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)

Primary myelodysplasia (MDP) and acute and chronic myelogenous leukemias (AML, CML) are considered disorders of clonal stem cell division. Several constitutive gene defects that contribute to the development of abnormal cell behavior have been identified in the hematopoietic cells. The role of bone marrow stroma cells in leukemogenesis, however, has not been established. We studied the organization of the bone marrow (BM) microenvironment to see if it was impaired during the initiation and progression of these malignancies. The buffy coat, hematon, and plasma fractions were separated from BM aspirates taken from healthy donors and diseased subjects at distinct clinical stages. The structural integrity of the BM microenvironment was evaluated analyzing the morphogenetic unit, the hematon. The hematon is a multicellular complex that includes fibroblasts, adipocytes, endothelial cells, resident macrophages, hematopoietic cobblestone area-forming cells (CAFC), high-proliferative potential colony-forming cells (HPP-CFC), granulocyte-macrophage colony-forming unit (GM-CFU), burst-forming unit erythroid (BFU-E), and terminally differentiated cells in normal BM. Hematon complexes were present in most BM aspirates from healthy donors (46H+/55). But they were absent from most of the patients with MDP (21H+/62) and AML (5H+/24) in the first perceptible phase, and from those with CML throughout the disease (5H+/55). Hematon complexes were present in the BM aspirate in 22/36 AML patients at clinical remission after chemotherapy or differentiation therapy. The hematon fraction isolated from normal BM, contained 25 times more 25-hydroxyvitamin D3 and about 500-fold more 1alpha,25-dihydroxyvitamin D3 than the BM plasma. The concentration of 1alpha,25-dihydroxyvitamin D3 was low or undetectable in the BM plasma of some, but not all, patients with MDP (18/35) or AML (9/24). Thus, in the BM microenvironment, the metabolism of low-density lipids and lipophylic hormones are severely impaired prior to initiation or during the accelerated expansion of leukemia cells. The lack of organized stromal network and the decreased level of some lipophylic hormones, acting probably as morphogens, may contribute to the onset and progression of human myeloid leukemias.
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PMID:Bone marrow stromal cell defects and 1 alpha,25-dihydroxyvitamin D3 deficiency underlying human myeloid leukemias. 890 1

Severe congenital neutropenia (SCN) is a heterogeneous disease condition with a variable family history and a propensity to progress towards myelodysplastic syndrome (MDS) and acute myeloblastic leukemia (AML). In a subgroup of patients, point mutations in the G-CSF-R gene have been found. These nonsense mutations result in the truncation of the C-terminal cytoplasmic region, a subdomain that is crucial for G-CSF induced maturation. SCN patients with mutations in the G-CSF-R gene appear to be predisposed to develop AML. Here, we recapitulate our view of how defective G-CSF-R may contribute to neutropenia and leukemogenesis.
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PMID:Severe congenital neutropenia terminating in acute myeloid leukemia: disease progression associated with mutations in the granulocyte-colony stimulating factor receptor gene. 891 14

In the early stages of the development of granulocytic colony-stimulating factors (G-CSF and GM-CSF) in oncology and hematology, myeloid malignancies were considered to be a contraindication to their use. In fact, myeloid leukemic cells bear specific receptors for G-CSF and GM-CSF and these CSFs induce an in vitro proliferation in primary blast cells of most patients with acute myeloid leukemia (AML). In addition, autocrine or paracrine loops of stimulation have been demonstrated in some cases. Despite these theoretical risks of blast proliferation, G-CSF and GM-CSF have been extensively tested in patients with AML or myelodysplastic syndromes. Major objectives were the correction of acquired or chemotherapy-induced neutropenia, but also the reinforcement of the antileukemic efficacy of cytotoxic agents. Recently, G-CSF has also been used to mobilize hematopoietic progenitors in the peripheral blood. Major results of several double-blind clinical trials are the demonstration of the safety of CSF administration in these patients, since no risk of in vivo blast cell regrowth has been observed, and their efficacy to shorten the duration of chemotherapy-induced neutropenia. However, no significant reduction in the treatment-related mortality and no survival improvement were afforded by the use of these CSFs. From another point of view, the search for AML-specific CSF-receptor or CSF-receptor associated molecule abnormalities represents a new promising area to try to understand the mechanisms of leukemogenesis.
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PMID:Granulocytic colony-stimulating factors in the management of patients with acute myeloid leukemia. 897 86

Seven secondary leukemia patients were treated for solid tumors or malignant lymphoma with anticancer drugs or radiation. We studied bone marrow samples from these patients by fluorescence in situ hybridization (FISH). Of the seven patients, three had increased signals for the ABL oncogene (9q34) on interphase nuclei and at metaphase. One of the three patients also had four signals for the CD3 (MLL) region (11q23). Whole painting probes revealed that these chromosomal regions were translocated onto structurally abnormal chromosomes, resulting in partial tri-, tetra- or penta-somy of these regions. We called this type of translocation "segmental jumping translocation (SJT)." SJT of the ABL oncogene was not detected in samples from 15 patients with de novo acute myelocytic leukemia (AML), 12 with myelodysplastic syndrome (MDS), or 20 with chronic myelocytic leukemia (CML) at the chronic phase. Furthermore, monosomy 7 was also found in the patients with the gene amplification. These results indicate that SJT of ABL and/or CD3 (MLL) genes is associated with the leukemogenesis of secondary leukemia. The SJT may be one mechanism of gene amplification.
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PMID:Frequent jumping translocations of chromosomal segments involving the ABL oncogene alone or in combination with CD3-MLL genes in secondary leukemias. 900 63

RAS mutations arise at high frequency (20-40%) in both acute myeloid leukemia and myelodysplastic syndrome (which is considered to be a manifestation of preleukemic disease). In each case, mutations arise predominantly at the N-RAS locus. These observations suggest a fundamental role for this oncogene in leukemogenesis. However, despite its obvious significance, little is known of how this key oncogene may subvert the process of hematopoiesis in human cells. Using CD34+ progenitor cells, we have modeled the preleukemic state by infecting these cells with amphotropic retrovirus expressing mutant N-RAS together with the selectable marker gene lacZ. Expression of the lacZ gene product, beta-galactosidase, allows direct identification and study of N-RAS-expressing cells by incubating infected cultures with a fluorogenic substrate for beta-galactosidase, which gives rise to a fluorescent signal within the infected cells. By using multiparameter flow cytometry, we have studied the ability of CD34+ cells expressing mutant N-RAS to undergo erythroid differentiation induced by erythropoietin. By this means, we have found that erythroid progenitor cells expressing mutant N-RAS exhibit a proliferative defect resulting in an increased cell doubling time and a decrease in the proportion of cells in S + G2M phase of the cell cycle. This is linked to a slowing in the rate of differentiation as determined by comparative cell-surface marker analysis and ultimate failure of the differentiation program at the late-erythroblast stage of development. The dyserythropoiesis was also linked to an increased tendency of the RAS-expressing cells to undergo programmed cell death during their differentiation program. This erythroid lineage dysplasia recapitulates one of the most common features of myelodysplastic syndrome, and for the first time provides a causative link between mutational activation of N-RAS and the pathogenesis of preleukemia.
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PMID:Mutant N-RAS induces erythroid lineage dysplasia in human CD34+ cells. 910 20

The malignant cells of acute promyelocytic leukemia (APL) contain a reciprocal chromosomal translocation that fuses the promyelocytic leukemia gene (PML) with the retinoic acid receptor alpha gene (RAR alpha). To test the hypothesis that the chimera PMLRAR alpha plays a role in leukemogenesis, we expressed a PMLRAR alpha cDNA in myeloid cells of transgenic mice. PMLRAR alpha transgenic mice exhibited impaired neutrophil maturation early in life, which progressed at a low frequency over the course of several months to overt APL. Both the preleukemic state and the leukemia could be transplanted to nontransgenic mice, and the transplanted preleukemia could progress to APL. The APL recapitulated features of the human disease, including a response to retinoic acid. Retinoic acid caused the leukemic cells to differentiate in vitro and in vivo, eliciting remissions of both the preleukemic state and APL in mice. Our results demonstrate that PMLRAR alpha impairs neutrophil differentiation and initiates the development of APL. The transgenic mice described here provide an apparently accurate model for human APL that includes clear evidence of tumor progression. The model should be useful for exploring the molecular pathogenesis of APL and the mechanisms of the therapeutic response to retinoic acid, as well as for preclinical studies of therapeutic regimens.
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PMID:A PMLRARalpha transgene initiates murine acute promyelocytic leukemia. 912 33

The recurrent translocation t(11;16)(q23;p13) has been reported to be associated with therapy-related acute leukemia. The MLL gene involved in other 11q23 abnormalities was also rearranged by this translocation. We analyzed two patients with myelodysplastic syndrome with t(11;16) and showed that the MLL gene on 11q23 was fused with CREB-binding protein (CBP) gene on 16p13 in these patients. The CBP gene encodes a transcriptional adaptor/coactivator protein and it is mutated in patients with Rubinstein-Taybi syndrome. The CBP gene is also involved in acute myeloid leukemia (AML) with t(8;16)(p11;p13). In-frame MLL-CBP fusion transcripts combine the MLL AT-hook motifs and DNA methyltransferase homology region with a largely intact CBP. Our results combined with the finding of the MOZ-CBP fusion in t(8;16)-AML suggest that the CBP gene may be associated with leukemogenesis through translocations.
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PMID:The t(11;16)(q23;p13) translocation in myelodysplastic syndrome fuses the MLL gene to the CBP gene. 916 31

It has been supposed in de novo AML that malignant transformation occurs at the level of committed progenitors. Recent data of our group and others provide evidence that in AML malignant transformation may regularly occur at the level of stem cells. These cells can be discriminated by function and specific surface molecules. CD34, a glycophosphoprotein, is a cellular surface antigen characteristically expressed by stem cells. CD34+ stem cells can be further subdivided by the expression of additional surface molecules like CD38 and CD117. In this article we present results from cytogenetic examinations of FACS-isolated stem cell subpopulations in eight patients (four AML and four MDS). Six of them displayed clonal karyotype abnormalities at the time of first diagnoses in the native bone marrow (5q-; 5q- and complex abnormalities; +8; inv(16) and +8; i(17q) and -21; i(21q)). We used CD117, the receptor for the stem cell factor (also KIT oncogene) as a new cellular surface marker. CD34+/CD117+/- stem cell subpopulations were examined in two patients with AML and three patients with MDS. We found leukemic stem cells in every type of stem cell subpopulation examined (CD34+/CD38-, CD34+/CD38+, CD34+/CD117-, CD34+/CD117+). Secondary, progression-associated chromosome abnormalities likewise were demonstrable in CD34+ cells. In three patients a mosaic of normal and abnormal metaphases was found in the highly purified stem cell subpopulations. We conclude that in AML and MDS stem cells are the target of leukemogenic genetic defects. CD117 as a new marker to isolate different CD34+ subpopulations was not sufficient to discriminate between normal and leukemic stem cells. Our findings have implications for autologous stem cell transplantation, high-dose chemotherapy and the pathogenetic concept of leukemogenesis.
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PMID:Cytogenetic analysis of CD34+ subpopulations in AML and MDS characterized by the expression of CD38 and CD117. 918 Feb 91

The recurring translocation t(11;16)(q23;p13.3) has been documented only in cases of acute leukemia or myelodysplasia secondary to therapy with drugs targeting DNA topoisomerase II. We show that the MLL gene is fused to the gene that codes for CBP (CREB-binding protein), the protein that binds specifically to the DNA-binding protein CREB (cAMP response element-binding protein) in this translocation. MLL is fused in-frame to a different exon of CBP in two patients producing chimeric proteins containing the AT-hooks, methyltransferase homology domain, and transcriptional repression domain of MLL fused to the CREB binding domain or to the bromodomain of CBP. Both fusion products retain the histone acetyltransferase domain of CBP and may lead to leukemia by promoting histone acetylation of genomic regions targeted by the MLL AT-hooks, leading to transcriptional deregulation via aberrant chromatin organization. CBP is the first partner gene of MLL containing well defined structural and functional motifs that provide unique insights into the potential mechanisms by which these translocations contribute to leukemogenesis.
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PMID:MLL is fused to CBP, a histone acetyltransferase, in therapy-related acute myeloid leukemia with a t(11;16)(q23;p13.3). 923 46

Myelodysplasia and the myeloproliferative disorders are clonal hematopoietic stem cell disorders with heterogeneous clinical presentations and prognoses. This review highlights some of the recent progress that has been made in these disorders. Specifically, a number of studies have enhanced our understanding of the pathogenesis of these disorders, and potentially useful animal models for primary myelofibrosis have been developed. New, clinically useful prognostic scoring systems have been devised for myelodysplasia and for primary myelofibrosis. New chemotherapeutic approaches and nonmyelosuppressive alternative therapies for myelodysplasia have been studied. Data on the use of interferon for polycythemia vera and the potential leukemogenesis of hydroxyurea have recently become available. Finally, continued progress has been made in the use of allogeneic (related and unrelated donor) and autologous stem cell transplantation for myelodysplasia.
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PMID:Myelodysplasia and myeloproliferative disorders. 926 54

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