Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P05231 (interleukin-6)
 23,907 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In agar culture of post 5-fluorouracil mouse bone marrow cells (FUBM), recombinant rat stem cell factor (rrSCF) synergizes with granulocyte colony-stimulating factor (G-CSF), interleukin-3 (IL-3) or interleukin-6 (IL-6) to stimulate primitive progenitor cells (HPP-CFCs). The addition of recombinant human transforming growth factor beta (rhTGF-beta) to cultures of FUBM containing rrSCF plus rhG-CSF, rrSCF plus recombinant murine (rm)IL-3, or rrSCF plus rhIL-6 resulted in 100% inhibition of colony formation. Highly enriched populations of primitive bone marrow cells were obtained by isolating lineage negative (Lin-), Sca-1-positive (Sca-1+) cells from normal mouse bone marrow. RhTGF-beta inhibited 90% of colony formation stimulated by rrSCF plus rmIL-3 in agar culture of the Sca-1+ cells. RhTGF-beta also inhibited colony formation in agar culture of post FU human bone marrow cells. The synergistic increase in colony formation obtained with recombinant human SCF (rhSCF) plus rhGM-CSF and rhSCF plus rhIL-3 was inhibited by rhTGF-beta (approx. 60% and 87% inhibition, respectively). RhTGF-beta also totally inhibited the erythroid colony formation stimulated by rhSCF plus recombinant human erythropoietin (rhEpo). These data demonstrate that TGF-beta inhibits SCF-stimulated colony formation of mouse and human BM. This inhibition on progenitor cells appears to be a direct action of TGF-beta and is consistent with the target cells of SCF being more primitive progenitors than the CFCs stimulated by the CSFs alone.
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PMID:Transforming growth factor beta inhibits the action of stem cell factor on mouse and human hematopoietic progenitors. 137 30

Interleukin-6 (IL-6) is considered an important multifunctional cytokine involved in the regulation of a variety of cellular responses, including the induction of acute-phase protein synthesis, lymphocyte activation, and hematopoiesis. In vitro studies have identified many cells that can produce IL-6, but the cellular sources under physiologic conditions have yet to be identified. Using immunoaffinity purified goat anti-murine IL-6, the authors performed immunohistochemical studies to localize cells expressing IL-6 in selected organs of normal and endotoxin challenged NIH-Swiss outbred mice. In the blood, findings were correlated with cell-associated bioactivity using the standard B9 cell proliferation assay. In normal mice, constitutive expression was seen in granulocytes, monocytes and their precursors as well as in bone marrow and splenic stromal macrophages. Hepatic macrophages were negative, as were lymphocytes, megakaryocytes, erythroid precursors, and endothelial cells. In the absence of significant serum levels of IL-6, cell-associated IL-6 bioactivity was detected in circulating polymorphonuclear leukocytes (PMNs), but not lymphocytes. After endotoxin challenge, there was a threefold increase in PMN IL-6 content from 1 to 3 hours followed by almost complete depletion at 6 hours. This correlated well with a threefold increase of IL-6 mRNA in the bone marrow followed by a decrease at 6 hours. This pattern also correlated with serum levels of IL-6, which peaked at 3 hours and dropped significantly by 6 hours. By 24 hours, cell-associated IL-6 showed recovery with no increase in serum levels. In vivo findings showing IL-6 expression in bone marrow macrophages support in vitro studies suggesting a role for IL-6 in hematopoiesis. Furthermore, PMNs as well as macrophages are likely important sources of IL-6 during inflammatory and septic states.
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PMID:Biologic and immunohistochemical analysis of interleukin-6 expression in vivo. Constitutive and induced expression in murine polymorphonuclear and mononuclear phagocytes. 137 59

In chicken myeloid cells but not in erythroid cells, kinase-type oncogenes activate expression of the chicken myelomonocytic growth factor (cMGF). The autocrine loop established this way plays a key role in lineage-specific cooperation of nuclear and kinase-type oncogenes in retrovirally induced myeloid leukemia. In this report, we describe the cloning of the cMGF gene, including its promoter. The structure of the cMGF gene is homologous to those of the granulocyte colony-stimulating factor and interleukin-6 genes. Expression from reporter constructs containing the cMGF promoter is specific to myelomonocytic cells. Kinases activate cMGF at the transcriptional level in macrophages and strongly induce reporter expression in myelomonocytic cells.
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PMID:Structure of the chicken myelomonocytic growth factor gene and specific activation of its promoter in avian myelomonocytic cells by protein kinases. 154 24

The effects of recombinant human tumor necrosis factor alpha (TNF alpha) on colony growth were studied using highly enriched progenitor cells from normal human bone marrow. Supplementation of TNF to culture resulted in a dose-dependent suppression of granulocyte colony-stimulating factor (G-CSF) induced granulocytic colony formation and also erythropoietin (Epo) induced erythroid burst formation. However, the number of erythroid bursts, stimulated by interleukin-3 (IL-3) plus Epo, increased when TNF was added at comparable concentrations. Further, TNF enhanced eosinophilic colony growth induced by IL-3 or granulocytic-macrophage colony-stimulating factor (GM-CSF). In GM-CSF cultures TNF (100-1000 U/ml) also induced granulocytic and macrophage colonies. The addition of neutralizing antibodies against G-CSF, GM-CSF, or interleukin-6 (IL-6) to culture did not abrogate the observed effects of TNF, so that stimulation of myeloid colony growth was unlikely to result from the secondary induction of G-CSF or GM-CSF. TNF therefore exerts favourable effects on hematopoietic progenitors responsive to the more primitive colony-stimulating factors (IL-3, GM-CSF) and potent negative effects on precursors reactive to the single lineage G-CSF and Epo. These contrasting effects of TNF suggest that TNF, when available to marrow progenitors at similar tissue concentrations, may drive hematopoiesis within the progenitor cell compartment into selected directions.
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PMID:Positive and negative effects of tumor necrosis factor on colony growth from highly purified normal marrow progenitors. 170 38

A factor with burst-promoting activity (BPA) stimulates the formation of erythroid bursts in the presence of erythropoietin, acting on early erythroid progenitor cells (erythroid burst-forming units, or BFU-E). Here we investigated the biological properties of this factor partially purified from the urine of anemic patients. The human urinary factor did not cause the formation of late erythroid progenitor cells (erythroid colony-forming units, or CFU-E) or enhance such colony formation in the presence of erythropoietin. Thus, the urinary factor was a different substance from erythroid potentiating activity and from activin, which act on both BFU-E and CFU-E. The urinary factor promoted the colony formation of BFU-E from both humans and mice, but the human hematopoietic growth factors such as recombinant interleukin-3, interleukin-6, granulocyte-macrophage colony-stimulating factor, and macrophage colony-stimulating factor did not stimulate the formation of BFU-E derived colonies from mice. The results suggested that the factor in the urine of anemic patients was different from the hematopoietic growth factors identified so far.
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PMID:Factor with erythroid burst-promoting activity in human urine unlike other hematopoietic growth factors. 175 47

Hematopoietic depression and subsequent susceptibility to potentially lethal opportunistic infections are well-documented phenomena following radiotherapy. Methods to therapeutically mitigate radiation-induced myelosuppression could offer great clinical value. In vivo studies in our laboratory have demonstrated that interleukin-6 (IL-6) stimulates pluripotent hematopoietic stem cell (CFU-s), granulocyte-macrophage progenitor cell (GM-CFC), and erythroid progenitor cell (CFU-e) proliferation in normal mice. Based on these results, the ability of IL-6 to stimulate hematopoietic regeneration following radiation-induced hematopoietic injury was also evaluated. C3H/HeN female mice were exposed to 6.5 Gy 60Co radiation and subcutaneously administered either saline or IL-6 (1,000 micrograms/kg) on days 1 through 3 or 1 through 6 postexposure. On days 7, 10, 14, 17, and 22, femoral and splenic CFU-s, GM-CFC, and CFU-e contents and peripheral blood white cell, red cell, and platelet counts were determined. Compared with saline treatment, both 3-day and 6-day IL-6 treatments accelerated hematopoietic recovery; 6-day treatment produced the greater effects. For example, compared with normal control values (N), femoral and splenic CFU-s numbers in IL-6-treated mice 17 days postirradiation were 27% N and 136% N versus 2% N and 10% N in saline-treated mice. At the same time, bone marrow and splenic GM-CFC values were 58% N and 473% N versus 6% N and 196% N in saline-treated mice; bone marrow and splenic CFU-e numbers were 91% N and 250% N versus 31% N and 130% N in saline-treated mice; and peripheral blood white cell, red cell, and platelet values were 210% N, 60% N, and 24% N versus 18% N, 39% N, and 7% N in saline-treated mice. These studies demonstrate that therapeutically administered IL-6 can effectively accelerate multilineage hematopoietic recovery following radiation-induced hematopoietic injury.
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PMID:Administration of interleukin-6 stimulates multilineage hematopoiesis and accelerates recovery from radiation-induced hematopoietic depression. 199 Nov 64

Multiple myeloma (MM) originates from the malignant clonal expansion of transformed B-lymphocytes (in which c-myc and ras oncogenes are probably involved). MM cells have a hybrid phenotype (with coexpression of the markers for both early and late B-differentiation and, sometimes, of T-lymphocyte, myelomonocyte, erythroid and megakaryocyte markers), which accounts for the association between MM and myeloproliferative disorders and for cytokine production. Interleukin-6 and immunologic control mechanisms regulate proliferation and differentiation into plasma cells secreting a monoclonal component (MC). Overt MM is diagnosed 1-2 years following malignant transformation. At this time, several aneuploid clones with resistant phenotype have been selected, and a small pool of actively cycling cells produces the great bulk (over 90%) of non proliferating tumor cells. The clinical and laboratory signs of MM arise from both tumor proliferation and MC damage to organs and organ systems. Tumor proliferation is mainly responsible for bone disease (since MM cells produce cytokines that activate the osteoclasts), inhibition of hemopoiesis and the appearance of plasma cell tumors. The MC causes renal failure, neurological signs, hemorrhagic manifestations. The prognosis for multiple myeloma is probably best estimated by two parameters, serum beta-2-microglobulin and the bone marrow labeling index. Induction therapy is still based on the use of alkylating agents, melphalan and cyclophosphamide, combined with prednisone. Second line treatment consists of VAD polychemotherapy or high-dose pulsed glucocorticoids. Many investigational approaches have been proposed, but their effectiveness awaits confirmation. In the absence of a curative regimen, much effort should be dedicated to the quality of supportive care. In this respect, bisphosphonates represent a new effective tool for the control of myeloma bone disease.
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PMID:Multiple myeloma. 208 Oct 91

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 human KU812 leukemic cell line is a model for studying cell commitment towards different hematopoietic lineages. Indeed, this cell line is characterized by both a capacity for self-renewal and the ability to differentiate spontaneously along erythroid and basophilic cell lineages. In this study we show that interleukin-6 (IL-6) and its specific receptor (IL-6-R) are spontaneously expressed in the human KU812 cell line. Addition of antibody against IL-6 weakly inhibited its cell proliferation (20 to 30%) suggesting that the endogenous production of IL-6 was partially responsible for the growth of the cell line. In contrast, the spontaneous terminal differentiation of this cell line towards the erythroid and basophilic lineages was inhibited by an antibody against IL-6 and this effect was reversed by addition of recombinant human IL-6 (rIL-6). These results suggest that IL-6 is involved more in differentiation than in the proliferation of KU812 cells. After several passages, KU812 cells lose their capacity to differentiate spontaneously. In these cells, the IL-6-R was no more detectable. We therefore suggest that this loss of spontaneous differentiation is associated with an interruption of the IL-6 autocrine loop.
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PMID:Autocrine regulation of terminal differentiation by interleukin-6 in the pluripotent KU812 cell line. 235 Mar 42

Serum and bone marrow from 21 patients with rheumatoid arthritis (RA) were studied in order to establish the pathogenetic role of interleukin-6 (IL-6) in anemia of chronic disease (ACD). Erythroid colony growth, using burst forming units of erythroblasts (BFUe) as a parameter, was impaired in ACD and not in nonanemic RA controls. Serum IL-6 was elevated in ACD and it correlated well with parameters of disease activity such as erythrocyte sedimentation rate and C-reactive protein. IL-6 addition to bone marrow cultures had inconsistent effects while anti-IL-6 addition resulted in impaired erythroid colony growth, suggesting stimulatory effects of IL-6 produced in the medium, which may be masked by simultaneous production of cytokines with suppressive effects. It was concluded that elevated serum IL-6 in ACD reflects disease activity. It probably plays no pathogenetic role in ACD. Its stimulatory effects on erythroid growth might counteract suppressive effects of other interleukins.
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PMID:Anaemia of chronic disease in rheumatoid arthritis. Raised serum interleukin-6 (IL-6) levels and effects of IL-6 and anti-IL-6 on in vitro erythropoiesis. 239 39


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