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

A bone-resorbing product of mouse spleen cells found to have differentiation-inducing activity was most probably leukaemia inhibitory factor (LIF). This revealed that LIF is a cytokine active on bone, in addition to its several other sites of action. In organ culture of newborn mouse bone, recombinant LIF promoted bone resorption by a prostaglandin-dependent process. Resorption by isolated rat osteoclasts was also promoted by LIF through an initial action on osteoblasts which was receptor-mediated. Incorporation of [3H]thymidine into DNA was increased by LIF in cells (most probably osteoblasts) of the newborn mouse bones. Osteoblasts have been shown to produce LIF, and the amount is increased by treatment with retinoic acid or TNF-alpha. LIF also acts directly on osteoblasts to inhibit plasminogen activator activity, by stimulating the synthesis of plasminogen activator inhibitor 1 mRNA and protein. The latter actions are very similar to those of TGF-beta. Again like TGF-beta, LIF was ineffective in promoting bone resorption in vitro in fetal rat long bones. These results, together with the in vivo data showing that high circulating levels of LIF in the mouse are accompanied by a substantial increase in trabecular bone mass, indicate that LIF is another cytokine with potent actions on bone and potentially important interactions with other osteotrophic factors.
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PMID:Leukaemia inhibitory factor and bone cell function. 142 10

Plasma concentration of thrombin-antithrombin III complex (TAT), tissue-type plasminogen activator (t-PA), plasminogen activator inhibitor 1 (PAI-1), PAI-2, D-dimer complex and urokinase-plasminogen activator (u-PA) activity were studied in 30 patients with acute nonlymphoblastic leukemia (ANLL), before and during antileukemic therapy. Fifteen patients showed signs of disseminated intravascular coagulation (DIC), 10 of them classified as M3, 2 as M2 and 3 as M5 subtypes. The initial levels of TAT complex were elevated in all ANLL patients. This increase was more pronounced in patients with DIC (p less than 0.05). TAT increased significantly during the treatment period in all cases. u-PA and PAI-1 levels were elevated but there were no statistically significant differences between patients with and without DIC. PAI-2 levels were below the limit of detection in controls and in patients. However, the initially elevated D-dimer complex levels were significantly higher in DIC cases (p less than 0.01) and they increased during the treatment period. A significant and positive correlation between D-dimer and TAT complex values was found in DIC patients (r = 0.68, p less than 0.001). The high TAT complex and D-dimer levels further increased during chemotherapy treatment strongly suggest a hypercoagulable state with secondary activation of fibrinolysis not severe enough to manifest itself as clinically evident DIC in the majority of cases.
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PMID:Increase in the D-dimer levels during treatment in patients with acute myelogenous leukemia. 142 55

Two important haematological problems were found in an otherwise healthy 78 year old man: chronic myelomonocytic leukaemia; and a complex, acquired, hyperfibrinolytic bleeding disorder characterized by prolonged coagulation times, deficiency of coagulation factors V, X, and XI, anti-thrombin III and proteins C and S, with high concentrations of circulating tissue plasminogen activator, and low concentrations of plasminogen activator inhibitor. There may be a causal relation between the two conditions, with the peripheral blood monocytes mediating the hyperfibrinolytic process by the abnormal production of tissue plasminogen activator, though no previous description of a similar association has been reported.
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PMID:Bleeding diathesis coincident with chronic myelomonocytic leukaemia. 175 89

Chromosome studies were carried out after a 24-hour harvest of unstimulated bone marrow aspirate cell cultures from a 75-year-old male with a clinical diagnosis of acute myelomonocytic leukemia (FAB M4). Analysis of nine cells after trypsin-Giemsa banding (GTG) revealed two cell lines with a mosaic chromosome pattern, 46,XY/46,XY,t(7;19)(q22;p13.3). A review of the recent literature reveals one case of childhood ALL with a 46,XY/46,XY,t(7;19)(q11;q13) chromosome pattern [1] and a 46,XY,t(3q;11q),t(7q;19p),t(15;17)(q26;q22) in one patient with ANLL (FAB M3) [2]. The t(7;19)(q22;p13.3) seen in our case has not been reported as the sole specific clonal chromosome rearrangement in myeloid neoplasia. Interestingly, the plasminogen activator inhibitor type I, multi-drug resistance, and erythropoietin genes are located at band 7q22 and the insulin receptor gene is located at band 19p13.3. Both sites contain fragile site loci. The possible role of these fragile sites, genes, or other genes in the rearrangement can only be surmised.
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PMID:Atypical (7;19) translocation in acute myelomonocytic leukemia. 175 94

We studied the effect of fibrinogen degradation products D, E, and D-dimer on a human promonocytic leukemia cell line, NOMO-1. After exposure to a 10(-5)-mol/L fragment D or D-dimer, the cells displayed macrophage-like characteristics, such as adherence to plastic surfaces, and showed approximately a twofold increase in response to the nitroblue tetrazolium reduction test. The secretion of interleukin-1 alpha (IL-1 alpha) into the medium was markedly stimulated by a 10(-5)-mol/L fragment D, E, and D-dimer, whereas a significant increase in IL-1 beta secretion was observed only in D-dimer-stimulated cells. In addition, D-dimer induced a rapid increase in urokinase-type plasminogen activator on day 1 (0.52 +/- 0.02 ng/mL v 0.07 +/- 0.01 ng/mL in the control culture) and a slow increase in plasminogen activator inhibitor-2 on day 5 (3.9 +/- 1.6 ng/mL v 1.2 +/- 0.2 ng/mL in the control culture). An increase in tissue factor (TF) was also demonstrated on the cell surface of NOMO-1 cells exposed to fragment D or D-dimer by indirect immunofluorescence using an anti-TF monoclonal antibody. Scatchard plot analysis showed that fragment D and D-dimer bound to the NOMO-1 cells with a kd of 3.3 nmol/L and 2.7 nmol/L, respectively. These results suggest that fragment D-dimer specifically stimulates cells of monocyte-macrophage lineage to secrete key substances that regulate blood coagulation, fibrinolysis, and inflammation.
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PMID:FDP D-dimer induces the secretion of interleukin-1, urokinase-type plasminogen activator, and plasminogen activator inhibitor-2 in a human promonocytic leukemia cell line. 184 45

Differentiation-linked expression of plasminogen activator inhibitor-2 (PAI-2) was investigated by adding cell-differentiation promoting agents [such as phorbol myristate acetate (PMA), retinoic acid, dexamethasone (Dex), and recombinant cytokines, including tumor necrosis factor-alpha (TNF-alpha), transforming growth factor-beta, granulocyte-colony stimulating factor, and interleukin-6 (IL-6)] into the culture medium of a promyelocytic leukemia cell line PL-21. PAI activity both in the culture medium and in the cell lysate increased approximately 70-fold after exposure to PMA. Both PAI-1 and PAI-2 antigens increased, but the amounts of the latter in the culture medium and in the cell lysate were approximately 10 times and 2,500 times, as much, respectively, as those of the former. Dex also increased the intracellular PAI activity approximately 6-fold, parallel with PAI-2 antigen. PAI-1 antigen increased only slightly in the culture medium but not in the cell lysate after Dex-stimulation. As with the case of PMA, TNF-alpha and IL-6 induced PL-21 cells to macrophage-like cells, but did not affect the PAI activity. Thus, the increase of the PAI-2 production by PMA may not necessarily depend on differentiation into macrophages. Other cytokines examined did not increase the PAI activity. PAI-2 antigen was demonstrated in the cell lysates of various leukemia cells by Western blotting technique using a monoclonal antibody against the PAI-2 purified from PL-21 culture medium. PAI-2 antigen was frequently detected in the plasmas from the patients whose peripheral leukocytes were more than 10,000/microliters.
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PMID:[Production and secretion of the plasminogen activator inhibitor type-2 in a leukemia cell line]. 187 Feb 66

Plasma and tumor cells from 103 patients with leukemia or lymphoma at initial presentation were investigated for the presence of plasminogen activator inhibitor-2 (PAI-2) antigen, a potent inhibitor of urokinase. PAI-2 was detected in plasma and leukemic cells of the 21 patients with leukemia having a monocytic component [acute myelomonocytic (M4), acute monoblastic (M5), and chronic myelomonocytic leukemias], and in the three patients with acute undifferentiated myeloblastic leukemia (M0). In contrast, this serine protease inhibitor was undetectable in 79 patients with other subtypes of acute myeloid leukemia or other hematological malignancies. Serial serum PAI-2 determinations in 16 patients with acute leukemia at presentation, during therapy, remission, and relapse revealed that in the five patients with M4-M5, elevated PAI-2 levels rapidly normalized under therapy and during remission, but increased again in the patients with a relapse associated with an M4-M5 phenotype. Thus, PAI-2 seems to be a marker highly specific for the active stages of monocytic leukemia, i.e. presentation and relapse. The presence of PAI-2 in the plasma and cells of patients with M0 may give a clue to a monocytic origin of these cells.
Leukemia 1991 Jun
PMID:Plasminogen activator inhibitor-2 in patients with monocytic leukemia. 205 72

The K562 leukemia cell line has been extensively used in studies of erythroid differentiation but it has been less well appreciated that treatment of K562 cells with the tumor promoter 12-O-tetradecanoyl-phorbol-13-acetate (TPA) leads to loss of their erythroid properties and to acquisition of several megakaryoblastoid characteristics. These include synthesis and surface expression of glycoprotein IIIa, an increase in platelet peroxidase positivity, enhancement of thromboxane A2 receptors, and increased cell volume and DNA ploidy. TPA-treated K562 cells also synthesize and secrete platelet derived growth factor (PDGF), transforming growth factor beta 1 (TGF beta 1), urokinase-plasminogen activator (u-PA) and its specific inhibitor, type 1 plasminogen activator inhibitor (PAI-1). Induction of all these proteins, which have also been found in platelet granules (u-PA on platelet surface receptors) occurs at the level of mRNA accumulation. Therefore, in addition to facilitating studies and cloning of genes specific for erythroid differentiation, the K562 cells offer a tool to approach early steps of megakaryoblast commitment and differentiation. Observations made with the K562 cell line and several other leukemia cell lines co-expressing erythroid and megakaryocyte markers suggest that the erythroid and megakaryocyte lineages diverge from a common bipotent precursor cell.
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PMID:Induced differentiation of K562 leukemia cells: a model for studies of gene expression in early megakaryoblasts. 219 10

Treatment of acute lymphoblastic leukaemia (ALL) with L-asparaginase (L-asp) may be associated with thrombotic complications, but the pathogenetic mechanisms of thrombus formation and persistence remain unclear. We studied the procoagulant activity (PCA) of peripheral blood mononuclear cells and some components of the plasma fibrinolytic system in 10 children with ALL undergoing remission induction therapy which includes L-asp. Mononuclear cells obtained 14 days after starting L-asp treatment generated significantly higher amounts of PCA (identified as tissue factor) than cells isolated before the first dose of L-asp and 7 days after the cessation of L-asp administration (p less than 0.01). Augmented PCA coincided with an increase in the plasma D-dimer. The plasma levels of type 1 plasminogen activator inhibitor were found significantly elevated during L-asp therapy (p less than 0.05), whereas plasminogen levels were markedly decreased (p less than 0.05). These findings suggest that, during the course of L-asp treatment, the coagulation-fibrinolysis balance is shifted towards promotion of fibrin formation and deposition. Although it remains to be conclusively established whether L-asp per se or the concurrent administration of multiple chemotherapeutic agents is responsible for these changes, the latter could contribute to the thrombotic complications associated with remission induction therapy for ALL.
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PMID:Unbalanced coagulation-fibrinolysis potential during L-asparaginase therapy in children with acute lymphoblastic leukaemia. 227 27

The secretion of tissue plasminogen activator (t-PA), urokinase (u-PA) and their inhibitors by the human leukemia cell line K562 was examined. K562 cells normally secrete both t-PA and u-PA in a ratio of 3:1. After addition of 10 or 1 ng/mL phorbol myristate acetate (PMA) to K562 cells, a marked decrease in enzymatic activity is observed in the medium. However, when t-PA antigen rather than activity is measured, an increased amount is found in the medium under these conditions. PMA also induces secretion of the two inhibitors of plasminogen activator: plasminogen activator inhibitor 1 (PAI-1) and plasminogen activator inhibitor 2 (PAI-2). This accounts for the decrease in total enzymatic activity under conditions when production of t-PA antigen is increased. A study of the time course of induction revealed that the synthesis of plasminogen activator occurred before that of its inhibitors. Low concentrations of PMA (0.1 ng/mL) induce t-PA antigen primarily and not the inhibitors. This results in an increase in total enzymatic activity, with 94% of the secreted activity being t-PA. Thus, the secretion of plasminogen activators and their inhibitors can be manipulated in certain leukemic cells by inducers such as PMA.
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PMID:Regulation and secretion of plasminogen activators and their inhibitors in a human leukemic cell line (K562). 250 6


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