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 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

The observation that juvenile chronic myelogenous leukemia (JCML) and childhood bone marrow monosomy 7 syndrome (Mo 7) are similar in many clinical and epidemiologic respects suggests a shared pathogenic basis and raises the possibility that the bone marrows of patients with JCML might lose chromosome 7 alleles by mechanisms that do not result in detectable cytogenetic deletions. We used a series of polymorphic markers mapped to chromosome 7 to test this hypothesis in 22 children with MPS and MDS, including 19 with JCML. All MPS and MDS samples demonstrated allelic heterozygosity with at least one chromosome 7 marker; 16 were heterozygous with probes from both 7p and 7q. Furthermore, the percentage of patient bone marrow samples heterozygous at each locus tested was similar to the frequency observed in the normal population. Whereas these data demonstrate that submicroscopic loss of large segments of chromosome 7 alleles is uncommon in children with MPS and MDS who do not have Mo 7, they do not exclude small deletions around an uncharacterized tumor-suppressor locus. Our results suggest that a number of distinct molecular events contribute to leukemogenesis, and we propose a multistep model to explain the similarities and differences between the major subtypes of childhood MPS and MDS.
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PMID:Molecular evidence that childhood monosomy 7 syndrome is distinct from juvenile chronic myelogenous leukemia and other childhood myeloproliferative disorders. 753 11

Acquired interstitial loss of all or part of the long arm of human chromosome 5 (5q-) is an anomaly that is seen frequently in patients with preleukemic myelodysplasia and acute myelogenous leukemia. Loss of a critical region of overlap at band 5q31.1 in all of these cases, with various cytogenetic breaks, signifies the existence of a key negative regulator of leukemogenesis. Previous studies have defined the proximal and distal ends of the critical region to reside between the genes for IL9 and EGR1, respectively. In this report, we describe a yeast artificial chromosome contig spanning this myeloid tumor suppressor locus. The combined order of the polymorphic loci is centromere-IL9-(D5S525-D5S558-D5S89-D5S526 -D5S393)-D5S399-D5S396-D5S414-EGR1 and telomere. The physical distance between the IL9 and EGR1 genes is estimated to be < 2.4 Mb. Here we report the utility of these polymorphic loci by detecting a submicroscopic deletion of 5q31; an acute myelogenous leukemia patient with a three-way translocation, t(5;18;17)(q31;p11;q11), as the sole anomaly revealed allele loss of the D5S399 and D5S396 loci.
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PMID:Physical mapping of the minimal region of loss in 5q- chromosome. 763 6

Inactivation of the deleted in colorectal carcinoma (DCC) tumor suppressor gene has been reported not only in colorectal carcinoma but also in other human malignancies. In order to evaluate the role of the DCC gene in leukemogenesis, we examined DCC expression using the reverse transcriptase-polymerase chain reaction (RT-PCR) method. Expression of the DCC gene was reduced or absent in 10 of 39 (26%) patients with acute myelogenous leukemia (AML), three of 14 (29%) patients with acute lymphocytic leukemia (ALL), seven of 33 (21%) patients with chronic myelogenous leukemia (CML), three of 39 (8%) patients with myelodysplastic syndromes (MDS), and five of nine (56%) patients with overt leukemia progressed from MDS. These findings suggest that inactivation of the DCC gene contributes to some instances of leukemogenesis.
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PMID:Expression of the DCC gene in human hematological malignancies. 769 19

Myelodysplastic syndromes (MDS) are increasingly recognized as a cause of bone marrow failure, and are at least as frequent as acute myeloid leukemias. While the overall incidence is about 2-4/100,000/year, incidence figures rise steeply with age. Incidence rates of 20-30/100,000/year in persons over 70 demonstrate that MDS are among the most common hematological neoplasias in this age group. However, due to difficulties of diagnosis and classification, patient registration in population-based registers is far from complete. As a prerequisite for truly representative statistics, future revisions of disease classification systems must incorporate MDS as a separate group of disorders. The difficulties in conducting epidemiological studies also impede the identification of risk factors for the development of MDS. Current knowledge of occupational risk factors is also reviewed here. More rapid progress in our understanding of MDS may come from recent advances in methodology that have begun to shed some light on the cytogenetic and molecular aspects of leukemogenesis in general, and MDS in particular. Non-random chromosomal changes can be found in about 50% of cases at diagnosis, but they are probably late events in the evolution of MDS, reflecting the progressive genomic instability of the premalignant clone. Proto-oncogene mutations have also been suggested to be relevant to the pathogenesis of MDS, but longitudinal studies of point mutations of the N-ras proto-oncogene revealed that such events, although often associated with rapid deterioration and transformation to AML, also appear to be late events during the course of disease. Therefore, it remains a major challenge to identify those lesions that initiate the multistep development of preleukemia. As the incidence of MDS correlates strongly with age, it is reasonable to presume that age-dependent changes of the hematopoietic system may play a role in the initiation of MDS. Aging is probably associated with a compromised marrow reserve through reduction in the size of the stem cell pool. Through increased proliferative activity, the remaining stem cells may be particularly vulnerable to mutagenic insults. Immunological attack on stem cells, mitochondrial DNA mutations, and the regulatory influence of the hematopoietic microenvironment must also be considered as possibly contributing to the early stages of MDS.
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PMID:Epidemiological and etiological aspects of myelodysplastic syndromes. 771 33

In myeloid and lymphoid leukemias recurrent chromosomal aberrations can be detected in chromosome region 12p13. We characterized the genes involved in t(12;22) (p13;q11) in two patients with myeloid leukemia and one with myelodysplastic syndrome (MDS). MN1, a gene on chromosome 22q11 was shown to be fused to TEL, a member of the family of ETS transcription factors on chromosome 12p13. The translocation results in transcription of the reciprocal fusion mRNAs, MN1-TEL and TEL-MN1, of which MN1-TEL is likely to encode an aberrant transcription factor containing the ETS DNA-binding domain of TEL. In addition to fusion of TEL to the PDGF beta receptor in t(5;12) in chronic myelomonocytic leukemia (CMML), our data suggest that the involvement of this protein in myeloid leukemogenesis could be dual; its isolated protein-protein dimerization and DNA-binding domains may be crucial for the oncogenic activation of functionally different fusion proteins.
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PMID:Translocation (12;22) (p13;q11) in myeloproliferative disorders results in fusion of the ETS-like TEL gene on 12p13 to the MN1 gene on 22q11. 773 5

The cytogenetic findings of therapy-related myeloid leukemia (t-ML) in three children are presented. These included one male patient with acute lymphoblastic leukemia (ALL) who underwent bone marrow transplantation and developed therapy-related myeloproliferative disease (t-MPD) in the female-donor hematopoietic cells 2.5 years after receiving radiation and epipodophyllotoxin therapy for ALL testicular relapse. Bone marrow leukemic cell karyotype revealed 46,XX,add (11)(p15) and a normal female karyotype in the peripheral blood lymphocytes. The other two children, one with ALL and one with ganglioneuroblastoma, developed fatal t-MPD and therapy-related acute myeloblastic leukemia (t-AML) preceded by myelodysplastic syndrome (t-MDS), respectively, 5 years after diagnosis, following administration of alkylating agents and irradiation. Monosomy 7 was present in both, and was combined with inv(3)(q21q26) in the second patient. Our review of the cytogenetic findings in 91 previously reported pediatric patients with t-ML suggested that the involvement of 11p15 and 3q21-->23, 3q24-q26 with or without a combination of translocation 11q23 and -7/7q-, respectively, are nonrandom aberrations of t-ML in children. Comparison of the chromosomal changes in t-ML between the pediatric and an adult series revealed some differences which may result from differences in treatment modalities and which, in addition, may indicate a possible role of genetic and/or age-dependent factors in the pathogenesis of therapy-related leukemogenesis in children.
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PMID:Involvement of 11p15 and 3q21q26 in therapy-related myeloid leukemia (t-ML) in children. Case reports and review of the literature. 803 58

Patients with Fanconi anemia (FA) have an extraordinary predisposition to acute myelogenous leukemia (AML). The genetic mechanisms underlying the neoplastic transformation of FA hematopoietic cells are unknown. In this study, we have investigated the molecular features of hematopoiesis in the course of FA at different stages of the disease, including aplastic anemia, myelodysplastic syndrome (MDS), and AML. The analysis focused on defining the clonality status of FA hematopoiesis as well as the putative involvement of N-ras, a dominantly acting oncogene, and p53, a tumor suppressor gene, which are known to play a role in human hematopoietic tumors. Clonality of hematopoiesis was assessed by testing X-chromosome inactivation at the DXS255 locus, which displays different methylation patterns according to the activation status of the corresponding X homolog. Five out of seven FA cases analysed for clonality displayed monoclonal hematopoiesis, including one case at the aplastic anemia stage, three cases with MDS and one with AML. Mutations of the N-ras and p53 genes were studied by a combination of single strand conformation polymorphism (SSCP) analysis and direct sequencing of the PCR product in the bone marrow and/or peripheral blood of 18 FA patients (seven with aplastic anemia, seven with MDS, four with AML). Only normal N-ras and p53 sequences were detected in all cases analyzed. These results suggest that monoclonal hematopoiesis is a frequent finding in the course of FA and may precede the onset of neoplasia in some cases. The genetic mechanisms underlying FA-associated leukemogenesis appear to be independent of N-ras and p53 mutations, which are relatively frequent events in myeloid tumors associated with other hematologic disorders.
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PMID:Clonality studies and N-ras and p53 mutation analysis of hematopoietic cells in Fanconi anemia. 805 73

Mutations of the N- and K-ras genes are the most frequent genetic aberrations in acute myeloid leukemia (AML) and their detection in preleukemic conditions such as the myelodysplastic syndrome (MDS) suggests a role in the earliest phases of leukemogenesis. Despite these observations, little is known about the clinical importance of ras mutations in AML. We studied the clinical impact of ras mutations in 99 patients with de novo AML. All patients were treated in two prospective multicenter trials. The polymerase chain reaction was used to amplify areas surrounding the codons 12, 13, and 61 of the three ras genes N-, K-, and H-ras from DNA from bone marrow cells, ras mutations were detected by an algorithm based on allele-specific oligonucleotide hybridization. Eighteen of 99 (18%) patients harbored mutations in either N- or K-ras. All of the observed mutations occurred in N-ras (N = 10) and K-ras (N = 5) or concurrently in both N- and K-ras (N = 3). There were no significant differences between ras-negative and ras-positive patients according to age, sex, blood counts, cytogenetic abnormalities, or French-American-British classification. However, univariate analysis suggested a longer survival in ras-positive patients (P = .11). When adjusted for age, which was the most important factor affecting outcome, the presence of a ras mutation emerged as a significant predictor for improved survival (P = .03) and along with lower bone marrow blast counts (P = .02) and better cytogenetic category (P = .01). However, the presence of an aberrant ras allele was strongly correlated with lower bone marrow blast counts (P = .007). Thus, whether a mutation in the N-ras or K-ras proto-oncogenes directly affects treatment outcome or indirectly through an association with lower leukemic burden remains to be determined. Nevertheless, these findings counter the prevailing bias that oncogene mutations lead to more aggressive behavior in human malignancies.
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PMID:Prognostic importance of mutations in the ras proto-oncogenes in de novo acute myeloid leukemia. 812 51

Myelodysplastic syndrome (MDS) has been thought to be an identifiable early stage in multistep leukemogenesis. Considerable numbers of patients with MDS eventually develop acute myelogenous leukemia (AML), which is very much more difficult to manage than typical denovo AML. There are several differences in both the clinical and biological behavior of AML with and without prior MDS. We have established an unique long-term bone marrow culture (LTBMC) system which allows abnormal cells to grow in preference to normal cells, based on the method originally described by Dexter et al. Leukemic transformations occur more frequently in MDS patients with abnormal karyotypes, and particularly those with multiple abnormalities. New cytogenetic abnormalities were occasionally observed at the time of transition to AML. We have applied this LTBMC system for cytogenetic and molecular studies on the leukemic transformation from MDS. Among the 32 patients with MDS studied thus far, novel abnormal karyotypes were detected during the LTBMCs in 15 patients. Furthermore, 6 out of 23 novel karyotypes detected during the in-vitro cultures emerged in vivo, one to 11 months later in 4 patients. In addition, point mutation of the N-ras proto-oncogene was observed in 3 of 18 cases. The signal of the dot-blot hybridization was increased in one examined case after 2 weeks in culture. Thus, this LTBMC system may provide some promising information with respect to understanding the multistep process from the preleukemic stage to the development of overt leukemia as well as its prognostic relevance.
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PMID:Application of long-term bone marrow cultures for studying the leukemic transformation of myelodysplastic syndromes. 812 6

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