UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel fibroblast-dependent human immature megakaryoblastic leukemia cell line (M-MOK) was established from the bone marrow of a girl with acute megakaryoblastic leukemia, and its growth was determined to be completely dependent on the presence of human embryonic lung-derived fibroblasts, HEL-O. Adhesive interaction between M-MOK and HEL-O was crucial for viability; once HEL-O was removed from the culture, mortality was total within a few days. On HEL-O cells, M-MOK could be passaged for more than 2 years. With regard to surface marker profile, the established cells were positive for CD11a, CD13, CD18, CD33, CD34, CD41b, CD42b, CD54, and c-kit antigens, but negative for HLA class II antigen and glycophorin. Histochemically, the cells were negative for myeloperoxidase, nonspecific esterase, and naphthol ASD chloroacetate esterase staining. Electron-microscope examination revealed the cells to be negative for platelet peroxidase (PPO). After induction of differentiation by a phorbol ester, however, the cells were demonstrated to be positive for PPO with a morphological change to megakaryocytes. From these results, M-MOK was considered to represent an immature cell line of megakaryocyte lineage. Studies of the mechanisms sustaining the HEL-O-dependent continuous in vitro growth of M-MOK cells revealed the following results: (1) M-MOK could grow even when separated from HEL-O by a nucleopore membrane; (2) conditioned medium (CM) from HEL-O supported the growth of M-MOK for more than 1 month without feeder cells; (3) the growth of M-MOK on HEL-O or CM supplement was nearly entirely inhibited by anti-GM-CSF (1 microgram/mL); (4) GM-CSF mRNA was detected in HEL-O cells; and (5) HEL-O was found to secrete GM-CSF into the culture medium. Taken together, the growth of M-MOK might therefore be driven by a soluble factor, that is, GM-CSF secreted from HEL-O cells. The presence of HEL-O, however, inhibited anti-GM-CSF-induced M-MOK death. Co-culture of M-MOK and HEL-O cells thus offers a useful experimental model for analysis of interactions between hematopoietic stem cells and stromal cells.
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PMID:Establishment and characterization of a novel human immature megakaryoblastic leukemia cell line, M-MOK, dependent on fibroblasts for its viability. 758 86

It has been suggested that the breakpoint location within the M-BCR segment of chromosome 22 and the type of chimeric mRNA BCR/ABL (b2a2 or b3a2) are associated with differences in the clinical and hematological characteristics of chronic myelogenous leukemia (CML). To assist in clarifying this matter, in a series of Ph-positive CML patients the relationship of both the breakpoint location within M-BCR (n = 71) and the type of chimeric mRNA BCR/ABL (n = 40) with the chronic phase duration, patients' survival, and thrombopoietic activity was analyzed. Median survival for patients with breakpoints in zones 1+2+3 (n = 38) and zones 4+5 (n = 31) was 62 and 75 months, respectively, the difference being not significant; patients with breaks in zones 1+2 (n = 19) and zones 3+4+5 (n = 50) had a median survival of 50 and 67 months, respectively (P also not significant). Moreover, no significant differences were found in the survival of patients with b2a2 (n = 16) and b3a2 (n = 24) mRNA junctions. Finally, no differences were observed in the platelet or megakaryocyte counts between patients with breakpoints in extremes 5' and 3' nor between patients with b2a2 and b3a2 mRNA. The above results are in agreement with those reported in most recent studies, confirming the lack of clinical relevance of molecular pattern in CML.
Leukemia 1995 Jun
PMID:Analysis of the clinical relevance of the breakpoint location within M-BCR and the type of chimeric mRNA in chronic myelogenous leukemia. 759 78

c-mpl is the receptor for the recently identified megakaryocyte growth and differentiation factor thrombopoietin. Thrombopoietin has been shown to be capable of raising platelet counts in animals and is about to enter clinical trials in humans. In anticipation of its likely use in the care of patients receiving cancer chemotherapy, we evaluated the expression of human c-mpl by reverse transcription PCR on 39 human cell lines and 20 primary human tissue samples derived from both normal and malignant sources. c-mpl transcripts were found in all megakaryocytic cell lines tested (CMK, CMK-2B, CMK-2D, SO, and DAMI), the CD34+ leukemia cell line KMT-2, and a hepatocellular carcinoma cell line (Hep3B). Among primary tissues, fetal liver cells and brain had detectable levels of c-mpl message, and among primary tumors, none were found to express c-mpl. These data support the conclusion that c-mpl has restricted expression that is primarily, but not exclusively, related to megakaryocytopoiesis. These observations suggest that thrombopoietin is unlikely to have direct effects on other malignant or normal tissue should it have a clinical role in the treatment of chemotherapy-induced thrombocytopenia.
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PMID:Thrombopoietin receptor expression in human cancer cell lines and primary tissues. 762 56

With the increasing use of inducers of cellular differentiation in the treatment of leukaemia, it is essential to understand the relationship between differentiation and the expression of the multidrug resistance. Using the K562 human leukaemia cell line and its multidrug resistant subline K562/E15B, differentiation was examined along two different pathways, megakaryocyte in response to treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA), and erythroid in response to treatment with sodium butyrate, in the same cell line. P-glycoprotein expression was increased in the multidrug resistant K562/E15B subline, but not induced in the parental K562 cell line. However, both treatments conferred a different phenotype on the drug resistant subline. TPA treatment caused an increase in P-glycoprotein, increased drug resistance and decreased rhodamine-123 accumulation which was verapamil sensitive, demonstrating that TPA induced a fully functional P-glycoprotein. However, sodium butyrate treatment caused an increase in P-glycoprotein without increased drug resistance or without decreased rhodamine-123 accumulation suggesting that the P-glycoprotein induced by sodium butyrate was nonfunctional. These results stress the importance of examining not only the expression of P-glycoprotein in cells, but also the function of the P-glycoprotein induced.
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PMID:Expression of multidrug resistance in response to differentiation in the K562 human leukaemia cell line. 764 52

v-mpl is a mouse oncogene that is part of the genome of the myeloproliferative leukemia virus (MPLV). The cellular homolog gene c-mpl encodes an hematopoietic cytokine receptor restricted to the megakaryocytic lineage of differentiation. Using the Mpl receptor protein, cDNAs corresponding to the receptor ligand were isolated in humans, pigs, dogs and mice. In vivo and in vitro, the recombinant molecule has both the thrombopoietin (TPO) and megakaryocyte-colony stimulating factor (MK-CSF) activities. This molecule (Mpl ligand/TPO/MK-CSF) is the humoral physiological regulator of platelet production.
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PMID:From the v-mpl oncogene to thrombopoietin. 764 60

Thrombocytopenia is an important clinical problem for many acquired immunodeficiency syndrome (AIDS) patients. Recently, the utility of recombinant cytokines in alleviating the hematopoietic complications of AIDS and AIDS therapy has been evaluated. The newly cloned cytokine stem cell factor (SCF) has been demonstrated to be a potent regulator of hematopoietic progenitor cell proliferation. Therefore, we evaluated the ability of SCF to alleviate thrombocytopenia caused by infection with LP-BM5 murine leukemia virus (mLV) in a murine model of AIDS (MAIDS). In addition, we evaluated the effects of SCF on previously demonstrated azidothymidine (AZT)-induced elevations of platelet counts. SCF was administered to normal or LP-BMS-infected C57BL/6 mice in combination with oral AZT for up to 1 month and effects on platelet, megakaryocyte (MK), and megakaryocyte colony-forming cell (CFU-MK) numbers were evaluated. SCF alone significantly increased the number of circulating platelets in thrombocytopenic MAIDS mice by 53%. SCF also significantly elevated platelet levels by 29% in normal mice. AZT elevated platelet counts 100% in normal and 50% in MAIDS mice. AZT and SCF increased platelet counts in an additive manner. SCF alone was a potent inducer of splenic CFU-MK in both MAIDS and normal mice, increasing splenic CFU-MK 13- to 15-fold at day 15 as compared with untreated controls. By day 30, however, the numbers of splenic CFU-MK had returned to control levels. In infected mice, AZT alone increased the number of splenic CFU-MK. SCF administered to AZT-treated MAIDS mice did not further enhance these increases. In contrast, in normal mice, AZT decreased splenic CFU-MK numbers. In AZT-treated mice, SCF enhanced the numbers of splenic CFU-MK 90-fold at day 8. In MAIDS mice, the number of bone marrow CFU-MK was significantly increased by SCF treatment at all time points. SCF significantly affected the total number of femoral CFU-MK in AZT-treated mice only at day 15. In normal mice, SCF or SCF and AZT in combination increased the total number of bone marrow CFU-MK five-fold at day 8, but failed to induce changes in the total number of femoral CFU-MK after that. These results indicate that SCF elevates platelet levels in both thrombocytopenic MAIDS and normal mice and profoundly affects CFU-MK proliferation. Combinations of SCF and AZT may be further explored to enhance the therapeutic effectiveness of these two drugs in alleviating thrombocytopenia.
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PMID:Effects of in vivo administration of stem cell factor on thrombopoiesis in normal and immunodeficient mice. 768 20

Interleukin 12 (IL-12: natural killer cell stimulatory factor, NKSF; cytotoxic lymphocyte maturation factor, CLMF) was studied for its effect on colony formation and lineage expression of low-density bone marrow cells from 5-fluorouracil-treated mice, and of sorted stem cells using a semi-solid culture assay in the absence or presence of IL-3, IL-11, Steel factor (SF) and erythropoietin. IL-12 did not support colony formation as a single factor, nor in the presence of IL-11 or SF. In IL-3-containing cultures, IL-12 slightly enhanced neutrophilic and monocyte differentiation. Both SF and IL-11 synergized with IL-3 to increase the percentage of multilineage colonies and the number of colonies containing erythrocytes, megakaryocytes, neutrophils, eosinophils, monocytes/macrophages, and blast cells, but not mast cells. In the presence of IL-3 + IL-11, IL-12 greatly enhanced neutrophil, megakaryocyte, erythrocyte, and mast cell development. In IL-3 + SF-containing cultures, IL-12 further increased colony numbers and a higher percentage of colonies expressed neutrophilic, megakaryocytic, erythroid, monocytic, blast cell, and/or mast cell lineages. Colony size and the presence of eosinophils in colonies were unaffected by IL-12 addition. These effects of IL-12 could not be reversed by antibodies against interferon-gamma. Our data show that IL-12 may act as a synergistic factor, stimulating multilineage expression of hemopoietic stem cells, probably via a direct action. The observed activity of IL-12, however, required the presence of a least two factors, i.e. either IL-3 + IL-11, or IL-3 + SF.
Leukemia 1993 Sep
PMID:Interleukin-12 enhances interleukin-3 dependent multilineage hematopoietic colony formation stimulated by interleukin-11 or steel factor. 769 Apr 39

The aim of the present study was to evaluate the significance of immunomorphometric assessment of megakaryocyte size and number in normal and pathologic human bone marrow. Thus, we compared morphometric characteristics of megakaryocytes in 56 bone marrow trephine biopsies stained by immunohistochemical and conventional techniques. Morphometric results showed that precise megakaryocyte size in normal and pathologic samples can be calculated even by using conventional staining technique, but only employing specific stereological corrections. Immunomorphometric evaluation revealed populations of "small" megakaryocytes (< 14 microns), "morphologically unrecognized" by conventional staining technique (promegakaryoblasts in normal and stimulated as well as micromegakaryocytes in pathologic bone marrow). In patients with normal and stimulated megakaryocytopoises percentage of "small" megakaryocytes was generally low (10.6% and 14%, respect.); so, megakaryocyte number was similar in immunohistochemically and conventionally stained sections. In contrast, percentages of "small" megakaryocytes were significantly higher in patients with stem cell disorders (namely, myelodisplastic syndrome and chronic granulocytic leukaemia), as compared to controls (35.3% in MDS; 22.9% in CML and 10.6% in controls). In those patients megakaryocyte numbers were more sensitively detected by immunohistochemistry than by conventional staining.
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PMID:[Importance of immunomorphometric evaluation of the size and number of megakaryocytes in normal and pathologic bone marrow]. 771 37

Cord blood is a recently recognized source of hematopoietic stem cells. It can be employed successfully to reconstitute hematopoiesis following allogeneic transplantation. One current drawback of cord blood as a treatment has been a risk of transfusion reactions attributable to ABO blood group mismatch. Removal of red cells from the cord blood has led to reduction of the stem cells by 30-50%. In this paper we report red cell depletion by a method that employs 3% gelatin to effectively sediment the erythrocytes and selectively deplete red cells but permits 94% recovery of nucleated cells and enrichment of colony-forming cells by granulocyte-macrophage colony-forming units, erythrocyte burst-forming units, and granulocyte-macrophage-megakaryocyte colony-forming units in the cord blood preparation. This technique has been employed in our study to remove red cells from the cord blood of a male infant delivered by cesarean section, which has permitted treatment of a female sibling suffering from leukemia. The recipient was 8 years old and weighted 36.7/kg. Complete HLA identity between the two siblings was established. A cord blood cell transplant of cryopreserved and later thawed cells (4 x 10(7) nucleated cells per kilogram) was administered to the patient after intensive myeloablative chemotherapy. The patient exhibited a prompt hematologic recovery (absolute neutrophil count > 500 by day 31, 100% male cells in bone marrow and peripheral blood by day 25) and has experienced a 13-month disease-free survival to date.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Erythrocyte-depleted allogeneic human umbilical cord blood transplantation. 774 6

Two leukemia cell lines, TS9;22 and YS9;22, were established from different individuals with Philadelphia chromosome (Ph)-positive chronic myeloid leukemia in blast crisis. The reverse transcript-polymerase chain reaction (RT-PCR) technique revealed that both cell lines expressed GATA-1, GATA-2, and the stem cell leukemia (SCL) gene, consistent with a megakaryocyte lineage. Chromosome analysis revealed that TS9;22 cells show the Ph translocation without abnormality of chromosome 3. In contrast, YS9;22 cells show the Ph translocation and dic(3)(q26;p12). Northern analysis revealed that YS9;22 cells express the EVI1 (ecotropic virus integration-1) gene, possibly because of the chromosomal translocation in the 3q26 region; TS9;22 cells do not express EVI1. However, no rearrangements were detected over 600 kb upstream or over 900 kb downstream of EVI1 in the YS9;22 cell line, suggesting a different mechanism of EVI1 activation from that in leukemia cells with either a t(3;3)(q21;q26) or inv(3)(q21q26). These results indicate that EVI1 expression in YS9;22 cells is linked to the 3q26 abnormality and that EVI1 activation plays an oncogenic role in the blastic transformation of chronic myeloid leukemia.
Leukemia 1994 Dec
PMID:EVI1 expression associated with a 3q26 anomaly in a leukemia cell line derived from the blast crisis of chronic myeloid leukemia. 780 6

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