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)

To explore agents for differentiation therapy of leukemias, various combinations of cytokines and low-molecular-weight inducers were examined for differentiation-inducing activity toward three kinds of human leukemia-derived cell lines. The strongest differentiation inducing activity on promyelocytic HL60 cells and histiocytic U937 cells was obtained by combining recombinant tumor necrosis factor (rTNF), interferon-gamma (IFN-gamma), retinoic acid (RA), and 1 alpha,25-dihydroxyvitamin D3 (1 alpha,25(OH)2D3). For myeloblastic ML1 cells, the combination of rTNF, IFN-gamma, and RA had the strongest differentiation-inducing activity.
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PMID:Induction of differentiation of human leukemia cells by various combinations of cytokines and low-molecular-weight inducers. 219 88

Interleukin-1 (IL-1) has hemopoietin-1 (H-1) activity, i.e., it synergizes with macrophage-colony stimulating factor (M-CSF), granulocyte-macrophage-CSF (GM-CSF) and interleukin-3 (IL-3) in stimulating in vitro colony formation of hematopoietic progenitor cells. In this study the synergistic activity of IL-1 was investigated on IL-3 and GM-CSF induced growth of acute myeloid leukemia colony forming cells (AML-CFU) in vitro. Among 12 cases of human AML, IL-1 significantly elevated IL-3 stimulated colony numbers in eight instances and enhanced GM-CSF induced colony growth in five cases. As IL-1 is an inducer of cytokine production and since tumor necrosis factor (TNF) elevates IL-3 or GM-CSF induced proliferation of AML-CFU, we examined whether IL-1 enhanced AML-CFU growth via the induction of TNF production. Neutralizing anti-TNF-alpha antibodies significantly decreased IL-1/IL-3 or IL-1/GM-CSF stimulated colony numbers in six of seven cases studied, whereas anti-TNF-beta had no effect, indicating that endogenously produced TNF-alpha costimulated the growth of AML-CFU. Furthermore, AML blast cells stimulated by IL-1 released increased amounts of TNF-alpha (between 25 and 533 pg/ml; median 255 pg/ml) into the culture medium (TNF-alpha specific radioimmunoassay) as compared with noninduced AML cells (less than 1 to 149 pg TNF-alpha/ml; median 31 pg/ml). Thus, the effect of IL-1 on AML-CFU proliferation is not the result of direct activation of AML progenitors, but IL-1 stimulates the release of TNF-alpha by AML cells and endogenous TNF subsequently synergizes with IL-3 or GM-CSF.
Leukemia 1990 Aug
PMID:Hemopoietin-1 activity of interleukin-1 (IL-1) on acute myeloid leukemia colony-forming cells (AML-CFU) in vitro: IL-1 induces production of tumor necrosis factor-alpha which synergizes with IL-3 or granulocyte-macrophage colony-stimulating factor. 220 34

We measured blood concentrations of tumor necrosis factor (TNF), interleukin-1 beta (IL 1-beta), soluble interleukin 2 receptor (s-IL 2r), and interferon alpha (IFN alpha) in 30 patients with disseminated intravascular coagulation (DIC) and compared the results to those of 25 patients without DIC. Plasma levels of TNF, IL 1-beta, and s-IL 2r were higher in patients with DIC than in those without DIC. In one case of acute promyelocytic leukemia, plasma levels of TNF and IL-1 beta increased at the onset of DIC but decreased upon DIC improvement. These findings suggest that activation of the immune system is involved in the development of DIC. However, these concentrations were not markedly increased in patients with leukemia, although blood TNF and s-IL 2 r were markedly elevated in patients with solid cancers. Especially in patients with solid cancers, hyperactivation of the immune system may cause an increase in blood TNF and IL-1 beta and the development of DIC.
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PMID:[Elevated levels of cytokines in plasma from patients with disseminated intravascular coagulation]. 225 53

ML-1 human myeloblastic leukemia cells are induced to differentiate to monocytes by conditioned medium (CM) derived from tetradecanoylphorbol acetate (TPA)-treated ML-1 cells. Antibodies to tumor necrosis factor (TNF) inhibited the differentiation-stimulating activity of CM, indicating that this activity is due to the presence of TNF in CM. TNF added to non-conditioned medium was as effective as CM in stimulating ML-1 cell differentiation. In the presence of a low (0.12 ng/ml) concentration of TPA, TNF-induced maturation was synergistically increased and Type I macrophages were formed. With higher (1-10 ng/ml) TPA concentrations, Type II macrophages were also obtained. As the TNF/TPA concentration increased, ML-1 cell differentiation was increasingly inhibited. Mature cells derived from ML-1 cells were found to secrete TNF at concentrations ranging from less than 2 U/ml to greater than 180 U/ml, the amount depending upon the number of cells and the stage of cell maturation. These results indicate that TNF participates in the regulation of precursor cell maturation. Low concentrations of TNF produced by small numbers of mature cells stimulate differentiation, whereas high concentrations of TNF generated by elevated numbers of macrophages inhibit the maturation process, possibly in combination with other cytokines. Because TNF serves as a competence factor for ML-1 cells, (Guan X.-P., Takuma T., Hromchak R. & Bloch A. (1990) Competence and progression in cell differentiation. Proc. Am. Assoc. Cancer Res. 31, 28.), the TNF-induced stimulation of differentiation depends additionally on the action of serum-contained differentiation-specific progression factors.
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PMID:A regulatory role for tumor necrosis factor (TNF) in ML-1 human myeloblastic leukemia cell maturation. 228 Jun 8

In the present report we compare the capacity of two related cytokines, tumor necrosis factor (TNF) alpha and lymphotoxin (LT), to modulate mRNA levels of interleukin-6 (IL-6) in cells representing different stages of monocytic differentiation including the human leukemia cell lines HL 60, U 937, THP-1, MonoMac 1 and peripheral blood monocytes. We show that the capacity of TNF alpha and LT to induce IL-6 mRNA accumulation increases as monocytic differentiation proceeds with TNF alpha being more potent than LT, suggesting that alternate pathways may be used by differentiating cells to control expression of IL-6. In contrast, in monocytes which constitutively synthesize IL-6 transcripts, TNF alpha and LT treatment had opposite effects on levels of IL-6 mRNA accumulation. In these cells TNF alpha enhanced steady state levels of IL-6 transcripts due to mRNA stabilization, whereas LT shortened IL-6 mRNA half-life, most likely due to induction of a RNA destabilizer since LT-mediated downregulation of levels of IL-6 mRNA in monocytes could be prevented by inhibition of protein synthesis. Neither TNF alpha nor LT altered IL-6 mRNA accumulation by interfering with preexisting transcription factors since both TNF alpha and LT required de novo protein synthesis to exert their effects.
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PMID:Mechanisms of differential regulation of interleukin-6 mRNA accumulation by tumor necrosis factor alpha and lymphotoxin during monocytic differentiation. 968 34

Macrophages have been shown to directly influence the growth and development of mature erythroid progenitors (CFU-E) in normal and erythroleukemic mice. We examined the mechanism by which macrophages mediate their effect on in vivo erythropoiesis. As reported for whole macrophages, serum-free supernatants (SN) from normal resident peritoneal macrophages suppressed in vivo normal and conventional Friend virus (CFV)-infected CFU-E and caused clinical regression of CFV-induced leukemia in mice. Macrophage SN had no effect on the erythropoietin (EPO)-independent CFU-E characteristic of infection with the polycythemia-inducing strain of Friend virus (FVP), or progression of FVP leukemia. Using biochemical, immunologic, and functional assays, the erythrosuppressive factor in macrophage SN was identified as interleukin-1 alpha (IL-1 alpha). The in vivo erythroid suppressive effects of macrophages, macrophage SN, and IL-1 alpha were reversed by simultaneous treatment with EPO. IL-1 alpha itself had no effect on CFU-E colony formation in vitro. Pretreatment of animals with antibodies to murine tumor necrosis factor-alpha (TNF-alpha) completely abrogated the suppression of CFU-E by macrophages, macrophage SN, or human recombinant IL-1 alpha. These results suggest that macrophages regulate erythropoiesis by production of IL-1 alpha, which in turn mediates its in vivo suppressive effects on CFU-E through TNF.
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PMID:Macrophage control of normal and leukemic erythropoiesis: identification of the macrophage-derived erythroid suppressing activity as interleukin-1 and the mediator of its in vivo action as tumor necrosis factor. 235 May 78

The growth of the murine myelomonocytic leukemia tumor, WEHI-3B, has been shown to be inhibited by a two-step treatment: first, incubation for one hour with either interleukin-1 (human recombinant IL-1 alpha or tumor necrosis factor (human recombinant TNF-alpha); second, subsequent exposure to prostaglandins. Preincubation with IL-1 rendered the tumor cells more susceptible to subsequent treatment with either prostaglandin E2 or to the stable synthetic analogue of prostacyclin DC-PGI2. Preincubation with TNF-alpha rendered the tumor cells more susceptible to further treatment with PGE2 but not with DC-PGI2. Preconditioning of the tumour cells with either IL-1 alpha or TNF alpha did not affect cytostasis by subsequent culture of tumor cells in presence of either one of the cytokines. It is concluded that the interactions between macrophage cytokines and prostaglandins in enhancement of antitumor activity might imply first binding or induction of certain modifications in the tumor cells by the cytokines which render the cells more susceptible to exposure to prostaglandins.
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PMID:Macrophage cytokines render WEHI-3B tumor cells susceptible to cytostasis by prostaglandins. 238 15

The present studies demonstrate that dimethylsulfoxide (DMSO) treatment of human U-937 myelomonocytic leukemia cells is associated with induction of monocytic differentiation. The DMSO-induced U-937 monocytic phenotype was associated with 1) growth inhibition, 2) loss of clonogenic survival, 3) increases in alpha-naphthyl acetate esterase (NSE) staining, and 4) increases in cell surface expression of the monocyte marker Mac-1. DMSO treatment of U-937 cells was also associated with down-regulation of c-myc and c-myb gene expression as well as with increases in tumor necrosis factor (TNF) mRNA levels. The results further demonstrate that induction of U-937 monocytic differentiation by DMSO is accompanied by increases in phospholipase A2 activity. Moreover, this stimulation of phospholipase A2 was sensitive to dexamethasone. We therefore studied the effects of dexamethasone on DMSO-induced differentiation of U-937 cells. Although dexamethasone had no effect on growth inhibition or loss of clonogenic survival by DMSO, this glucocorticoid blocked increases in NSE staining and cell surface Mac-1 expression. Dexamethasone also had no effect on the down-regulation of c-myc and c-myb expression but blocked the reappearance of c-myb transcripts after 6 hr of DMSO treatment. Finally, dexamethasone inhibited DMSO-induced increases in TNF gene expression. Taken together, the results demonstrate that dexamethasone inhibits multiple characteristics, including the stimulation of phospholipase A2 activity, associated with DMSO-induced monocytic differentiation of U-937 cells.
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PMID:Effects of dexamethasone on induction of monocytic differentiation in human U-937 cells by dimethylsulfoxide. 240 76

Human T leukemia cell lines spontaneously release into their medium a suppressor lymphokine, T leukemia-derived suppressor lymphokine (TLSL), able to inhibit proliferation, DNA synthesis, and colony formation in a variety of malignant hemopoietic cell lines, as well as in normal myelomonocytic progenitor cells from bone marrow and peripheral blood. Titration curves indicated that the inhibitory activity in the crude supernatant preparations ranged from 10(-3)-10(-9): the supernatants from CCRF/CEM, HUT-78, and MOLT-4 cell lines were the most active, those from HPB-ALL, JM, and CCRF/HSB2 displayed an intermediate activity, and the Jurkat supernatant was the least active. Target cell lines of B cell origin (Burkitt lymphomas) were more sensitive than granulocytic, monocytic, erythroid, and T cell lines. Partial purification by ammonium sulfate precipitation and column chromatography demonstrated that TLSL is a protein with an Mr of 88,000, as determined by gel filtration. A high Mr form (greater than 300,000) was produced in serum-free medium by one of the most active producer cell lines (CCRF/CEM), and appeared to be an aggregate of the 88,000 Mr form. Neither the partially purified fractions obtained nor the crude supernatant preparations displayed antiviral activity or contained interleukin 2. Unlike lymphotoxin and tumor necrosis factor, TLSL is cytostatic: maximal inhibition of proliferation was observed 4-5 d after addition of crude supernatant to the target cells, and was not accompanied by a significant loss in cell viability. The antiproliferative capacity of TLSL was manifested both in suspension and methylcellulose cultures. Treated target cells accumulated either in the G1 or in the S phase of the cell cycle. The effect of TLSL on the target cells is irreversible: even brief (1 h) incubation of sensitive cells with TLSL resulted in inhibition of proliferation measured 5 d later. Although TLSL is produced by leukemic T cell lines, this lymphokine inhibits proliferation of normal peripheral blood T cells in response to mitogens or alloantigens: T lymphocyte activation was inhibited by all of the T cell supernatants tested. In contrast, when T cell lines were used as targets, no inhibition of proliferation was detected with two exceptions: the low producer Jurkat cell line was sensitive to all the T cell-derived supernatants, and the intermediate producer CCRF/HSB2 cell line was sensitive only to the three most active supernatants, CCRF/CEM, MOLT-4, and HUT-78. The possible significance of TLSL and its relationship with other suppressor lymphokines previously described in other systems is discussed.
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PMID:A suppressor lymphokine produced by human T leukemia cell lines. Partial characterization and spectrum of activity against normal and malignant hemopoietic cells. 241 68

Populations of interleukin 3 (IL 3)-dependent cells can be derived from mouse bone marrow that display natural cytotoxicity (NC) against Wehi-164 target cells but do not display natural killing against YAC-1 cells. These bone marrow-derived NC cells cultured up to 2 mo in IL 3 do not contain rearranged T cell receptor beta-chain genes. They appear to be mast-like cells by electron microscopy and contain heterogeneous type granules. The molecules that mediate NC appear to be contained in these granules and are preformed because protein synthesis inhibitors have no effect on the capacity of IL 3-dependent NC cells to lyse Wehi-164 target cells. In addition to the IL 3-dependent bone marrow-derived cells, the basophilic leukemia cells, RBL-1, but not P815 mastocytoma cells were found to mediate NC against Wehi-164 cells. Both bone marrow-derived NC and RBL-1 cells can lyse L929 cells in 18 hr, suggesting that the putative NC mediator may be related to lymphotoxin/tumor necrosis factor (TNF). Recombinant human TNF displayed identical properties as NC cells; both entities possessed the same target cell specificity and had similar kinetics of target cell killing. The use of polyclonal rabbit antimouse TNF antibody blocked the actions of NC cells. Thus we believe that the mediation of NC is through the actions of a TNF-like molecule.
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PMID:Morphology and lytic mechanisms of interleukin 3-dependent natural cytotoxic cells: tumor necrosis factor as a possible mediator. 242 73


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