Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0026986 (myelodysplastic syndrome)
14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of plasma from myelodysplastic patients to support the clonal growth of normal megakaryocyte progenitors (CFU-Mk) was compared with that of plasma from normal subjects. The resultant megakaryocyte colonies were expressed as a plasma factor index megakaryocyte (PFI-Mk). All cultures included PHA-LCM and medium conditioned by the human bladder carcinoma cell line 5637, and some of them had EPO. PFI-Mk (MDS) was significantly lower than PFI-Mk (normal), both with and without EPO. A positive correlation was found between megakaryocyte and platelet count in normal subjects, but was not present in MDS patients. There was no correlation between platelet count and PFI-Mk in neither group. In MDS there was a negative correlation between megakaryocyte number and PFI-Mk, both with and without EPO. Although, the mean megakaryocyte number in MDS and in normal bone marrow was similar, the proportion of immature megakaryocytes was much higher in MDS. Previous work indicates an abnormal clonal origin of megakaryocytes in MDS. The present study suggests that abnormal plasma factors affects megakaryocytopoiesis in this condition.
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PMID:Stimulation of CFU-Mk colony growth by normal plasma and plasma from myelodysplastic patients. 270 75

In vitro megakaryocytic colony formation by progenitors from the bone marrow was studied in 40 myelodysplastic syndrome patients. Megakaryocytic colonies were decreased in number or absent in 30 patients; only 10 showed normal colony growth. The growth correlated to some extent with the FAB-class. Patients with normal colony formation had either RA or RARS, but also in these two FAB-types half of the patients showed reduced megakaryocytic colony formation. Only 1 out of 15 patients with RAEB or RAEBt had normal megakaryocyte growth. The patients with CMML did not show any megakaryocytic colonies. The growth of erythroid colonies was normal in 3 patients and reduced or absent in the others. All 3 with normal erythroid colony formation also showed normal megakaryocyte growth, and all patients with normal megakaryocyte colony formation also had normal granulocyte-macrophage colony growth. Granulocyte-macrophage colony and cluster formation was normal in 17 patients. Defective formation of megakaryocytic, erythroid, and granulocyte-macrophage colonies was seen in 22 patients, compatible with a defect in a pluripotent stem cell. Megakaryocytic colony formation had no obvious correlation with any specific chromosome abnormality, and the distribution of the growth patterns was almost similar in patients with a normal and those with an abnormal karyotype.
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PMID:Colony formation by megakaryocyte progenitors in myelodysplatic syndromes. 227 Oct 49

Although immune mechanisms are known to be partially responsible for the thrombocytopenia of patients infected with HIV-1, an understanding of the mechanism underlying this disorder is incomplete. A casual observation that bone marrow biopsies of HIV-infected individuals seem to exhibit an unusually large number of denuded megakaryocyte nuclei (DN-MK) prompted a study comparing MK of 20 HIV-seropositive individuals with those of 10 patients with HIV-negative idiopathic thrombocytopenic purpura and 10 hematologically normal subjects. In normal marrows the number of DN-MK average 2.1 +/- 0.5 SE per 10 low power field. In patients with ITP the average number was 6.5 +/- 1.4 SEM, whereas HIV-ITP marrows had an average of 42.5 +/- 3.7 SEM. Electron microscopy of AIDS megakaryocytes exhibited ballooning of the peripheral zone to an extent not seen by us in any other myelodysplastic syndromes. These observations support the concept that the pathophysiology affecting MK/platelets in HIV-infection should not be equated with the destructive process underlying other immune thrombocytopenias.
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PMID:Structural changes in the megakaryocytes of patients infected with the human immune deficiency virus (HIV-1). 275 19

Bone marrow sections from 44 cats with myelodysplastic syndrome (MDS) or acute myelogenous leukemia (AML) were graded for reticulin content using light microscopic methods. Twenty-seven (61%) of the cats had slight to marked reticulin myelofibrosis. The association of myelofibrosis with possible pathogenetic factors, including megakaryocyte count, intramedullary lymphoid follicles, hemosiderin content, and FeLV antigenemia, was examined. No evidence was found that indicated a causal relationship between myelofibrosis and any of these factors.
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PMID:Myelofibrosis in cats with myelodysplastic syndrome and acute myelogenous leukemia. 283 59

Cytogenetic, immunologic, and electron microscopic studies were performed on the blast cells of 28 pediatric patients with Down's syndrome, 13 with acute leukemia (DS-AL) and 15 with transient myeloproliferative disorders (DS-TMD). Clonal chromosome abnormalities were found in the cells of all patients with DS-AL but not those with DS-TMD. The younger ages and higher hemoglobin concentrations, platelet counts, and WBC counts of DS-TMD patients provided a clinical contrast with the frankly leukemic cases. Myelodysplastic syndrome, characterized by a small percentage of leukemic blast cells, was observed in 11 of the 13 patients with DS-AL compared with none in the DS-TMD group. Electron microscopy disclosed a positive platelet peroxidase reaction in each of the 11 DS-TMD patients and in nine of the 13 DS-AL patients. Immunologic studies revealed antiplatelet-megakaryocyte antigens on the blast cells of the majority of patients in both study groups. Our findings suggest that the blast cells in cases of DS-AL and DS-TMD arise from cells of the megakaryocytic lineage or from a myeloid progenitor with the capacity for megakaryocytic differentiation. The high risk of the development of AL in patients with DS who are less than 3 years old may be related to increased megakaryocyte proliferation in this age group.
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PMID:Cytogenetic findings and clinical features in acute leukemia and transient myeloproliferative disorder in Down's syndrome. 296 22

The alkaline phosphatase-antialkaline phosphatase (APAAP) immunocytochemical staining technique was used to look for circulating cells of megakaryocyte lineage in peripheral blood smears from 67 cases of myelodysplasia. Small numbers of micromegakaryocytes positive for platelet glycoprotein IIIa were found in 23 cases. These cells superficially resemble small lymphoid cells and are hence difficult or impossible to recognise in conventional Romanowsky stained smears. Circulating micromegakaryocytes were found most commonly in more aggressive types of myelodysplasia (such as refractory anaemia with excess blasts (RAEB) and refractory anaemia with excess blasts in transformation (RAEB-t], and their presence may therefore indicate a poor prognosis. Because of the simplicity of this immunocytochemical labelling technique, it could be of wide use in the initial assessment of patients with myelodysplasia, and possibly for the early detection of acute leukaemic transformation.
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PMID:Circulating micromegakaryocytes in myelodysplasia. 332 97

The association between leukemic transformation and various features recorded at presentation in patients with refractory anemia with excess of blasts and with or without ringed sideroblasts was analyzed in 255 patients using the proportional hazard model. Features associated with higher transformation rates were: higher values of blasts in peripheral blood or bone marrow; serum haptoglobin; vitamin B12; megakaryocytes in bone marrow; morphological abnormalities in granulo- or megakaryocyte series; male sex; circulating megakaryocytes in peripheral blood; older age; and lower ringed sideroblast proportion. Multivariate analysis was also performed using the following predictor variables: presence or absence of refractory anemia with excess of blasts; sex; abnormal granules in granulocytes; age; and mononuclear large megakaryocytes. Patients were divided arbitrarily into low (hazard ratio, less than 0.45), intermediate (hazard ratio, 0.45-1.85) and high (hazard ratio, greater than 1.85) risk groups. The cumulative leukemia-free rates in the low and intermediate risk groups showed long plateau phases at 95 and 71%, respectively, while in the high risk group, the rate was 10% at 5 years. For clinical purposes, the low risk group should be considered to have nonpreleukemia and the high risk group to have preleukemia.
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PMID:Factors influencing leukemic transformation in refractory anemias with excess of blasts, with ringed sideroblasts, and without ringed sideroblasts. 345 28

The authors present a patient with the typical clinical picture of an acquired amegakaryocytic thrombocytopenic purpura. After 16 months of observation, the patient developed acute myelomonocytic leukemia. During the preleukemic phase and after progression to overt leukemia, serial in-vitro analyses of megakaryocytic, granulocytic, erythrocytic and T-lymphocytic colony growth were carried out in a microagar culture system. At presentation, a marked diminution of CFU-M was observed, whereas CFU-E, BFU-E, CFU-C and CFU-TL were in the normal range. The CFU-M number remained at its low level during the whole observation period. The CFU-C number declined steadily during the preleukemic period, while BFU-E, CFU-E and CFU-TL remained constant until January 1985 when the patient developed AML. After progression to overt leukemia, a distinct reduction became evident in all colony-forming cells. Cytogenetic studies performed during the preleukemic phase indicated the presence of a 5q- chromosome. The authors submit evidence here that the patient was not only characterized by defective megakaryocytic colony formation but also by a deficiency of functional megakaryocyte colony-stimulating activity. No humoral or cellular inhibitors of CFU-M colony formation were found. It is concluded that in preleukemia with a 5q- chromosome the megakaryocytic cell lineage may be involved in the process that precedes overt leukemia at an earlier time than cells of granulocytic and erythrocytic lineages. In addition, it is shown here that megakaryocytopoiesis during the preleukemic period can be characterized by two different defects: first, an intrinsic megakaryocytic stem cell defect and, second, a deficiency of functional megakaryocytic colony-stimulating activity.
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PMID:Progressive preleukemia presenting amegakaryocytic thrombocytopenic purpura: association of the 5q- syndrome with a decreased megakaryocytic colony formation and a defective production of Meg-CSF. 349 97

We report a patient with refractory anemia with excess blasts who showed a lineage-unrestricted hematologic response to granulocyte colony-stimulating factor (G-CSF). After 17 months of a stable disease state, the patient developed pneumonia, progression of cytopenia, and reduced cellularity and blast mass in the bone marrow. He was given G-CSF to overcome the pneumonia. Not only the neutrophil count, but also the platelet count increased soon after initiation of the G-CSF therapy; both counts became normal on the fifth day of the G-CSF therapy. Additionally, the anemia improved gradually. The neutrophil and platelet counts were maintained in the normal range for 3 months after cessation of the G-CSF. In vitro studies showed that G-CSF alone stimulated megakaryocyte colony formation from bone marrow mononuclear cells (BMMNC), and accessory cells in the BMMNC were necessary for expression of this G-CSF-induced in vitro megakaryocytopoiesis. These results suggest that, in coordination with accessory cells, G-CSF stimulated megakaryocytopoiesis in the patient. This case provides valuable information for understanding the mechanisms of a lineage-unrestricted hematologic response to G-CSF, which is very rarely observed in MDS.
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PMID:Lineage-unrestricted hematologic response to granulocyte colony-stimulating factor in a patient with refractory anemia with excess blasts. 753 78

The c-mpl proto-oncogene which encodes a member of the hematopoietic cytokine receptor superfamily has been recently shown to be the receptor for thrombopoietin (TPO), which stimulates megakaryocyte progenitor expansion and differentiation. We studied c-mpl expression by Northern blot analysis, in a large series of 58 MDS. No expression was found in 14 patients with refractory anemia (RA) or with refractory anemia with ring sideroblasts (RARS). In contrast 11/26 (42%) patients with refractory anemia with excess of blasts (RAEB), or with RAEB in transformation (RAEBt), and 8/18 (44%) patients with chronic myelomonocytic leukemia (CMML) expressed c-mpl. In CMML patients, no correlation was found between c-mpl expression and any prognostic factor tested, nor with the course of the disease. In contrast, in RAEB and RAEBt, expression of c-mpl was correlated with high Bournemouth scoring (P < 0.005) and poor survival (P = 0.02) due to leukemic transformation. Forty-five per cent (5/11) of the c-mpl positive patients evolved towards AML with a mean follow-up of 10.5 months, while 13% (2/15) of the c-mpl negative patients developed a secondary leukemia, with a mean follow-up of 21.1 months. Moreover, in RAEB and RAEBt, a significant correlation was observed between c-mpl, CD34, megakaryocyte glycoprotein IIb (GPIIb) expression, and the presence of dysmegakaryopoiesis. These results indicate that patients with RAEB and RAEBt, with high expression of the c-mpl, CD34, and GPIIb genes, may identify a subgroup of patients with particularly poor prognosis, due to an increased risk of secondary leukemia. More aggressive therapy could be justified in these patients.
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PMID:Prognostic value of c-mpl expression in myelodysplastic syndromes. 753 13


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