Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of erythropoietin (Epo) on colony formation by blast progenitors in acute myeloblastic leukaemia other than erythroleukaemia was studied using a blast colony assay. Epo alone did not induce colony formation, but when it was used together with phytohaemagglutinin-stimulated leucocyte-conditioned medium (PHA-LCM) the number of leukaemic colonies significantly increased in nine out of 12 cases studies. Preincubation of Epo with anti-Epo antibody completely abolished this enhancement, indicating that the increase in colony numbers was caused by Epo itself. Cell surface phenotype analysis of colonies produced by Epo plus PHA-LCM showed no increase in percentages of erythroid and megakaryocyte lineages. The addition of Epo also increased the self-renewal capacity of leukaemic blast cells. Fresh leukaemic cells did not express Epo receptors, but they were induced after incubation with PHA-LCM. The present study thus showed that the proliferative response to Epo is not restricted only to the erythroid lineage, but also extends to AML blast cells other than those in erythroleukaemia in the presence of colony stimulating factors.
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PMID:Enhanced growth of clonogenic cells from acute myeloblastic leukaemia by erythropoietin. 237 25

Using the megakaryocytic leukemia cell lines, K-562 and CMK established from a Down's patient with acute megakaryoblastic leukemia, we studied the changes of antigen expression, cytosolic Ca2+ mobilization, thromboxane (TX) A2 formation and gene expression during megakaryocyte differentiation. We found that thrombospondin synthesis and platelet factor (PF)-4 gene expression were specific for mature megakaryoblasts, whereas collagen unresponsiveness and prostaglandin E1-induced Ca2+ mobilization were noted in immature megakaryoblasts alone. This experiment shows that functional and genetic analysis are useful for characterizing the leukemic megakaryoblastic cells. We analyzed the clinical, hematologic and genetic features of 4 patients with M7, and acute megakaryoblastic transformation of CML, MDS and essential thrombocythemia. In two patients, prednisolone and 6-MP were effective in cytoreduction. In 3 patients with increased platelet counts, normal CFU-Meg formation, the megakaryoblasts with platelet production, or the coexistence of immature megakaryoblasts with mature megakaryocytes were observed, thus indicating that some megakaryoblastic leukemia cells still have the capacity of differentiation. One patient had megakaryoblastic cells with PF-4 gene expression. These clinical findings suggest that the megakaryoblastic leukemia could not be characterized as usual leukemia and a more sensitive marker is required to differentiate leukemic megakaryoblasts from normal megakaryoblasts.
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PMID:[Megakaryocytic leukemia cell lines and megakaryocytic leukemia]. 238 Oct 77

It has been suggested that abnormalities of chromosome 3 at bands q21 and q26 are associated with the presence of increased numbers of abnormal megakaryocytes in patients with hematologic malignancies. The pretreatment bone marrows of 287 patients with leukemia (acute myeloid leukemia (AML), 225 patients; acute lymphocytic leukemia (ALL), 36 patients; or chronic myelogenous leukemia in blast crisis (CML-B), 26 patients) were reviewed to identify those with normal or increased numbers of megakaryocytes. Thirty-two patients with AML, one with ALL, and 10 with CML-B had normal or increased numbers of megakaryocytes. Of the 32 patients with AML, 19 patients had significant numbers of mononuclear or binuclear small megakaryocytes as well as megakaryocytes with separated nuclei ("micromegakaryocytes"). Cytogenetic analyses were obtained in 29 of 32 patients with AML and showed inv(3)(q21q26) (one patient); Ph1 (two patients); -5 and/or -7 (seven patients); normal karyotypes (10 patients). No patient with micromegakaryocytes had a chromosomal abnormality associated with a favorable prognosis. Overall, among 225 patients with AML, four had inv(3)(q21q26) or t(3;3)(q21;q26). Only one of these four patients had normal or increased numbers of megakaryocytes, although all four had micromegakaryocytes. One patient with CML-B had inv(3)(q21q26) but had decreased numbers of megakaryocytes and a platelet count of 24 x 10(3)/microliters. All five patients with abnormal chromosome 3 at bands q21 and q26 had additional cytogenetic abnormalities (Ph1 in two patients; -7 in three patients). Mean and median platelet counts were greater than 100,000/microliters for patients with marrow megakaryocytosis regardless of morphology, as well as for the patients with abnormalities involving 3q21 and 3q26. Abnormalities of megakaryocyte morphology, increases in the numbers of megakaryocytes, and normal to increased platelet counts are not uncommon in patients with acute leukemia and CML-B, and are not uniquely associated with changes involving chromosome 3.
Leukemia 1990 May
PMID:Clinical and cytogenetic correlations of abnormal megakaryocytopoiesis in patients with acute leukemia and chronic myelogenous leukemia in blast crisis. 238 80

The possible presence of tumor cells in remission bone marrow (BM) is one of the major problems for the success of autologous BM transplantation (ABMT), because the reinfusion of viable malignant cells may result in relapse. In this study we attempted the purging of the malignant cells by the use of VP-16-213 (VP-16) and nitrogen mustard (NM) either alone or in combination. Four cell lines from various hematological malignancies were utilized: SK-DHL-2 was established from a B-cell diffuse histiocytic lymphoma; RAJI was from an Epstein-Barr virus (EBV)-infected B-cell lymphoma cell line; K-562 were from a chronic myelogenous leukemia (CML) blastic crisis; and HL-60, derived from a human promyelocytic leukemia, were used in exponential growth phase. Four logs of tumor cell-elimination were observed after 1-h incubation of RAJI cells with 25 micrograms/ml of VP-16. K-562 and SK-DHL-2 cells showed a greater than 4 logs reduction after 1-h exposure to 75 micrograms/ml of VP-16, and HL-60 cell line growth was inhibited by 3.2 logs. Under the same conditions (i.e., the treatment with 75 micrograms/ml), we observed a mean recovery of 2.7% of BM granulocyte-macrophage colonies (granulocyte-macrophage colony-forming units, CFU-GM), 3.2% of erythroid (erythroid burst-forming units, BFU-E), and 2.5% of pluripotent (granulocyte erythrocyte macrophage megakaryocyte colony-forming units, CFU-GEMM) progenitors, respectively. More than 3 logs reduction of leukemia and lymphoma cell lines were reached following 1-h treatment with 1 micrograms/ml of NM. After exposure to the same concentration of the drug we obtained 2.5% CFU-GM, 1.2% BFU-E, and 2% CFU-GEMM recovery. A drug mixture containing constant doses of VP-16 (10 and 20 micrograms/ml) and NM (1 micrograms/ml) reduced HL-60 and SK-DHL-2 cell growth to undetectable levels (i.e., 4 and 5 logs elimination) in the presence of an excess of irradiated BM cells, whereas it did not further affect the recovery of the BM precursors as compared to the single drugs used alone. These results suggest that the combination of these two drugs at the selected dose level could provide a better therapeutic index (i.e., higher tumor cell killing coupled with no additional cytotoxic effect on normal BM cells) than the same chemotherapeutic agent used alone and that this mixture may be useful for the "ex vivo" treatment of BM grafts.
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PMID:In vitro cytotoxicity of VP-16-213 and nitrogen mustard: agonistic on tumor cells but not on normal human bone marrow progenitors. 239 48

We describe a case of primary myelofibrosis which terminated in an acute megakaryoblastic leukaemia with massive marrow fibrosis and osteosclerosis. The megakaryocyte lineage of the terminal phase was confirmed by ultrastructural and surface marker studies of the blast cells. The leukaemic phase was associated with the presence of large numbers of progressively more immature megakaryocyte progenitors in the peripheral blood. The expression of c-sis mRNA in these blast cells was significantly higher than in normal mononuclear cells. Activation of the c-sis protooncogene leading to increased production of platelet-derived growth factor could be related to the progressive fibrosis observed.
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PMID:Megakaryoblastic transformation of myelofibrosis with expression of the c-sis oncogene. 242 34

A 72-year-old man with refractory anemia (RA) developed overt megakaryoblastic leukemia after the course of RA with excess of blasts. The blasts were positive for platelet peroxidase activity and had platelet glycoproteins (GPs) such as GPIIb/IIIa and GPIIIa. The bone marrow biopsy at terminal stage disclosed marked fibrosis. The nature of the megakaryoblasts was investigated. The blasts did not differentiate morphologically into mature megakaryocytes with TPA addition. In vitro colony assay showed the failure of colony-forming unit, megakaryocyte growth in peripheral blood. The pathogenesis of myelofibrosis in our patient is discussed.
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PMID:Refractory anemia terminating in acute megakaryoblastic leukemia (M7). 249 48

Essential thrombocythaemia (ET) is a rare clonal myeloproliferative disorder characterized by a persistent increase in platelet count. The commonly used criteria for the diagnosis, except for the level of the increase in platelet count, are usually those fixed by the Polycythemia Vera Study Group. The average age of onset is around 60 years, both sexes being affected. The symptoms frequently present at diagnosis are related to microcirculatory disturbances (palms, soles, fingers). Neurological symptoms are often observed. Thrombotic complications of the large vessels are less frequent. Haemorrhagic problems are present in about 30% of patients. Bleeding time is normal in most cases, whereas platelet aggregation abnormalities are frequently found. Nil adrenaline aggregation is the most discriminative test. The clinical course is characterized by long intervals without any symptoms; thromboembolic or haemorrhagic episodes can, however, occur, mainly in uncontrolled ET. Development of terminal acute leukaemia has been reported in 34 cases. The expression of the influence of the treatments, 32P or alkylating agents, is very strong. The treatment of ET has to take in consideration the difficult compromise between balancing the necessity of preventing complications and the effects of drug toxicity. The use of recombinant alpha-interferon has recently been proposed and is under investigation. The pathogenesis of thrombocytosis in ET seems to involve an expansion in the megakaryocyte progenitor cell pool. Platelet membrane glycoprotein abnormalities and defective glycosylation of thrombospondin have been shown. Numerous other platelet abnormalities, including decreased alpha-adrenergic receptors, loss of PGD2 receptors and increased Fc receptors, have been reported. Arachidonic metabolism seems to be abnormal and lipoxygenase is defective. Most of the platelet abnormalities seem to be the result of intrinsic defects at the level of an abnormal clone of megakaryocytes. However, causal relationships between the platelet abnormalities and bleeding or thrombosis are not yet clearly demonstrated.
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PMID:Essential thrombocythaemia. 250 75

We report that highly purified human platelet factor 4 (PF4) inhibits human megakaryocytopoiesis in vitro. At greater than or equal to 25 micrograms/ml, PF4 inhibited megakaryocyte colony formation approximately 80% in unstimulated cultures, and approximately 58% in cultures containing recombinant human IL 3 and granulocyte-macrophage colony-stimulating factor. Because PF4 (25 micrograms/ml) had no effect on either myeloid or erythroid colony formation lineage specificity of this effect was suggested. A synthetic COOH-terminal PF4 peptide of 24, but not 13 residues, also inhibited megakaryocyte colony formation, whereas a synthetic 18-residue beta-thromboglobulin (beta-TG) peptide and native beta-TG had no such effect when assayed at similar concentrations. The mechanism of PF4-mediated inhibition was investigated. First, we enumerated total cell number, and examined cell maturation in control colonies (n = 200) and colonies (n = 100) that arose in PF4-containing cultures. Total cells per colony did not differ dramatically in the two groups (6.1 +/- 3.0 vs. 4.2 +/- 1.6, respectively), but the numbers of mature large cells per colony was significantly decreased in the presence of PF4 when compared with controls (1.6 +/- 1.5 vs. 3.9 +/- 2.3; P less than 0.001). Second, by using the human leukemia cell line HEL as a model for primitive megakaryocytic cells, we studied the effect of PF4 on cell doubling time, on the expression of both growth-regulated (H3, p53, c-myc,and c-myb), and non-growth-regulated (beta 2-microglobulin) genes. At high concentrations of native PF4 (50 micrograms/ml), no effect on cell doubling time, or H3 or p53 expression was discerned. In contrast, c-myc and c-myb were both upregulated. These results suggested the PF4 inhibited colony formation by impeding cell maturation, as opposed to cell proliferation, perhaps by inducing expression of c-myc and c-myb. The ability of PF4 to inhibit a normal cell maturation function was then tested. Megakaryocytes were incubated in synthetic PF4, or beta-TG peptides for 18 h and effect on Factor V steady-state mRNA levels was determined in 600 individual cells by in situ hybridization. beta-TG peptide had no effect on FV mRNA levels, whereas a approximately 60% decrease in expression of Factor V mRNA was found in megakaryocytes exposed to greater than or equal 100 ng/ml synthetic COOH-terminal PF4 peptide. Accordingly, PF4 modulates megakaryocyte maturation in vitro, and may function as a negative autocrine regulator of human megakaryocytopoiesis.
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PMID:Inhibition of human megakaryocytopoiesis in vitro by platelet factor 4 (PF4) and a synthetic COOH-terminal PF4 peptide. 252 11

Two classes (site 1- and site 2-selective) of cAMP analogs, which either alone or in combination demonstrate a preference for binding to type II rather than type I cAMP-dependent protein kinase isozyme, potently inhibit growth in a spectrum of human cancer cell lines in culture. Treatment of K-562 human leukemic cells for 3 days with 30 and 10 microM 8-chloroadenosine 3',5'-cyclic monophosphate (8-Cl-cAMP) (site 1-selective) resulted in 60% and 20% growth inhibition, respectively (with over 90% viability). N6-Benzyl-cAMP (site 2-selective) (30 microM) treatment resulted in 20% growth inhibition by day 3. When 8-Cl-cAMP (10 microM) and N6-benzyl-cAMP (30 microM) were both added, growth was almost completely arrested. The growth inhibition was accompanied by megakaryocytic differentiation in K-562 cells. The untreated control cells expressed little or no detectable levels of glycoprotein IIb-IIIa surface antigen complex. 8-Cl-cAMP (30 microM) treatment for 3 days substantially increased the antigen expression, while N6-benzyl-cAMP caused little or no change in the antigen expression. When cells were treated with 8-Cl-cAMP in combination with N6-benzyl-cAMP, antigen expression was synergistically enhanced, and cells demonstrated megakaryocyte morphology. By Northern blotting, we examined the mRNA levels of the type I and type II protein kinase regulatory subunits (RI alpha and RII beta), the catalytic subunit, and c-myc during 8-Cl-cAMP treatment. The steady-state level of RII beta cAMP receptor mRNA sharply increased within 1 hr of treatment and remained elevated for 3 days, while that of the RI alpha receptor markedly decreased to below control level within 6 hr and remained low during treatment. However, 8-Cl-cAMP did not affect the mRNA level of the catalytic subunit. 8-Cl-cAMP treatment also brought about a rapid decrease in c-myc mRNA. Thus, differential regulation of cAMP receptor genes is an early event in cAMP-induced differentiation and growth control of K-562 leukemia cells.
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PMID:Induction of megakaryocytic differentiation and modulation of protein kinase gene expression by site-selective cAMP analogs in K-562 human leukemic cells. 253 2

Pretreatment peripheral and/or bone marrow blasts from 14 patients with acute unclassifiable leukemia (AUL) expressing myeloid related cell-surface antigen (CDII) or megakaryocyte-platelet related cell-surface antigen (OKM6), were isolated for further analysis in this study. Among 11 cases of CD11+AUL, despite a lack of myeloperoxidase (MPO) activity, one patient's blasts possessed Auer rod in a basophilic cytoplasm and another one's blasts expressed MPO maintaining the same surface phenotype after 20 months of his clinical course. The blast from 2 cases possessed both myelomonocytic and monocyte-specific antigens on the cell-surface, whereas the remaining nine cases completely lacked monocyte-specific antigen which is detectable by monoclonal antibodies, Mo2, My4 and Leu M3 (CD14). In addition, we revealed the presence of MPO protein in the cytoplasm of 3 cases of AUL patients by cytoplasmic immunofluorescence test utilizing monoclonal antibody (MA1). Following these results, the former was diagnosed as acute myelomonocytic leukemia (AMMoL) and the latter as acute myelogenous leukemia (AML) by immunophenotypic analysis using flow cytometry (FACS IV) and cytoplasmic immunofluorescence test. We have also described three cases of acute megakaryocytic leukemia which were demonstrated by the presence of megakaryocyte-platelet-related cell-surface antigens detected by utilizing flow cytometry and monoclonal antibodies in addition to both the PPO activity which was shown by ultrastructural cytochemistry, and the emergence of differentiation antigens while culturing these leukemic cells. The blast of 1 case possessed both platelet GPIb and GPIIb/IIIa cell-surface antigens detected by 5F1 (CD36), AN51 (CDw42), and J15, P2 and HPL2 (CDw41), respectively, whereas the remaining two cases almont lacked the GPIb cell-surface antigen. Hence, the former was diagnosed as immature (pro) megakaryocytic leukemia and the latter as acute megakaryoblastic leukemia from the viewpoint of immunophenotypic analysis as will be discussed in this article. These leukemic blasts did not express both T-cell lineage antigens which are detectable by monoclonal antibodies, T6 (CD1), T11 (CD2), T3 (CD3), T4 (CD4), T1 (CD5), Tp40, Leu9 (CD7), T8 (CD8), and B-cell lineage antigens which are detectable by monoclonal antibodies, B4 (CD19), B1 (CD20), B2 (CD21) and J5 (CD10).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Flow cytometric analysis of myeloperoxidase negative acute unclassifiable leukemias by monoclonal antibodies. Acute myelogenous and acute megakaryocytic leukemia]. 254 Dec 76


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