topoisomerase II inhibitors cause leukemias with translocations of the MLL gene at chromosome band 11q23 or, less often, t(8;21), t(3;21), inv(16), t(8;16), t(15;17) or t(9;22). The mean latency period is about 2 years. While most cases are of French-American-British (FAB) M4 or FAB M5 morphology, other FAB AML subtypes, myelodysplastic syndrome (MDS), acute lymphoblastic leukemia (ALL) and chronic myelogenous leukemia (CML) occur. Between 2 and 12% of patients who receive epipodophyllotoxin have developed t-AML. There is no relationship with higher cumulative epipodophyllotoxin dose and genetic predisposition has not been identified, but weekly or twice-weekly schedules and preceding l-asparaginase administration may potentiate the risk. The translocation breakpoints in MLL are heterogeneously distributed within a breakpoint cluster region (bcr) and the MLL gene translocations involve one of many partner genes. DNA topoisomerase II cleavage assays demonstrate a correspondence between DNA topoisomerase II cleavage sites and the translocation breakpoints. DNA topoisomerase II catalyzes transient double-stranded DNA cleavage and rejoining. Epipodophyllotoxins form a complex with the DNA and DNA topoisomerase II, decrease DNA rejoining and cause chromosomal breakage. Furthermore, epipodophyllotoxin metabolism generates reactive oxygen species and hydroxyl radicals that could create abasic sites, potent position-specific enhancers of DNA topoisomerase II cleavage. One proposed mechanism for the translocations entails chromosomal breakage by DNA topoisomerase II and recombination of DNA free ends from different chromosomes through DNA repair. With few exceptions, treatment-related leukemias respond less well to either chemotherapy or bone marrow transplantation than their de novo counterparts, necessitating more innovative treatments, a better mechanistic understanding of the pathogenesis, and strategies for prevention.
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PMID:Secondary leukemias induced by topoisomerase-targeted drugs. 974 98

RAS mutations can be detected in a variable number of patients with myeloproliferative disorders such as myelodysplastic syndromes and acute myeloid leukemia, but are rare events in chronic myelogenous leukemia in chronic phase. However, there is good evidence supporting the involvement of RAS signalling pathway in CML and this could be due to alterations in RAS activity regulatory proteins. The neurofibromatosis (NF1) gene down-regulates the RAS signal transduction pathway through the inhibitory function of its GAP-related domain (GRD) on RAS protein. The loss or alteration of neurofibromin (the NF1 protein) may produce a disfunction similar to point mutations in the RAS gene resulting in the permanent stimulation of the RAS signal transduction pathway. Mutations involving the GRD region of the NF1 gene (GRD-NF1) have been described in a variety of tumors such as colon carcinoma and astrocytoma. Germline mutations and deletions in the NF1 gene, as seen in neurofibromatosis type 1, are also associated with certain myeloid disorders. In the present work, we sought to identify mutations in the codons 12/13 and 61 of RAS gene and in the Lys-1423 codon of GRD-NF1, which are well known hot spots in these genes, in a group of 36 adults and ten children with chronic myelogenous leukemia in chronic phase and blast crisis. Using the PCR-SSCP and the allele-specific restriction assay (ASRA) techniques, we were not able to observe any RAS or NF1 detectable mutation. These findings suggest that RAS and GRD-NF1 mutations are not involved either in chronic phase or in the progression to blast crisis in chronic myelogenous leukemia in adults and children.
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PMID:Mutational analysis of N-RAS and GAP-related domain of the neurofibromatosis type 1 gene in chronic myelogenous leukemia. 978 2

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