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)

Knowledge of the blast phenotype in myelodysplastic syndrome (MDS) would be valuable, as in other malignancies, but remains sparse. This is mainly because MDS blasts are a minor population in clinical samples, making analysis difficult. Thus, for this blast phenotype study, we prepared blast-rich specimens (using a new density centrifugation reagent for harvesting blasts) from blood and marrow samples of 95 patients with various MDS subtypes and 21 patients with acute leukemia transformed from MDS (AL-MDS). Flow cytometry revealed that a high proportion of the enriched blast cells (EBCs) from almost all patients showed an immunophenotype of committed myeloid precursors (CD34(+)CD38(+)HLA-DR(+)CD13(+)CD33(+)), regardless of the disease subtype. The cytochemical reaction for myeloperoxidase was negative in 58% of the cases. Thus, the EBC phenotype is more immature in MDS than in de novo acute myeloid leukemia. MDS EBCs often coexpressed stem cell antigens and late-stage myeloid antigens asynchronously, but rarely expressed T- and B-lymphoid cell-specific antigens. Markers for myeloid cell maturation (CD10 and CD15) were more prevalent on EBCs from low-risk MDS (refractory anemia [RA] and RA with ringed sideroblasts), whereas markers for myeloid cell immaturity (CD7 and CD117) were more prevalent on EBCs from high-risk MDS (chronic myelomonocytic leukemia, RA with excess blasts [RAEB], and RAEB in transformation) and AL-MDS. A shift to a more immature phenotype of EBCs, accompanying disease progression, was also documented by sequential phenotyping of the same patients. Further, CD7 positivity of EBCs was an independent variable for a poor prognosis in MDS. These data represent new, valuable information regarding MDS.
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PMID:Clinical significance of phenotypic features of blasts in patients with myelodysplastic syndrome. 1239 41

Evidence suggests that T lymphocyte-mediated inhibition of hematopoiesis in myelodysplastic syndrome (MDS) contributes to cytopenia in some patients and can be reversed by treatment with immunosuppression. We examined the T-cell repertoires of 12 patients with MDS before and after antithymocyte globulin (ATG)-based treatment by T-cell receptor Vbeta (TCR-Vbeta) spectratype analysis. The average number of TCR-Vbeta families with skewed spectratypes, representative of clonal or oligoclonal T-cell populations, was 7.6 in MDS patients before treatment and 3.2 in healthy controls (P =.02). Four patients who recovered effective hematopoiesis after treatment lost prominent, skewed peaks on their spectratypes, suggesting loss or diminution of overrepresented clonal T-cell populations. In contrast, patients who did not recover effective hematopoiesis showed persistently skewed repertoires 3 to 6 months after treatment. In 3 patients with skewed repertoires, cDNA from the complementarity-determining region 3 (CDR3) of 4 TCR-Vbeta families was cloned and repetitively sequenced, confirming clonal T-cell dominance in each family. In one nonresponder, 16 of 19 CDR3 sequences were identical, demonstrating that 9.3% of the total T-cell population was made up of a single clone. By 6 months after treatment, this clone persisted on both spectratype and DNA sequence complementarity and when analyzed by flow cytometry was shown to be CD8(+)/CD45RA(+)/HLA-DR(-). T-cell clones were not anergic because they could be expanded 4-fold in vitro. Our results demonstrate that predominant clonal T cells that appear to be antigen-driven persist in patients with MDS unresponsive to immunosuppression, but predominant clones regress in responders to immunosuppression.
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PMID:Loss of T-lymphocyte clonal dominance in patients with myelodysplastic syndrome responsive to immunosuppression. 1239 44

Fas ligand (FasL) mediated apoptosis in the bone marrow may contribute to suppression of hematopoiesis in myelodysplastic syndromes (MDS) and in aplastic anemia, and also to the regulation of normal erythropoiesis. To identify potential effector and target cells in this regulatory pathway, we examined the constitutive expression of Fas receptor (Fas) and FasL (total and cell-surface) in myeloid and lymphoid cells and subsets of CD34+ cells in normal healthy adult human bone marrow using multiparameter flow cytometry. A high proportion of CD34+ cells constitutively expressed cell-surface FasL. However, none of the CD34+ cells expressed Fas alone. A reciprocal gradient of expression of FasL and Fas was observed in subsets of CD34+ cells: as compared to primitive CD34+/HLA-DR(-) (DR(-)) cells, a higher proportion of committed CD34+/HLA-DR(++) (DR(++)) cells expressed FasL but fewer expressed Fas; the expression of both molecules was intermediate in CD34+/HLA-DR(dim) cells. Also, the intensity of FasL expression was higher in DR(++) than in DR(-) cells. These results suggest that the homeostatic regulation of myelopoiesis in normal bone marrow is mediated via an autoregulatory feedback loop by myeloid cells and progenitors themselves, at least partly via the Fas-FasL pathway. This notion is also consistent with our recent observation that overexpression of FasL by myeloid cells in MDS correlates directly with anemia, transfusion requirements, and shorter survival, an example of dysregulation of this pathway.
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PMID:Constitutive expression of the Fas receptor and its ligand in adult human bone marrow: a regulatory feedback loop for the homeostatic control of hematopoiesis. 1248 10

We report a late appearance of the Philadelphia chromosome (Ph) with the p190 BCR/ABL chimeric transcript in a 69-year-old patient with acute myelogenous leukemia (AML) that had evolved from myelodysplastic syndrome (MDS). In July 1997, the patient was found to have pancytopenia caused by refractory anemia with excess of blasts, which evolved into AML in 4 months. The leukemic cells were positive for CD13, CD14, CD33, and HLA-DR and had a normal karyotype. The patient achieved a complete remission after combination chemotherapy. However, his leukemia relapsed in November 1999, with the appearance of leukemic cells positive for CD7, CD13, CD34, and HLA-DR with a 46, XY, add (18) (p11) karyotype. The patient failed to achieve the second remission after several courses of intensive chemotherapy. When the number of blastic cells, showing the same surface phenotypes, in the peripheral blood increased drastically in April 2000, chromosomal analysis of leukemic cells revealed a 46, XY, t(9;22) (q34;q11), add(18)(p11) karyotype. The fusion of the BCR and ABL genes was confirmed by fluorescence in situ hybridization analysis, and the reverse transcription-polymerase chain reaction analysis further revealed the presence of the p190 BCR/ABL chimeric transcript. The appearance of the Ph chromosome in the course of MDS transforming to AML is very rare and may be correlated to the disease progression.
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PMID:[Late appearance of Philadelphia chromosome with the p190 BCR/ABL chimeric transcript in acute myelogenous leukemia progressing from myelodysplastic syndrome]. 1278 57

Myelodysplastic syndromes (MDS) are clonal hematopoietic stem cell disorders with frequent cytogenetic abnormalities. They can arise de novo or be related to therapy. Although blasts in MDS have been studied extensively, there is little information available on the mature, non-blast myeloid cells (NBMCs). We used a retrospective case-control study design. NBMC populations in MDS (48 cases) and in tumor-free control (12 cases) bone marrow samples were analyzed using multiparameter flow cytometry for mean side scatter (SSC) channel number and for expression of aberrant cell surface antigens. MDS cases were stratified on the basis of cytogenetic abnormalities. We report that NBMCs in MDS with normal karyotype expressed significantly higher HLA-DR than controls (P = 0.034). NBMCs in MDS cases with cytogenetic abnormalities and with > or =5% marrow blasts, compared with controls, had significantly higher CD34 and higher HLA-DR but lower CD10 and lower SSC mean channel number. CD34 expression in NBMCs was significantly greater in therapy-related MDS compared with de novo MDS ( P = 0.01), although the presence of cytogenetic abnormalities was not different ( P > 0.05). These data suggest that bone marrow, mature, NBMCs have phenotypic changes in MDS that are not seen in normal controls.
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PMID:Evidence for expression of early myeloid antigens in mature, non-blast myeloid cells in myelodysplasia. 1294 84

A 77-year-old man was referred to our hospital because of elevated LDH and leukoblastosis in the peripheral blood in June 2002. Physical examination revealed neither hepatosplenomegaly nor superficial lymphadenopathy. A bone marrow film showed dysmegakaryocytopoiesis with many micromegakaryocytes and MPO-positive blasts appearing in 20-30% of NCC. A diagnosis of MDS (RAEB-t) was made. Blastic cells were positive for CD13, 33, 34 and HLA-DR. Karyotypic analysis at diagnosis revealed 46XY, inv(3) (q21q26), t(9;22) (q34; q11) and minor-BCR/ABL chimeric m-RNA was detected by RT-PCR. Mild chemotherapy (low dose Ara-C etc) was given but the disease progressed to the AML stage with thrombocytosis in August. In September imatinib was given because of Ph positivity, but the effect was transient. In October massive leukocytosis with myeloblastosis was uncontrollable. In December 2002 the patient died of pneumonia, after a total course of 7.5 months. This rare case with Ph chromosome and 3q21q26 syndrome showed a poor prognosis as previously reported.
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PMID:[3q21q26 syndrome with minor-BCR/ABL type Ph chromosome]. 1497 33

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

LIGHT is a recently cloned novel cytokine belonging to the TNF family that is selectively expressed on immature dendritic cells (iDCs) generated from monocytes isolated from human PBMCs. In these studies, we demonstrate that exogenous soluble LIGHT or soluble CD40 ligand (CD40L) can promote monocyte-derived dendritic cell maturation in vitro by the up-regulation of CD86, CD80, CD83, and HLA-DR antigen expression. Immature dendritic cells differentiated from monocytes of MDS patients displayed lower levels of costimulatory and HLA-DR molecules compared with iDCs differentiated from monocytes of normal subjects. However, upon induction of maturation by LIGHT or CD40L, the expression of costimulatory and HLA-DR molecules is comparable between DCs from MDS and normal subjects. Exogenous LIGHT- and CD40L-stimulated mature DCs (mDCs) also displayed increased antigen presentation to autologous T lymphocytes (tetanus toxin) or allogeneic T lymphocytes in mixed lymphocyte reactions. DCs matured by LIGHT showed increased secretion of IL-6, IL-12p75, and TNF-alpha, but not IL-1beta. We conclude that both LIGHT and CD40L are immunoregulating factors that induce monocyte-derived iDCs from MDS patients to undergo maturation resulting in increased antigen presentation and T-cell activation. Monocyte-derived DCs can be stimulated to undergo phenotypic and functional changes with LIGHT that might be applied in the development of a DC-based vaccine for MDS treatment.
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PMID:The effect of LIGHT in inducing maturation of monocyte-derived dendritic cells from MDS patients. 1510 4

Cytogenetic abnormalities are observed in approximately one half of cases of myelodysplastic syndrome (MDS). Partial or complete chromosome losses and chromosome gains are frequently found, but there is a relatively high incidence of unbalanced translocations in MDS. We describe here two cases of MDS with an unbalanced translocation, der(11)t(11;12)(q23;q13). Both patients were 69 years of age and diagnosed with refractory anemia with excess of blasts in transformation (RAEB-t) according to the high percentage of blasts in the peripheral blood. Cytoplasmic hypogranulation of neutrophils was evident as a dysplastic change. The blasts were positive for CD4 and CD41a as well as CD13, CD33, CD34 and HLA-DR in both cases. Chromosome analysis showed complex karyotypes including a der(11)t(1;11)(q11;p15)t(11;12)(q23;q13) in case 1 and der(11)t(11;12)(q23;q13) in case 2 plus several marker chromosomes. Spectral karyotyping confirmed the der(11)t(11; 12)(q23;q13) and clarified the origin of marker chromosomes, resulting in del(5q) and del(7q). Fluorescence in situ hybridization (FISH) analyses with a probe for the MLL gene demonstrated that the breakpoints at 11q23 were telomeric to the MLL gene in both cases. FISH also showed that the breakpoint at 11p15 of the case 1 was telomeric to the NUP98 gene. Considering another reported case, our results indicate that the der(11)t(11;12)(q23;q13) is a recurrent cytogenetic abnormality and may be involved in the pathogenesis of advanced-stage MDS.
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PMID:Unbalanced translocation der(11)t(11;12)(q23;q13): a new recurrent cytogenetic aberration in myelodysplastic syndrome with a complex karyotype. 1552 5

Myelodysplastic syndromes (MDS) are malignant disorders of hematopoietic cells. For many neoplasms, immunophenotype data of the neoplastic cells provide valuable information in clinical practice. However, the clinical values of immunophenotype data have not yet been firmly established for MDS. Since MDS blasts are not predominant in the bone marrow and peripheral blood, which makes reliable immunophenotyping of blasts difficult, we used a newly developed density-centrifugation reagent to generate blast-enriched MDS samples for phenotyping. The key findings of our study, which phenotyped blasts from 116 patients with MDS or acute leukemia transformed from MDS, were the following. (1) MDS blasts were usually CD34( + )CD38( + )HLA-DR( + )CD13( + )CD33( + )CD2(-)CD3(-)CD5(-)CD8(-)CD19(-)CD20(-) in flow cytometric analysis and often lacked myeloperoxidase in cytochemistry, regardless of the MDS subtype. (2) MDS blasts showed asynchronous expression of antigens (expression of both stem cell antigens and antigens of mature myeloid cells). (3) During disease progression of MDS, phenotypic clonal evolution (transition from blasts with a relatively mature phenotype to blasts with a more immature phenotype) occurred in at least some cases. (4) CD7-positivity was an independent variable associated with a short survival in MDS. Further studies of blast immunophenotypes will deepen our understanding of MDS and hopefully improve the clinical approach to these intractable disorders.
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PMID:Clinical implications of blast immunophenotypes in myelodysplastic syndromes. 1610 3

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