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: UNIPROT:P05231 (interleukin-6)
23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human T cell hybridomas were constructed by somatic cell fusion in order to dissect molecular heterogeneity of human macrophage activating-factors (MAF). Two stable human hybridoma supernatants contained MAF activity capable of inducing human monocytes tumoricidal without the help of bacterial lipopolysaccharide (LPS). These supernatants in the presence of LPS could also render mouse macrophages tumoricidal. In contrast, recombinant and natural human interferon-gamma (Hu-IFN-gamma) activated human monocytes, but not mouse peritoneal macrophages. The supernatants from the two clones could neither support the growth of human-granulocyte-macrophage colony stimulating factor/human-interleukin-4-dependent (Hu-GM-CSF/Hu-IL-4) cell lines, such as AML 193 and TALL-101, nor stimulate the proliferation of human-interleukin-2-dependent human cell line and lectin-stimulated lymphoblast, which are responsive to human-interleukin-2 and human-interleukin-4. Rabbit or murine antibodies against human-interferon-gamma (Hu-IFN), human-granulocyte-macrophage colony stimulating factor, human interleukin-1 alpha, human-interleukin-1 beta, human-interleukin-6, human-tumour necrosis factor (Hu-TNF), human-lymphotoxin and human-macrophage migration inhibitory factor (Hu-MIF) could not absorb MAF activity. MAF activity in the hybridoma supernatants is associated with the two polypeptides of molecular weights of 70,000-80,000 and 20,000-30,000 daltons, as determined by gel filtration. These results indicate decisively that novel MAF molecule(s) is secreted by human T cell hybridomas.
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PMID:Constitutive production of novel macrophage-activating factor(s) by human T cell hybridomas. 212 37

30 patients with chemotherapy-related leukopenia (white cells 1.0 x 10(9)/l or lower) and fever (temperature 38.5 degrees C or higher) were treated in a double-blind randomised trial with standard antibiotics and 7 days of intravenously administered recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF, 2.8 micrograms/kg per day) or placebo. GM-CSF administration resulted in a faster percentage increase of peripheral neutrophil count after 2 and 3 days of treatment, except in patients treated with ablative chemotherapy and autologous bone-marrow transplantation. However, GM-CSF did not shorten the period of fever or antibiotic administration. No side-effects were observed; in particular tumour necrosis factor alpha and interleukin-6 did not increase in the 5 GM-CSF patients tested. These data suggest that a subgroup of patients with chemotherapy-related leukopenia and fever may benefit from GM-CSF treatment in view of the observed effects on neutrophil count.
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PMID:Efficacy and tolerability of recombinant human granulocyte-macrophage colony-stimulating factor in patients with chemotherapy-related leukopenia and fever. 214 17

Treatment of the AML-193 leukemic cell line with phorbol myristate acetate (PMA) resulted in the loss of their ability to proliferate in response to GM-CSF or IL-3. This was not due to a change in number or affinity of GM-CSF receptors, but possibly resulted from an other cellular mechanism. The AML-193 differentiated cells acquired the ability to phagocytose glutaraldehyde-fixed E.coli in a similar fashion to mature macrophages. In addition the PMA-differentiated AML-193 cells now secreted a factor which specifically inhibited the binding of interleukin-1 (IL-1) to its receptor on the murine thymoma cell line EL-4.6.1C10. The synthesis of this inhibitor was further increased by the addition of GM-CSF or IL-3. Pulse labelling experiments showed that this activity was due to a 26 kDa protein that bound to the IL-1 receptor even in the presence of neutralizing antibodies against IL-1 alpha or IL-1 beta, and this binding was only antagonized by IL-1 alpha or IL-1 beta. In contrast, peripheral monocytes obtained from the blood of normal donors, when induced with either GM-CSF or IL-3, produced large quantities of inhibitor in the absence of PMA. This report clearly shows that a leukaemic cell line can respond to GM-CSF and IL-3 in different ways before and after in vitro differentiation.
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PMID:Granulocyte-macrophage colony stimulating factor and interleukin-3 regulate the production of an interleukin-1 inhibitor by the differentiated AML-193 leukemic cell line. 215 93

Human granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-3 (IL-3) exert multiple effects on the proliferation, differentiation, and function of myeloid lineage cells through their interaction with specific cell-surface receptors. There is a considerable degree of overlap in the biological effects of these two growth factors, but little is known about the mechanisms of postreceptor signal transduction. We have investigated the effects of GM-CSF and IL-3 on protein tyrosine-kinase activity in a human cell line, MO7E, which proliferates in response to either factor. Tyrosine-kinase activity was detected using immunoblotting with a monoclonal antibody (MoAb) specific for phosphotyrosine. GM-CSF and IL-3 were found to induce a nearly identical pattern of protein tyrosine phosphorylation using both one- and two-dimensional gel electrophoresis. Tyrosine phosphorylation of two cytosolic proteins in particular was increased more than 10-fold, a 93-Kd protein (pp93) and a 70-Kd protein (pp70). Tyrosine phosphorylation of pp93 and pp70 was observed within 1 minute, reached a maximum at 5 to 15 minutes, and gradually decreased thereafter. Other proteins of 150, 125, 63, 55, 42, and 36 Kd were also phosphorylated on tyrosine in response to both GM-CSF and IL-3, although to a lesser degree. Tyrosine phosphorylation was dependent on the concentration of GM-CSF over the range of 0.1 to 10 ng/mL and on IL-3 over the range of 1 to 30 ng/mL. Stimulation of MO7E cells with 12-0-tetradecanoyl-phorbol-13-acetate (TPA) or cytokines such as G-CSF, M-CSF, interleukin-1 (IL-1), interleukin-4 (IL-4), interleukin-6 (IL-6), interferon gamma, tumor necrosis factor (TNF), or transforming growth factor-beta (TGF-beta) did not induce tyrosine phosphorylation of pp93 or pp70, suggesting that these two phosphoproteins are specific for GM-CSF-or IL-3-induced activation. The extent and duration of phosphorylation of all the substrates were increased by pretreatment of cells with vanadate, an inhibitor of protein-tyrosine phosphatases. Importantly, culture of MO7E cells with vanadate (up to 10 mumol/L) resulted in a dose-dependent increase in GM-CSF-or IL-3-induced proliferation of up to 1.8-fold. These results suggest that tyrosine phosphorylation may be important for GM-CSF and IL-3 receptor-mediated signal transduction and that cell proliferation may be, at least partially, regulated by a balance between CSF-induced protein-tyrosine kinase activity and protein-tyrosine phosphatase activity.
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PMID:Signal transduction of the human granulocyte-macrophage colony-stimulating factor and interleukin-3 receptors involves tyrosine phosphorylation of a common set of cytoplasmic proteins. 216 6

Our earlier study reported the ability of interleukin 1 (IL1) to promote proliferation and to induce morphological changes of human thymic epithelial cells (TEC) in culture. The present study was undertaken to examine the effects of IL1 on the secretory function of TEC. Both human recombinant IL1 alpha and IL1 beta induced TEC to produce molecules in the culture supernatant fluids (TES) which displayed marked thymocyte proliferative capacities. This activity was specifically induced by IL1 since other TEC growth factors such as epidermal growth factor and a bovine pituitary extract had no effect on promoting secretion of T cell-activating molecules by TEC. Using specific radioimmunoassays for both forms of IL1, we found that unstimulated TEC produced negligible amounts of IL1 alpha and IL1 beta in TES, which were not increased by IL1 stimulation, and we concluded that the IL1-induced TES molecules were not IL1. IL1 induced TEC to produce IL6, as detected by the hybridoma growth factor biological activity. Neutralizing anti-IL6 antibodies completely blocked the thymocyte activating capacities of the IL1-induced TES thus implying a major role for IL6 in TEC-derived T cell activation. IL1 also induced TEC to produce GM-CSF as measured by bioassay and confirmed by an immunoenzymetric assay. Our results confirm that TEC are a source of cytokines and show that TEC respond to IL1 by producing cytokines with consequences on the thymic lymphoid population. This further emphasizes the importance and complexity of paracrine molecular interactions involved in intrathymic development.
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PMID:Effects of cytokines on human thymic epithelial cells in culture. II. Recombinant IL 1 stimulates thymic epithelial cells to produce IL6 and GM-CSF. 219 77

To investigate possible mechanisms of growth factor expression in acute myeloid leukemia, genes for granulocyte macrophage colony-stimulating factor (GM-CSF) were analyzed by Southern blots in 20 patients, for M-CSF in 13, for interleukin-6 (IL-6) in 14, for IL-6 receptor in 14 and for G-CSF in five patients. Only in one patient a complex rearrangement of the G-CSF gene with possible amplification was noted indicating rarity of direct alterations of growth factor genes in acute myelogenous leukemia (AML). Spontaneous m-RNA expression for GM-CSF was found in only one of 20 patients, and for IL-6 in eight of 11 patients. In vitro incubation of AML cells of eight patients with recombinant tumor necrosis factor for 24 hr revealed induction of GM-CSF m-RNA expression in three cases and GM-CSF protein expression in two of them. These data suggest that spontaneous GM-CSF production occurs rarely in AML and that monokines, such as tumor necrosis factor, may induce GM-CSF in AML cells. Therefore, interactions of AML cells with normal or malignant accessory cells may be important for autocrine stimulation in AML. Our data suggest that ectopic growth factor secretion is not the primary cause of generating AML but may contribute to progression of the disease. Alternatively, AML may represent a heterogenous group of leukemias with different etiology but similar phenotype.
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PMID:Mechanisms of growth factor expression in acute myeloid leukemia (AML). 219 15

The viability of normal bone marrow myeloid precursor cells induced by interleukin-6 (IL-6) or IL-1 alpha and the ability of IL-6 and IL-1 alpha to induce the formation of colonies of granulocytes, macrophages, or megakaryocytes in densely seeded bone marrow cultures was suppressed by transforming growth factor-beta 1 (TGF-beta 1). Induction of normal bone marrow colony formation by IL-3 was much less sensitive to TGF-beta 1, and there was little or no effect of TGF-beta 1 on colony formation induced by macrophage colony-stimulating factor (M-CSF) or granulocyte-macrophage CSF (GM-CSF). In different clones of myeloid leukemic cells, TGF-beta 1 suppressed differentiation induced with IL-6, IL-1 alpha, or lipopolysaccharide (LPS), but did not suppress differentiation induced with IL-3 or GM-CSF. The effect of TGF-beta 1 on differentiation of the leukemic cells can be dissociated from its effect on cell growth. TGF-beta 1 suppressed the production of IL-6 in normal bone marrow cells cultured with IL-1 alpha and the production of IL-6 and GM-CSF in leukemic cells cultured with IL-1 alpha or LPS. The suppression of IL-6 production can explain the suppression by TGF-beta 1 of the effects of IL-1 alpha and LPS that are mediated by IL-6. TGF-beta 1 also suppressed differentiation in clones of myeloid leukemic cells induced with differentiation factor/leukemia inhibitory factor and tumor necrosis factor. In different leukemic clones TGF-beta 1 suppressed or enhanced induction of differentiation with dexamethasone. The results show that TGF-beta 1 can selectively control the activity of different molecular regulators of normal and leukemic hematopoiesis.
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PMID:Selective regulation of the activity of different hematopoietic regulatory proteins by transforming growth factor beta 1 in normal and leukemic myeloid cells. 220 8

We identified the cytokines interleukin-1 beta (IL-1 beta), tumor necrosis factor (TNF), and interleukin-6 (IL-6) by specific radioimmunoassays in the CSF of patients with multiple sclerosis (MS) and other neurologic diseases (OND). There was a high incidence of detectable IL-1 beta in patients with active MS compared with inactive MS or OND patients. TNF was also more frequently present in active MS than in OND CSF. By contrast, most MS CSF did not contain detectable IL-6. There was no correlation between the degree of CSF pleocytosis and the level of individual cytokines, suggesting that cytokine accumulations may be derived from CNS, and not CSF, cells. As IL-1 beta and TNF experimentally induce astrogliosis, demyelination, temperature elevation, lassitude, and sleep, and results raise the possibility that these cytokines may contribute to a variety of manifestations in MS and in other disease states.
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PMID:Cytokine accumulations in CSF of multiple sclerosis patients: frequent detection of interleukin-1 and tumor necrosis factor but not interleukin-6. 223 30

Effects of interleukin-6 (IL-6) on cycling status and clonogenic maturation of human fetal (cord blood) and adult hematopoietic progenitors were compared. Adult marrow cells were incubated for various lengths of time with various concentrations of IL-6, in a serum-free system, after which tritiated thymidine suicide studies were performed. After incubation of 2 to 5 x 10(6) cells/mL for 4 hours in 5.0 ng IL-6/mL, increased thymidine suicide rates were observed for multipotent progenitors (CFU-Mix), granulocyte-macrophage progenitors (CFU-GM), and erythroid burst-forming units (BFU-E). Similar incubations of fetal cells in IL-6 resulted in similar increases in tritiated thymidine suicide rates. In other studies, IL-6 used alone did not support colony formation from adult progenitors. However, it did support colony formation from fetal CFU-Mix (P less than .05), CFU-GM (P less than .001), and BFU-E (P less than .05). In cultures of adult progenitors, IL-6 acted synergistically with IL-3 to support CFU-Mix colony formation (P less than .001), but synergistic actions on CFU-GM and BFU-E were not seen. In contrast, IL-6 acted synergistically with IL-3 and with GM-CSF to support colony formation by fetal CFU-Mix, CFU-GM, and BFU-E. Thus, IL-6 appears to have a wider spectrum of action on fetal progenitors from cord blood than on adult progenitors; including not only the induction of cycling, but also the support of clonogenic maturation of CFU-Mix, CFU-GM, and BFU-E.
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PMID:Effects of interleukin-6 on fetal hematopoietic progenitors. 234 78

The growth-promoting activities of interleukin-6 (IL-6) in combination with different factors were assessed in bone marrow (BM) cultures prepared from normal mice and from mice treated with 5-fluorouracil (5-FU). Effects on hematopoietic colony formation with respect to number, size, and cellular composition were evaluated. In agreement with previous reports, IL-6 acts synergistically with IL-3 to stimulate increased numbers of granulocyte/macrophage (GM) and multilineage colonies in day-2 and day-4 post-5-FU BM cultures. Furthermore, day 4 but not day 2 post-5-FU BM showed enhanced GM colony formation when stimulated with IL-6 plus interleukin-4 (IL-4) or granulocyte colony-stimulating factor (G-CSF). In contrast, IL-6 did not increase the number of colonies supported by M-CSF or GM-CSF. Nevertheless IL-6 interacted with all factors, including M-CSF and GM-CSF, to stimulate an increase in colony size. Many of these myeloid colonies attained a diameter of greater than or equal to 0.5 mm, suggesting they derive from high proliferative potential cells (HPP-CFC). The response of normal and day-8 post-5-FU BM containing high numbers of more mature progenitors was also assessed. We found IL-6 enhanced colony formation by lineage-restricted megakaryocytic and erythroid progenitors in the presence of IL-3 and IL-4 plus erythropoietin (Epo), respectively. The sum of these results shows that IL-6 interacts with a variety of factors to regulate the growth of progenitor cells at different stages of lineage commitment and maturation.
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PMID:Interleukin-6 interacts with interleukin-4 and other hematopoietic growth factors to selectively enhance the growth of megakaryocytic, erythroid, myeloid, and multipotential progenitor cells. 246 2


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