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)

The alteration of acetylcholinesterase (ACHE) activity, a marker enzyme of erythroid differentiation, was studied during the hemin-induced erythroid differentiation of K562 human leukemia cells in suspension culture. The kinetics of postinduction differentiation was followed by determining the hemoglobin (Hb) content and the ACHE activity of cells. Embryonic hemoglobins as well as small quantities of fetal Hb (HbF) were synthetized by stimulated cells. The peaks of ACHE activity preceded the highest level of Hb content and, following induction, reached their pinnacles at 72 and 120 hours, respectively. These data indicate that ACHE activity is an earlier and more sensitive marker for hemin-induced erythroid differentiation of K562 cells than is elevated Hb content. Electrophoretic mobility of ACHE from hemin-treated cells proved to be the fetal type, but after incubation with neuraminidase, the rate of migration decreased to the level of the adult type enzyme.
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PMID:Characterization of "fetal-type" acetylcholinesterase in hemin-treated K562 cell culture. 347 1

The in vitro biological activities of thrombopoietic stimulating factor, recombinant interleukin 3, and megakaryocyte potentiator from various sources were studied. Growth activities were assessed by the responsiveness of enriched populations of small, immature megakaryocytes to factor preparations by measuring increased numbers of acetylcholinesterase-positive cells and increased cell size as indices of megakaryocyte development. All factors stimulated optimum megakaryocyte growth at high concentrations. Immature megakaryocytes revealed the same responsiveness to titrated amounts of the various factors tested, with similar slopes to the dose-response curves. The activities of both thrombopoietic stimulating factor and megakaryocyte potentiator were additive when suboptimal doses were used. In contrast, low concentrations of recombinant interleukin 3 and thrombopoietic stimulating factor acted synergistically to stimulate an optimal response. The data indicate that at low and perhaps physiologically relevant concentrations, two classes of factors influence murine megakaryocyte development by different but related mechanisms.
Leukemia 1987 Nov
PMID:Immature megakaryocytes in the mouse: synergistic response to megakaryocyte potentiator, thrombopoietic stimulatory factor with interleukin 3. 350 Mar 75

This report discusses a case of T cell chronic lymphocytic leukemia (T-CLL) in an elderly white man whose lymphocytes expressed a post-thymic phenotype except for the coexpression of T4 and T8 on 80% to 95% of the cells. Because of the uncommon phenotype, in vitro functional assays were performed that showed decreased mitogenic responses but normal helper activity for B cell immunoglobulin secretion and normal suppressor activity of lectin-induced mitogenesis. Morphologic evaluation by both light and electron microscopy and cytochemical staining were consistent with the "knobby" type T-CLL. Adenosine deaminase and terminal deoxynucleotidyl transferase (TdT) levels were low, but the acetylcholinesterase level was normal, which is consistent with the peripheral T cell phenotype. The patient underwent splenectomy, and the spleen cells showed very low levels of T3 and T4 by immunoperoxidase and undetectable levels by immunofluorescence. The morphology of the splenic infiltrate was not significantly different from that in the initial bone marrow. Human T cell leukemia virus (HTLV) antigen and antibody tests were negative. The cells in this leukemia apparently are derived from a transitional stage of maturation between the cortical and medullary thymocyte. A small subset of lymphocytes of identical phenotype to this leukemia has been identified in normal individuals.
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PMID:T cell chronic lymphocytic leukemia with lymphocytes of unusual immunologic phenotype and function. 387 Nov 60

Mononuclear cell (MNC) leukemia was identified in 26-month-old F344 rats by splenomegaly, reduced red blood cell counts, and elevated white blood cell counts. Atypical MNC were predominant in spleen and blood with acentric nuclei and red cytoplasmic granules. Pentose shunt, glycolytic, and Krebs cycle enzyme activities were elevated 2- to 11-fold in the enriched MNC fraction (Ficoll-Paque density gradients, 1.077 g/ml) isolated from spleen. A leukemic MNC line was derived from one of the spontaneously leukemic donors and then maintained in vivo by s.c. transfer of 2 X 10(7) spleen cells into 7-8-week-old syngeneic recipients. In these serial transplantation experiments leukemia that was clinically and morphologically indistinguishable from spontaneous leukemia in 104-week-old rats was induced in 22-24-week-old rats. Enhanced enzyme activity in MNC was not essential to maintain the phenotypic expression of Fischer rat leukemia. The pattern of biochemical response in spleen MNC from transplanted cases was the opposite of that previously noted in spontaneously leukemic rats, with 50-70% decreases in the specific activities of pentose shunt enzymes and malate dehydrogenase. Reversal of the expression of these enzymes in MNC may be related to a difference in the growth rate of the tumors or to selective proliferation of the transplanted leukemic cells. In addition acetylcholinesterase activity decreased 35-85% in MNC of spleen and blood. Transplantable MNC from F344 rats provide abundant tumorigenic material with a novel biochemical expression that may be useful in the study of chemotherapeutic intervention.
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PMID:Comparison of the morphology and enzyme activity of mononuclear cells from Fischer 344 rats with either spontaneous or transplanted leukemia. 402 16

Fifty-two cultured leukemia/lymphoma cell lines were studied for their acetylcholinesterase activity. There was a striking effect of maturity on enzyme activity, only the most mature cells showing significant activity. Mature T cells exhibited far more enzyme activity than mature B cells, paralleling results on normal T and B cells.
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PMID:Acetylcholinesterase in cultured human leukemia/lymphoma cell lines. 633 44

Two sublines of the human leukemia cell line K562 including the original cell line and three clones have been investigated for their erythroid features. All of them produce embryonic and fetal hemoglobins, glycophorin A, spectrin and true acetylcholinesterase, but to a varying extent among the cell lines. The Hb and glycophorin contents were correlated in the different K562 cell lines, whereas acetylcholinesterase was independently expressed from these two other erythroid markers. Hb accumulation is enhanced by exposure of the cells to 100 microM hemin without a significant modification of the expression of the other erythroid markers. Butyrate greatly increased the activity of acetylcholinesterase, slightly enhanced the production of hemoglobin, but did not modify the expression of glycophorin and spectrin. 12-O-tetradecanoyl-phorbol-13-acetate (TPA) induced an almost complete disappearance of glycophorin, reduced the synthesis of Hb by K562 cells and also abolished the action of hemin on Hb accumulation. Therefore, all the different K562 cell lines exhibit clear erythroid features including acetylcholinesterase. Butyrate or hemin did not induce terminal differentiation of K562 cells, whereas TPA significantly diminished the erythroid phenotype.
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PMID:Erythroid properties of K562 cells. Effect of hemin, butyrate and TPA induction. 657 18

Differentiation-dependent expression of enzyme loci was evaluated in two human leukemic cell lines, the pluripotent leukemia cell line K-562 and the promyelocytic-like cell line HL-60. Acetylcholinesterase, a marker of erythroid differentiation, was present in K-562 cells and absent in HL-60 cells. This difference between the two lines was apparently unrelated to dosage effect; other enzymes carried on trisomic chromosomes in K-562 cells did not show dosage effect. Acetylcholinesterase activity was higher in subclone K-562 (S), which shows higher expression of hemoglobin. Electrophoretic mobility of acetylcholinesterase from K-562 (S) was of fetal type.
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PMID:Expression of erythroid acetylcholinesterase in the K-562 leukemia cell line. 657 51

When irradiated with broad-band visible light in the presence of merocyanine 540 (MC540), murine leukemia L1210 cells grown under selenium-deficient conditions (Se(-) cells) accumulated lipid hydroperoxides and lost viability more rapidly than selenium-satisfied (Se(+) cells). These findings suggest that cytoprotection against photoperoxidation and photokilling is mediated at least in part by selenoperoxidase (SePX) action. Similar protection against photoinactivation of an intrinsic membrane enzyme, the Na+,K(+)-ATPase, has been observed. Thus, irradiation of MC540-sensitized Se(-) cells resulted in an immediate and progressive inactivation of ouabain-sensitive Na+,K(+)-ATPase; by contrast, activity loss in Se(+) cells was preceded by a prominent lag. Enzyme photo-inactivation in Se(-) cells was inhibited by ebselen, an SePX mimetic, confirming that SePX(s) is (are) involved in natural protection. Desferrioxamine treatment (iron sequestration/inactivation) resulted in higher hydroperoxide levels and slower Na+,K(+)-ATPase inactivation during MC540/light exposure, whereas ferric-8-hydroxyquinoline treatment (iron supplementation) had the opposite effect. Thus, iron appears to play an important role in both of these processes. In contrast, photoinactivation of another intrinsic enzyme in L1210 cells, acetylcholinesterase (AChE), was unaffected by selenium or iron manipulation. On the basis of these findings, we propose that lipid peroxidation plays an important role in the photoinactivation of Na+,K(+)-ATPase, but not AChE. This is consistent with the fact that Na+,K(+)-ATPase's active site lies within the membrane bilayer, whereas AChE's active site lies outside the bilayer.
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PMID:Cytoprotection against merocyanine 540-sensitized photoinactivation of the Na+,K(+)-adenosine triphosphatase in leukemia cells: glutathione and selenoperoxidase involvement. 801 11

To examine the role of acetylcholinesterase (EC 3.1.1.7) in hematopoietic cell proliferation and differentiation, we administered a 15-mer phosphorothioate oligonucleotide, antisense to the corresponding ACHE gene (AS-ACHE), to primary mouse bone marrow cultures. Within 2 hr of AS-ACHE addition to the culture, ACHE mRNA levels dropped by approximately 90%, as compared with those in cells treated with the "sense" oligomer, S-ACHE. Four days after AS-ACHE treatment, ACHE mRNA increased to levels 10-fold higher than in S-ACHE cultures or in fresh bone marrow. At this later time point, differential PCR display revealed significant differences between cellular mRNA transcripts in bone marrow and those in AS-ACHE- or S-ACHE-treated cultures. These oligonucleotide-triggered effects underlay considerable alterations at the cellular level: AS-ACHE but not S-ACHE increased cell counts, reflecting enhanced proliferation. In the presence of erythropoietin it also enhanced colony counts, reflecting expansion of progenitors. AS-ACHE further suppressed apoptosis-related fragmentation of cellular DNA in the progeny cells, and it diverted hematopoiesis toward production of primitive blasts and macrophages in a dose-dependent manner promoted by erythropoietin. These findings suggest that the hematopoietic role of acetylcholinesterase, anticipated to be inverse to the observed antisense effects, is to reduce proliferation of the multipotent stem cells committed to erythropoiesis and megakaryocytopoiesis and macrophage production and to promote apoptosis in their progeny. Moreover, these findings may explain the tumorigenic association of perturbations in ACHE gene expression with leukemia.
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PMID:Antisense oligonucleotide inhibition of acetylcholinesterase gene expression induces progenitor cell expansion and suppresses hematopoietic apoptosis ex vivo. 805 33

We have recently demonstrated that azidothymidine (AZT) elevates the levels of circulating platelets in mice made immune deficient by infection with LP-BM5 murine leukemia virus (MAIDS mice). In an attempt to elucidate the mechanisms of the AZT platelet elevating effect, we examined the number of splenic and bone marrow megakaryocyte colony-forming cells (CFU-mk) and the ploidy of megakaryocytes derived from CFU-mk using fluorescence cytophotometric methods. Two other dideoxynucleosides (ddN) 2'3'-dideoxyinosine (ddl) and 2'3'-dideoxycytidine (ddC) were assessed to determine the specificity of the effect of AZT. MAIDS mice were given ddN in drinking water for 15 days. AZT was the only ddN that significantly increased circulating platelet levels in MAIDS mice. AZT significantly increased splenic CFU-mk in MAIDS mice, but bone marrow CFU-mk were not affected. ddl and ddC failed to change either platelet levels or the numbers of splenic or bone marrow CFU-mk. The ploidy of megakaryocytes derived from splenic and bone marrow CFU-mk were examined by first identifying CFU-mk by staining for acetylcholinesterase, followed by nuclear staining with propidium iodide. The fluorescence of individual cells was then measured using a Perceptics image analysis system. Modal ploidy of CFU-mk megakaryocytes derived from spleen cells of AZT-treated immunodeficient mice was shifted upwards from 16N to 32N. Similarly, AZT treatment changed the modal ploidy number of colony megakaryocytes derived from bone marrows of immunodeficient mice from 16N to 32N. The ploidy distribution was also significantly shifted. ddl and ddC failed to significantly alter either modal ploidy number or distribution of megakaryocytes derived from splenic or bone marrow CFU-mk. These findings suggest that AZT may affect physiological processes that lead to platelet formation.
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PMID:Regulation of megakaryocyte colony forming cell numbers and ploidy by dideoxynucleosides in immunodeficient mice. 823 95

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