UMLS:C0023467 - FACTA Search

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Regulatory mechanisms affecting the growth of leukemic cells are attractive targets for new treatments. The blast cells of acute myeloblastic leukemia (AML) may be considered as a lineage; a minority are stem cells capable of both self-renewal and determination followed by terminal divisions ending in proliferatively inert cells retaining blast morphology. Two cell culture methods are available for the study of blasts. The first is a clonogenic assay. Blast stem cells form colonies in methylcellulose, containing proliferatively inert blast cells, together with a small number of new progenitors. Growth factor(s) are usually required. These may be supplied by media conditioned by the continuous bladder carcinoma cell line HTB9 (HTB9-CM). The recombinant growth factors GM-CSF and G-CSF are also active, and in many instances are synergistic. Blast progenitors will also grow in suspension, provided the cell density is high and growth factors are provided. In these cultures, blast progenitors increase in number, reflecting their self-renewal capacity. Evidence is also available that specific genes may be involved in the self-renewal process. Thus, three forms of growth regulation, similar to those encoded by proto-oncogenes, can be shown to be operative in AML blast cell cultures.
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PMID:Genetically determined regulators acting on the blast cells of acute myeloblastic leukemia. 282 86

gamma-Interferon (IFN-gamma) has previously been found to induce monocytic differentiation in established leukemic cell lines, such as HL-60 and U937. The aim of the present study was to evaluate the differentiative effect of highly purified recombinant (r)IFN-gamma on fresh bone marrow cells from patients with acute nonlymphocytic leukemia (n = 11) or myelodysplastic syndromes (n = 3). Blast cells were cultured in suspension in the presence or absence of rIFN-gamma (10-10(3) U/ml). While 6 out of 14 cases were unresponsive to rIFN-gamma in vitro, the remaining 8 patients showed a significant increase (0.05 greater than p greater than 0.001) in the percentage of cells expressing C3bi receptors, detected by OKM1 (median value in control cell, 9.5; median value in rIFN-gamma-treated cells, 31) and Mo1 (8.5 vs. 36), and in the percentage of cells expressing the monocytic antigens detected by Mo2 (8 vs. 28) and MY4 (6.5 vs. 32.5). In the responsive patients morphologic changes consistent with monocytic maturation, as well as a strong increase of alpha-naphthyl acetate esterase activity and of nitroblue tetrazolium reducing capability were observed upon culture with rIFN-gamma. We conclude that (a) rIFN-gamma may induce in vitro monocytic differentiation of blasts from acute nonlymphocytic leukemia and myelodysplastic syndrome patients, and that (b) this agent should be investigated for its capacity to be active in vivo.
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PMID:Recombinant gamma-interferon induces in vitro monocytic differentiation of blast cells from patients with acute nonlymphocytic leukemia and myelodysplastic syndromes. 312 8

Blast cells from 100 cases of acute leukemia were evaluated for the presence of methylthioadenosine phosphorylase (MTAase), an enzyme important in polyamine metabolism. Ten cases (10%) had undetectable levels of MTAase activity. Of the 10, 5 had acute lymphoblastic leukemia (ALL), 3 had acute myeloblastic leukemia (AML) and 2 expressed mixed lineage markers as determined by immunophenotyping. A relatively high frequency (38%) of MTAase deficiency was seen in ALL of T-cell origin. Nonmalignant hematopoietic cells from three patients with MTAase-deficient leukemias had readily detectable enzyme activity. Chromosomal abnormalities were detected in four of the seven MTAase-deficient cases in which karyotypic analysis was performed. No consistent karyotypic defect was apparent, and only one case displayed changes in chromosome 9, the putative location of the MTAase structural gene. The clinical findings among the enzyme-deficient cases were unremarkable except that all patients were male (P less than .01). Only one patient had "lymphomatous" features. We conclude that MTAase deficiency occurs in a wide variety of acute leukemias, that the lack of enzyme activity is specific to the malignant cells, and that an increased incidence occurs in ALL of T-cell origin. Furthermore, no specific gross chromosomal abnormality is associated with the enzyme deficiency. The marked male predominance in patients with MTAase-deficient acute leukemias suggests involvement of the X chromosome in the loss of enzyme activity. The absence of MTAase in some leukemias may be therapeutically exploitable.
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PMID:Methylthioadenosine phosphorylase deficiency in acute leukemia: pathologic, cytogenetic, and clinical features. 313 Sep 4

The modulation of growth of normal and leukemic myeloid progenitor cells in soft agar cultures by recombinant human tumor necrosis factor-alpha (TNF alpha) and recombinant human interferon-gamma (IFN gamma) was investigated. TNF alpha inhibited colony formation of all colony types representing different maturational stages of normal progenitor cells committed to the myeloid lineage with different orders of sensitivity. Blast-type colonies derived from patients with acute myelogenous leukemia were more sensitive to TNF alpha inhibition than progenitor cells purified from normal bone marrow or bone marrow from patients with stable-phase chronic myelogenous leukemia. The response of most colony types to IFN gamma was poor. However, when IFN gamma was administered together with TNF alpha, synergistically enhanced antiproliferative effects were detected in all colony types tested. The antiproliferative action of IFN gamma on myelopoiesis was enhanced in culture by the presence of autologous monocytes, presumedly by inducing endogenous production of TNF alpha. However, TNF alpha seemed to act directly on the progenitor cells themselves to suppress their clonal growth, rather than involving accessory marrow elements such as monocytes and/or T lymphocytes.
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PMID:The suppressive effects of recombinant human tumor necrosis factor-alpha on normal and malignant myelopoiesis: synergism with interferon-gamma. 313 11

Phorbol ester, 12-0-Tetradecanoyl-13-Phorbol-Acetate (TPA), induces a terminal macrophage-like differentiation of cells from human acute myelogenous leukemia cell lines. We report here that blastoid cells obtained from acute nonlymphocytic leukemia (M1-M2) undergo differentiation-related changes characteristic of macrophage lineage after exposure to TPA. Blast cells from a patient with ANLL-M1-M2 underwent morphological, functional and histochemical changes after treatment with 1 x 10(-7) and 1 x 10(-8) M TPA. The changes included adhesion to the plastic substrate, 2-4 fold increase in the number of NBT positive cells and an increase in the number of alpha-naphthyl-acetate esterase (alpha-NAE) positive cells. These differentiation changes after treatment with TPA were followed by decrease in proliferative index and G1 cells containing high RNA as estimated by flow cytometry. Of the thirteen cases of undifferentiated or unclassified leukemias studied, two failed to respond to TPA. These data suggest that leukemic blasts retain their ability to express a variety of differentiated functions on induction by TPA. Our data gives evidence suggesting that the "switch" into the differentiation pathways occurred after inhibition of proliferation and reduction in the percentage of G1 high RNA containing cells.
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PMID:Terminal differentiation of human leukemic blasts in response to 12-0-tetradecanoyl-13-phorbol acetate (TPA). 321 70

Blast progenitors in acute myeloblastic leukemia (AML) grow in methylcellulose and suspension cultures. Blast colony formation in methylcellulose culture reflects the terminal divisions of blast progenitors, while secondary colony formation, by replating in methylcellulose and recovering clonogenic cells in suspension culture, reflects the self-renewal of blast progenitors. To analyze the regulatory mechanisms of the proliferation of leukemic blast progenitors, the effects of highly purified native granulocyte colony-stimulating factor (G-CSF) obtained from human squamous cell carcinoma line (CHU-2) on blast progenitors in AML patients were studied in methylcellulose and suspension cultures. Purified G-CSF stimulated the growth of blast progenitors in both culture systems, although sensitivity to G-CSF varied from patient to patient. No obvious maturation of leukemic blasts was noted in suspension culture in the presence of G-CSF. The data suggest that a normal hemopoietic regulator may play a role in the growth of blast progenitors in AML patients.
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PMID:Effects of purified human native granulocyte colony-stimulating factor (G-CSF) on proliferation of blast progenitors in acute myeloblastic leukemia. 325 47

The effects of two recombinant human CSFs (G-CSF and GM-CSF) on the growth of blast progenitors from 36 acute myeloblastic leukemia patients were studied in methylcellulose and suspension cultures. Blast colony formation in methylcellulose and the growth of blast progenitors in suspension were stimulated by G-CSF or GM-CSF. Their responses to CSFs were different from those of normal myeloid progenitors. First, the sensitivity of blasts to 0.01 ng/ml of G-CSF and 0.001 ng/ml of GM-CSF was significantly increased compared with normal. Second, in more than 70% of patients, the pattern of the responsiveness to the two CSFs was aberrant compared with ordered response in normal subjects. Third, in about half of the patients, combination of G-CSF and GM-CSF showed synergism for the growth of blast progenitors in both culture methods, whereas negligible or no synergism was observed in normal subjects. Finally, when stimulated by G-CSF, GM-CSF, or both, a significant relationship was noted between blast colony formation in methylcellulose and blast progenitor growth in suspension, suggesting that CSFs do not affect the balance between self-renewal and terminal divisions of blast stem cells.
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PMID:Effects of recombinant G-CSF and GM-CSF on the growth in methylcellulose and suspension of the blast cells in acute myeloblastic leukemia. 326

Blast cell populations of forty nine individuals with acute myeloblastic leukemia (AML) were investigated for constitutive expression of genes for various hematopoietic growth factors. Fifteen samples constitutively exhibited messenger (m) RNA for colony stimulating factor for granulocytes (G-CSF). Eleven AML specimens produced mRNA specific for CSF for granulocyte and macrophages (GM-CSF). When probed for CSF for macrophages (M-CSF or CSF-1) specific hybridization signals became detectable in six samples. Five out of six blast cell populations transcribing M-CSF, synthesized G-, and GM-CSF mRNA's simultaneously, whereas another five leukemias transcribed G-, and GM-CSF genes exclusively. Furthermore, when specific bioassays were performed to detect secretion of biologically active CSF proteins by these leukemic blast samples, twelve out of fifteen G-CSF mRNA producing cell populations, eight out of eleven GM-CSF mRNA producing cell populations and one out of six M-CSF mRNA synthesizing samples, demonstrated release of the respective, functionally active CSF's into their culture supernatants. Our results show that gene transcription and protein secretion of hematopoietic growth factors are features that are frequently detected in leukemic myeloid blast cells and involve G-, GM-, and M-CSF. With respect to recent findings of receptiveness of leukemic colony forming cells (L-CFC) for proliferative stimuli provided by various hematopoietic growth factors, our findings point out a potential role of autocrineously produced CSF's in the pathophysiology of autonomous proliferation in AML.
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PMID:Constitutive expression of hematopoietic growth factor genes by acute myeloblastic leukemia cells. 326 64

Twelve pediatric patients with nonlymphocytic leukemia were treated for 10 days with high-dose (15, 20, or 30 million U/m2/day) human lymphoblastoid interferon (Wellferon) administered by continuous iv infusion. Nine children had acute nonlymphocytic leukemia (ANLL) in relapse, two had Philadelphia chromosome-positive chronic myelocytic leukemia in myeloblastic crisis, and one had juvenile chronic myelocytic leukemia. Blast cell counts in the peripheral blood decreased in five patients with ANLL treated with the higher interferon doses; however, there was no evidence of an antileukemic effect in the marrow. Dose-limiting toxicity, which included malaise, hepatotoxicity, and coagulation abnormalities, was observed in patients given 20 or 30 million U/m2/day. Studies of the growth of leukemic progenitor cells in vitro in the presence of interferon disclosed a concentration-related inhibition of colony formation. Patients who had a decrease in peripheral blast cell counts demonstrated greater in vitro inhibition of clonogenic leukemic progenitors than patients whose blast cell counts did not decrease. However, the serum interferon concentrations in patients given clinically tolerable doses were lower than those concentrations which inhibited leukemic cell growth in vitro by a median of 42% (1000 U/ml). This study failed to demonstrate clinically significant antileukemic activity against nonlymphocytic leukemia in patients given high-dose constant-infusion interferon, and the toxicity of this approach was prohibitive.
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PMID:Phase I-II study of continuous-infusion high-dose human lymphoblastoid interferon and the in vitro sensitivity of leukemic progenitors in nonlymphocytic leukemia. 345 33

Marrow hematopoiesis was examined in two infants with erythroleukemia (EL) using cell culture colony assays. At diagnosis, marrow from both yielded normal to increased numbers of granulocytic colonies (CFU-C), erythroid bursts (BFU-E), and mixed colonies (CFU-GEMM), which contrasted sharply with the reduced growth in eight other newly diagnosed patients with acute leukemia. BFU-E proliferation and hemoglobinization proceeded normally in culture and was entirely erythropoietin-dependent. CFU-C colony cellular composition showed normal granulopoiesis in various stages of development. Despite low numbers of morphologically recognizable blasts in the aspirates, they were readily identified in a blast colony assay because of their high plating efficiency and high index of self-renewal on replating. Blast cells in all cultures had myeloblastic morphology, were peroxidase positive, and expressed the granulocytic-specific My-1 antigen. Monosomy 7 was seen in fresh and cultured blast cells but not in lymphocytes, indicating a clonal proliferation. After chemotherapy-induced remission, blast colonies and monosomy 7 could no longer be detected. It appears that the integrity and function of the normal hematopoietic progenitor pool were preserved in these patients with EL. The abnormal myeloblastic proliferation was expressed actively in colony assays and was useful diagnostically in these cases because marrow morphology was nondiagnostic. In these patients, EL seems to be a misnomer since the findings are suggestive of acute myeloblastic leukemia with secondary erythroid and granulocytic hyperplasia.
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PMID:Childhood erythroleukemia. Studies on pathogenesis using colony assays. 345 76

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