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)

Several inhibitors of IL-1 have been described. Four appear to be the same: one purified from urine of patients with monocytic leukemia, another from IgG-stimulated monocytes, a third from PMA-induced U937 cels, and a fourth from keratinocytes. Because these IL-1 inhibitors compete with bona fide IL-1 for occupancy of IL-1 receptors, they are now called the IL-1 receptor antagonist (IL-1ra) or IL-1 receptor antagonist protein (IRAP). We have described another IL-1-specific inhibitor produced by the human myelomonocytic leukemia cell line, M20. This inhibitor specifically blocks IL-1-induced effects both in vitro and in vivo. In the present study, we compared the M20 IL-1 inhibitor with IL-1ra using neutralization in an IL-1 bioassay and immunoblotting with an anti-IL-1ra antibody that recognizes natural IL-1ra. Neutralization experiments, immunoblotting, and western blotting obtained after transfer from SDS-PAGE revealed that anti-IL-1ra does not recognize the M20 IL-1 inhibitor. In addition, the isoelectric point and molecular weight of the M20 IL-1 inhibitor were different from those of the IL-1ra. From these data, we conclude that the M20 IL-1 inhibitor is antigenically unrelated to the IL-1ra but is a distinct and specific IL-1 inhibitor.
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PMID:The specific IL-1 inhibitor from the human M20 cell line is distinct from the IL-1 receptor antagonist. 183 5

P48 is a recently described 48-kDa differentiation-inducing cytokine isolated from the culture medium of the human leukemia line Reh. P48 induces differentiation and cytolytic activity in the promyelocytic cell line HL-60, and stimulates the release of TNF-alpha and IL-1 from peripheral blood monocytes. In further studies designed to examine the biosynthesis and function of P48, surface immunofluorescence flow cytometry analysis as well as 125I surface labeling and immunoprecipitation, revealed the presence of P48 on the surface of Reh cells. Triton X-114-treated Reh cells were partitioned into detergent and aqueous phases and separated by SDS-PAGE. Western blot analysis revealed that P48 partitioned exclusively into the detergent phase, suggesting an integral membrane association. Reh cells fixed with paraformaldehyde, but not K562 or P815, were able to stimulate the release of TNF-alpha from peripheral blood monocytes in a manner similar to that of secreted P48. Isolated plasma membranes from Reh cells could also stimulate TNF-alpha release. This TNF-alpha-releasing activity could be removed from detergent solubilized Reh membranes by immunoaffinity chromatography on an anti-P48 column. This study suggests that, in addition to being secreted into the culture medium, P48 is expressed on the surface of Reh cells in a biologically active form. The membrane form of P48 may be 1) a final maturation step before secretion or 2) a cell membrane-associated form that may be analogous to the membrane forms of TNF-alpha and IL-1.
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PMID:Differentiation-inducing cytokine P48 exists in a membrane-associated form. 186 Oct 78

Using colony assays in semi-solid media, several investigators have shown that supernatants (SN) of normal and malignant human B-cells can stimulate the growth of granulocyte-macrophage (GM) progenitor cells. So far macrophage colony-stimulating factor (M-CSF) and interleukin-6 (IL-6) have been identified as potential colony-stimulating activity (CSA) present in B-cell SN. However, other CSAs such as GM-CSF, G-CSF, IL-1-beta, IL-3, and IL-4 may also be candidates in this respect. Several human B-cell lines (CL) were screened for the expression of the respective genes at the mRNA and protein level. Constitutive production of GM-CSF was detected in the lymphoblastoid CL Wi-L2-729-HF2 and in the Burkitt line Raji. The signal intensity of specific transcripts and the amount of protein being secreted increased upon exposure to the phorbol ester PMA. The hybridoma line HB-564 also expressed the GM-CSF gene, but required prior stimulation with PMA. 3H-thymidine incorporation of Raji and Wi-L2-729-HF2 cells was unchanged in the presence or absence of a specific neutralizing sheep anti-GM-CSF serum, suggesting that GM-CSF did not serve as an extracellular autocrine growth factor. The expression of the GM-CSF gene was independent of the proliferative state (log phase growth versus plateau phase growth) and of the presence of serum in cultures of the respective CL. The expression of G-CSF, IL-1-beta, IL-3, and IL-4 genes was not detectable in the CL at the mRNA level.
Leukemia 1991 Aug
PMID:Screening for expression of cytokines with hematopoietic growth factor activity by permanent human B-cell lines. 188 24

To clarify the role of cytokines in cerebrospinal fluid (CSF) in the pathogenesis of central nervous system (CNS) leukemia, three cytokine activities, interleukin 1 (IL-1)-beta, tumor necrosis factor (TNF)-alpha, and interferon (IFN)-gamma, and their correlations with other laboratory studies of the CSF were analysed in 23 children with acute leukemia. These patients were classified into three groups: group A (n = 8)--patients with overt CNS leukemia, group B (n = 5)--patients with CNS leukemia in remission, group C (n = 10)--patients without CNS disease. IFN-gamma in the CSF was undetectable in these 23 patients. There was no difference in IL-1-beta levels among the three groups. However, TNF-alpha levels were significantly higher in group A than in group B, and higher in group B than in group C. By Kendall's rank sum test, high TNF levels in CSF correlated with high CSF leukemic cell counts and low sugar levels. In two patients with overt CNS leukemia, the TNF level in the CSF decreased gradually with intrathecal chemotherapy. These results indicate that TNF released from stimulated cells in the cerebrospinal space may induce CNS leukemia-related symptoms or alter laboratory parameters measured in the CSF. TNF levels in CSF may also prove useful in diagnosing early CNS involvement in children with acute leukemia.
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PMID:Tumor necrosis factor in the cerebrospinal fluid of children with central nervous system leukemia. 190 28

A protein variously termed leukemia inhibitory factor (LIF), differentiation-inducing factor, differentiation inhibitory activity or human interleukin for DA cells can control the differentiation and proliferation of hematopoietic cells as well as of several other cellular lineages. In order to further elucidate the spectrum of LIF-producing cells, we examined different cell types for the expression of LIF mRNA using Northern blot analysis. LIF mRNA was detected in activated normal human T-cells and in two T-cell lines but was undetectable in a B-lymphoid cell line, in both resting and activated normal human granulocytes and monocytes and in human myeloid cell lines K562 and HL-60. In human lung fibroblasts and in human umbilical vein endothelial cells, LIF was constitutively expressed and its accumulation was increased in a time-dependent manner following treatment with the phorbol ester TPA and in the presence of the two immediate response cytokines tumor necrosis factor (TNF)-alpha and interleukin (IL)-1-beta. We conclude that mRNA for LIF is not only expressed by T-cells but also in human mesenchymal cells. Expression of LIF transcripts in these cells is constitutive and can be significantly enhanced by phorbol ester, TNF-alpha and IL-1-beta.
Leukemia 1991 May
PMID:Expression of leukemia inhibitory factor is regulated in human mesenchymal cells. 190 79

Coordinate production of interleukin-1 beta (IL-1 beta) and granulocyte macrophage-colony stimulating factor (GM-CSF) or IL-6 by the blast cells of acute myeloblastic leukemia (AML) and normal peripheral blood leukocytes have been previously reported (van der Shoot et al.: Blood 74:2081-2087, 1989; Bradbury et al.: Leukemia 4:44-47 1990a, British Journal of Haematology 16:(in press), 1990b; Rodriguez-Cimadevilla et al.: Blood 76:1481-1489, 1990; Schindler et al.: Blood 75:40-47, 1990). In the present study, we show that IL-6 production by AML blasts is up-regulated by endogenously produced IL-1 beta. Neutralization of the endogenous source of IL-1 results in a significant decrease in IL-6 production, as determined by ELISA. Conversely, exposure of AML blasts to IL-1 alpha results in a significant increase in IL-6 production in 10 of 16 patient samples. Antibodies against IL-1 alpha and -beta also cause a drastic decrease in IL-6 and GM-CSF gene expression by the cells, suggesting that cytokine gene expression in AML blasts is driven, at least in part, by endogenous IL-1. The biologic significance of IL-6 production in culture of AML blasts has been addressed using a neutralizing antibody against IL-6. Our data indicate that IL-6 is important for the survival of clonogenic blasts in culture. In contrast, the survival of the total population of blasts is IL-6-independent, as assessed by the integrity of cellular DNA, even in the presence of anti-IL-6. These observations are consistent with the view that AML blasts might be organized as a lineage, with comparable hierarchy as in normal hemopoiesis and, perhaps, increased heterogeneity despite a homogenous appearance (McCulloch and Till: Blood Cells 7:63-77, 1981; Buick and McCulloch: Control of Animal Cell Proliferation. Academic Press, New York, vol. 1, pp. 25-57, 1985). Buick and McCulloch have identified a subpopulation of AML clonogenic cells with stem-cell-like properties, and suggested that the majority of blasts may have undergone a determination-like step. Our data indicate a marked difference in IL-6 requirement for cell survival between precursors and the majority of blasts, suggesting that IL-6 responsiveness may decrease following a determination-like event, i.e., the reduction in proliferative capacity.
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PMID:Interleukin-6 production by the blast cells of acute myeloblastic leukemia: regulation by endogenous interleukin-1 and biological implications. 191 69

Mometasone furoate (9 alpha, 21 dichloro-11 beta, 17 alpha dihydroxy-16 alpha methyl-1,4 pregnadiene-3, 20 dione-17-[2'] furoate) was an unexpectedly potent inhibitor of the in vitro production of three inflammatory cytokines, IL-1(1), IL-6, and TNF-alpha. The potency of mometasone furoate in inhibiting cytokine production was compared to that of hydrocortisone, betamethasone, dexamethasone, and beclomethasone. IL-6 and TNF-alpha were both produced by WEHI-265.1 (murine myelomonocytic leukemia) cells following stimulation by lipopolysaccharide (LPS). Twenty-four hours after stimulation by LPS, the cell-free supernatant fluids were removed. Their cytokine content was analyzed using ELISAs specific for each cytokine. IL-1 synthesis was induced in the harvested peritoneal macrophages of BALB/c mice by incubation with LPS for twenty-four hours. The IL-1 content in the cell-free supernatant fluids was determined by the thymocyte-costimulator bioassay. Using these systems, mometasone furoate was found to be the most potent steroid tested for inhibiting the production of the three cytokines. The IC50's were 0.05 nM (IL-1), 0.15 nM (IL-6), and 0.25 nM (TNF-alpha). The inhibition of the production of proinflammatory mediators by extremely low concentrations of mometasone furoate suggests that this steroid should be highly effective in various disorders.
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PMID:Cytokine inhibition by a novel steroid, mometasone furoate. 194 49

Tumor necrosis factor alpha (TNF-alpha) has been previously shown to modulate the expression of hematopoietic growth factor genes in monocytes and other mesenchymal cells. As acute myeloblastic leukemia (AML) blasts can express and produce hematopoietic growth factors, the influence of TNF-alpha on the accumulation of mRNAs for c-myc, interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF), G-CSF, IL-6 and IL-1 beta was evaluated in fresh blasts from 13 patients with AML. Total cellular RNA was extracted from blast cells cultured for 24 hours with or without TNF-alpha (500 U/ml). The c-myc transcript level was decreased by TNF-alpha treatment in 9/13 cases, and increased in only one case. Among the growth factor genes, the GM-CSF gene was more often and consistently influenced by TNF-alpha, increased levels of its transcript being observed in 6/13 cases following treatment with the cytokine; in no case was there a reduction of GM-CSF mRNA. G-CSF and IL-6 transcripts were more heterogeneously influenced, whereas the IL-3 transcript was never detected in our AML samples. The IL-1 beta message was present in 8/13 untreated and in 13/13 TNF-alpha treated samples. Moreover, in untreated cells, GM-CSF, G-CSF and IL-6 expression was always associated with IL-beta expression. These findings indicate that TNF-alpha can modulate the levels of growth factor transcripts in AML blasts, and raise questions about the effects of TNF-alpha on leukemic hematopoiesis, considering that TNF-alpha, IL-1 and GM-CSF can synergistically stimulate the growth of AML clonogenic cells.
Leukemia 1991 Oct
PMID:Tumor necrosis factor alpha modulates the messenger RNA expression of hematopoietic growth factor genes in fresh blast cells from patients with acute myeloblastic leukemia. 196 Oct 22

The histological features of biopsies from 18 previously unreported cases of Sweet's syndrome are reported. The dermal infiltrate in the majority of the cases contained numerous histiocytes that at first sight appeared to mimic neutrophils. The immunophenotype of these histiocytes was consistent with monocytes that have freshly infiltrated into the lesions. Only two of the cases in this series, associated with leukaemia, displayed the histological features of Sweet's syndrome with a predominant neutrophilic infiltration. We suggest that the initiating mechanisms in Sweet's syndrome are that monocyte/histiocyte-derived cytokines such as the interleukins IL-1 and IL-8, secreted either by infiltrating histiocytes in the non-leukaemia-associated cases of Sweet's syndrome or by tumoural myelomonocytic cells in those associated with leukaemia, are responsible for the systemic manifestations and the infiltration with neutrophils in the skin lesions.
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PMID:Histiocytes in Sweet's syndrome. 153 89

ATL (adult T-cell leukemia) is the first human cancer known to be caused by a retrovirus. ATL cells show usually positive for CD2, CD3, CD4, CD25 and HLA-DR, but negative for CD8. They produce a variety of cytokines, including IL-1, IL-2, TNF, ADF and PTHrP. PTHrP is considered to be responsible for hypercalcemia which is frequently observed in ATL. Recently, we reported two unusual cases of HTLV-I associated malignancy; 1) a case of CD4 and 8 double negative tumor affecting mainly gastrointestinal tract and 2) a case mimicking small cell lung cancer. IL-2-toxin, a conjugate of IL-2 and diphtheria toxin, has been prepared as a recombinant product and evaluated for the suppressive effect to ATL cells. Clinical trail of IL-2-toxin is now anticipated.
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PMID:[Biomolecular aspects of adult T-cell leukemia]. 205 70

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