UNIPROT:P04141 - FACTA Search

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Query: UNIPROT:P04141 (granulocyte-macrophage colony-stimulating factor)
6,790 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Supernatants of COS-1 cells transfected with gibbon cDNA encoding interleukin 3 (IL-3) with homology to sequences for human IL-3 were tested for ability to promote growth of various human hemopoietic progenitors. The effect of these supernatants as a source of recombinant IL-3 was compared to that of recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF) and granulocyte colony-stimulating factor (G-CSF) as well as to that of medium conditioned by phytohemagglutinin-stimulated leukocytes. The frequency of multilineage colonies, erythroid bursts, and megakaryocyte colonies in cultures containing the COS-1 cell supernatant was equivalent to the frequency observed in the controls and significantly higher than found in cultures plated with recombinant GM-CSF. G-CSF did not support the formation of multilineage colonies, erythroid bursts, and megakaryocyte colonies. In contrast, growth of granulocyte-macrophage colonies was best supported with GM-CSF, while recombinant IL-3 yielded colonies at lower or at best equivalent frequency. The simultaneous addition of higher concentrations of GM-CSF to cultures containing IL-3 in optimal amounts did not enhance the formation of multilineage colonies, erythroid bursts, and megakaryocyte colonies. However, the frequency of such colonies and bursts increased with GM-CSF when cultures were plated with suboptimal concentrations of IL-3. Growth of colonies within the granulocyte-macrophage lineage is optimally supported by GM-CSF and does not increase with further addition of IL-3.
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PMID:Growth of human hemopoietic colonies in response to recombinant gibbon interleukin 3: comparison with human recombinant granulocyte and granulocyte-macrophage colony-stimulating factor. 349 41

Human T-lymphocyte lines that were selected for recognition of HLA-DR6 antigen and were dependent for growth in vitro on an added source of interleukin-2 (IL-2) were derived from the peripheral blood of normal individuals. Each was tested for production of a lymphokine(s) with properties of granulocyte-macrophage colony-stimulating factor (GM-CSF) using as target cells nonadherent cells from human long-term bone marrow cultures (LTBMC) or fresh marrow. Each of eight T-lymphocyte lines that were OKT3, OKT4, and HLA-DR positive produced GM-CSF that stimulated colony formation by both LTBMC cells and fresh marrow. Individually examined single-cell-derived bone marrow colonies growing in T-cell GM-CSF contained peroxidase-positive neutrophils, and macrophage-monocytes (GM-CFUc). Supernatant from a single-cell-derived T-cell clonal line designated F1 stimulated formation of granulocyte-macrophage colonies, megakaryocyte colonies, macroscopic erythroid bursts, and multipotential colonies containing erythroid cells, megakaryocytes, neutrophilic and eosinophilic granulocytes, and monocyte-macrophages (CFU-GEMM) in the presence of added erythropoietin. These data indicate that human IL-2-responsive T-lymphocytes produce lymphokine(s) that stimulate proliferation of primitive as well as committed hematopoietic stem cells, and implicate human T-lymphocytes in regulation of human multipotential hematopoietic stem cells in vivo.
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PMID:Production of colony-stimulating factor(s) for granulocyte-macrophage and multipotential (granulocyte/erythroid/megakaryocyte/macrophage) hematopoietic progenitor cells (CFU-GEMM) by clonal lines of human IL-2-dependent T-lymphocytes. 633 54

The immunomodulator AS101 has previously been found to induce mouse and human hematopoietic cells to secrete cytokines such as interleukin-1 alpha (IL-1 alpha), IL-2, tumor necrosis factor-alpha (TNF-alpha), and gamma interferon (IFN-gamma). The compound was shown to protect mice from lethal and sublethal effects of chemotherapy and irradiation. AS101 prevented the decrease in the number of bone marrow (BM) and spleen myeloid progenitor cells, and increased the survival of lethally treated mice. In this study, we show a dose-dependent response of AS101 in the induction of high secretion levels of IL-6, IL-3, granulocyte-macrophage colony-stimulating factor (GM-CSF), and stem cell factor (SCF). Since these growth factors are known to induce the proliferation and differentiation of multilineage progenitors, including megakaryocytic and erythroid progenitors, we designed this study to evaluate the role of AS101 in attenuating thrombocytopenia, anemia, and multilineage myelosuppression associated with chemotherapy. We demonstrate that pretreatment of mice with AS101 24 hours before intraperitoneal injection of 250 mg/kg cyclophosphamide (CYP) or intravenous injection of 150 mg/kg 5-fluorouracil (5-FU) significantly increased the number of circulating white blood cells (WBC) and platelets. The numbers of both neutrophils and lymphocytes were significantly increased in AS101-treated mice subjected to chemotherapy. In addition, AS101 attenuated erythropenia caused by 5-FU. It could also increase megakaryocyte and erythroid progenitor cells (CFU-MK and CFU-E) in the BM of treated mice severely affected by chemotherapy. We demonstrate that the protective effect of AS101 could be abrogated by treatment with anti-IL-1R or anti-SCF antibodies. We suggest that the endogenous production of cytokines such as IL-1, IL-6, IL-3, SCF, and GM-CSF in mice treated with AS101 offers protection to circulating blood elements and ameliorates the reconstitution of megakaryocytic and erythroid progenitors. The simultaneous protection by AS101 of multilineage cell compartments is probably due to stimulation by AS101 of a selective subpopulation of primitive stem cells resistant to chemotherapy. On the basis of these studies, phase II clinical trials with patients treated with chemotherapy in combination with AS101 have been initiated.
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PMID:Effect of the immunomodulator AS101 on chemotherapy-induced multilineage myelosuppression, thrombocytopenia, and anemia in mice. 749 64

Interleukin-11 (IL-11), a newly-identified cytokine produced by stromal cells, elevates platelet counts in neonatal rats in vivo and synergizes in vitro with IL-3 in supporting murine megakaryocyte colony formation and stimulating hematopoietic stem cells. Megakaryocytopoiesis is also enhanced by other colony-stimulating factors (CSFs), including IL-3, IL-6, and Steel factor (SLF). Dysregulation of neonatal thrombopoiesis predisposes newborns to develop thrombocytopenia during sepsis, despite increased circulating pools of committed thrombopoietic progenitors in newborn cord blood compared with adult. We previously reported reduced expression of granulocyte-macrophage colony-stimulating factor (GM-CSF), granulocyte-colony-stimulating factor (G-CSF), and IL-3 from stimulated cord mononuclear cells, but increased expression of SLF in human umbilical vein endothelial cells (HUVEC). Therefore, we hypothesized that IL-3, IL-6, and SLF might modulate megakaryocytopoiesis by inducing IL-11 expression, and newborns might express altered levels of IL-11 mRNA expression during activated conditions, contributing to the difference in circulating colony-forming unit-megakaryocyte (CFU-Meg) cord and adult blood. Phorbol myristate acetate (PMA) induced a twofold greater increase in IL-11 mRNA expression in neonatal fibroblasts (NFb) compared with adult fibroblasts (AFb), and a 3.6-fold greater increase in HUVEC than human adult aorta endothelial cells (HAEC) by Northern blot analysis. PMA also induced a threefold greater increase in IL-11 protein production in NFb than AFb. Physiologic agonists IL-1 alpha, transforming growth factor-beta 1 (TGF-beta 1), and TGF-beta 2 triggered upregulation of IL-11 mRNA expression in both NFb and AFb. However, IL-3, IL-6, PIXY321 (a GM-CSF-IL-3 fusion protein), and SLF failed to upregulate IL-11 mRNA expression from the basal level, while macrophage-colony stimulating factor (M-CSF) mRNA was significantly induced. These data suggest that the hematopoietic effect of IL-6, SLF, and IL-3 on megakaryocytopoiesis is probably not mediated by secondary IL-11 mRNA expression. Similarly, inflammatory agonists IL-1 beta, lipopolysaccharide (LPS), and tumor necrosis factor-alpha (TNF-alpha) alone did not upregulate IL-11 expression from the basal level in endothelial cells, whereas intracellular adhesion molecule-1 (ICAM-1) and endothelial leukocyte adhesion molecule-1 were strongly induced. Minimal basal IL-11 expression was detected by reverse transcriptase-polymerase chain reaction (RT-PCR) in NFb, AFb, HUVEC and HAEC. The quantitative RT-PCR assay also verified that IL-1 beta and TNF-alpha-stimulated HUVEC and HAEC, and IL-3- and IL-6-stimulated NFb and AFb only expressed minimal levels of IL-11 mRNA.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of interleukin-11 protein and mRNA expression in neonatal and adult fibroblasts and endothelial cells. 752 67

Stem cell factor (SCF) is a cytokine for hematopoietic progenitor cells and plays an important role in megakaryocyte proliferation. The UT-7 cell line was established from a patient with megakaryoblastic leukemia, and its growth and survival are strictly dependent on interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF), erythropoietin (Epo), or IL-6. In this study, we showed that SCF also supported the growth of UT-7 in the absence of other cytokines and downregulated the cell surface c-kit receptors. Constitutive expression of SCF by introducing SCF expression vector made UT-7 grow factor-independently in liquid medium, but not in semisolid medium. This SCF-expressing factor-independent UT-7 (UT-7scf9) expressed the membrane bound form of SCF on their surface, but did not secrete detectable amounts of soluble SCF. UT-7scf9 formed aggregates as they grew in the absence of cytokines, and this aggregation was inhibited by adding soluble SCF into the medium. UT-7 cultured with SCF and UT-7scf9 cultured without cytokines expressed GM-CSF, and anti-GM-CSF neutralizing antibody partially inhibited their growth. These results suggest that SCF stimulated UT-7 proliferation partially through the autocrine-loop of GM-CSF, and UT-7scf9 expressed SCF mostly as a membrane-bound form, which transduces its growth signal through c-kit receptor as they aggregate by cell-to-cell interaction.
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PMID:Cell-to-cell interaction of cytokine-dependent myeloblastic line constitutively expressing membrane-bound stem cell factor abrogates cytokine dependency partially through granulocyte-macrophage colony-stimulating factor production. 753 35

Primary autologous as well as allogeneic and xenogeneic stroma will support human stem cell proliferation and differentiation for several months. In the present study, we investigated the capacity of porcine microvascular endothelial cells (PMVECs) together with combinations of cytokines (granulocyte-macrophage colony-stimulating factor [GM-CSF] + stem factor [SCF], interleukin-3 [IL-3] + SCF + IL-6, and GM-CSF + IL-3 + SCF + IL-6) to support the expansion and development of purified human CD34+ bone marrow cells. In short-term cultures (7 days), the greatest expansion of nonadherent hematopoietic cells and clonogenic progenitors was seen with CD34+ cells in direct contact with PMVEC monolayers (PMVEC contact), followed by PMVEC noncontact and liquid suspension cultures, respectively. Maximal expansion of nonadherent cells (42-fold) and total CD34+ cells (12.6-fold) occurred in PMVEC contact cultures treated with GM-CSF + IL-3 + SCF + IL-6, with similar increases in the number of granulocyte-macrophage colony-forming units (CFU-GM), CFU-mix, erythroid burst-forming units (BFU-E), CFU-blast and CFU-megakaryocyte (CFU-Mk) progenitor cells. Moreover, the number of CD34+ CD38- and CD34+ CD38+ cells increased 148.1-fold and 8.0-fold, respectively. Replating studies show that cells from day 7 dispersed blast cell colonies generated on cytokine-treated PMVEC monolayers have a high replating potential for multilineage progenitor cells. In long-term PMVEC contact cultures, CD34+ cells seeded onto PMVEC monolayers with GM-CSF + IL-3 + SCF + IL-6 showed a total calculated expansion of over 5,000,000-fold of nonadherent cells over 35 days in culture. Maximal clonogenic cell production was observed at day 28, with 6,353-fold for total CFC and comparable increases for CFU-GM, CFU-mix, CFU-blast, BFU-E, and CFU-Mk. The total number of CD34+ cells increased 2,584-fold at day 28. Furthermore, the extended growth kinetics of these cultures indicates that these phenotypically primitive progenitor cells are also functionally expanded on PMVEC monolayers. These results support the hypothesis that direct contact with a PMVEC monolayer supports the initial expansion of hematopoietic progenitor cells with a high replating potential and, possibly, a more primitive phenotype (CD34+, CD34+/CD38-).
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PMID:Porcine brain microvascular endothelial cells support the in vitro expansion of human primitive hematopoietic bone marrow progenitor cells with a high replating potential: requirement for cell-to-cell interactions and colony-stimulating factors. 753 87

Expansion of stem/progenitor cells has important implications for transplantation. We recently reported that a factor or factors in cord blood (CB), but not adult peripheral blood (PB), plasma enhanced replating of granulocyte erythroid macrophage megakaryocyte colony-forming units (CFU-GEMM) progenitors, a measure of self-renewal capacity. In this context, we evaluated effects of CB plasma, in comparison with PB plasma and fetal bovine serum (FBS), on ex vivo expansion of CD34+ column-separated (72-98% CD34+) CB cells using stroma-free cultures in the absence and presence of either PIXY321 (a granulocyte-macrophage colony-stimulating factor/interleukin-3 [GM-CSF/IL-3] fusion protein), IL-3+IL-6+IL-1, or steel factor (SLF) -/+ PIXY. CB plasma, PB plasma, or FBS alone did not sustain cell numbers. Combinations of CB plasma +SLF+PIXY induced maximal cumulative nucleated cell expansion (1044-fold), which was greater than that of PB plasma plus cytokines (633-fold) and FBS plus cytokines (142-fold). Total CD34+ cells peaked by day 7 with 7-fold expansion in the presence of CB plasma+SLF+PIXY compared with PB plasma or FBS with these same cytokines (threefold each). By day 7, total CFU-GEMM production in the presence of either PIXY, SLF+PIXY, or IL-3+IL-6+IL-1 was greater with CB plasma (maximum 11.4-fold average increases) than with PB plasma (6.8-fold increase). These increases were greater than with FBS. However, PB plasma was at least as good as CB plasma for expansion of immature and mature subsets of CFU-GM. The frequency of progenitors decreased with time, and expansion was coupled with differentiation. Although the proliferative capacity of CFU-GEMM was maintained, the capacity of CFU-GEMM to be replated decreased after time in suspension culture, suggesting age-related commitment of cells. Moreover, with plasma +SLF+PIXY for 7 days, expansion of more mature CFU-GM (responsive to GM-CSF) was greater (16-146-fold with CB plasma and 31-208-fold with PB plasma) than immature CFU-GM (responsive to GM-CSF+SFL) (4- to 14-fold with CB plasma and 6- to 17-fold with PB plasma). The results suggest that CB plasma enhances expansion of CFU-GEMM to a greater extent than PB plasma or FBS, but expansion in these cultures favors more mature subsets of cells.
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PMID:Cytokine-dependent ex vivo expansion of early subsets of CD34+ cord blood myeloid progenitors is enhanced by cord blood plasma, but expansion of the more mature subsets of progenitors is favored. 753 50

Granulocyte-macrophage colony-stimulating factor (GM-CSF) mainly stimulates proliferation and maturation of myeloid progenitor cells. Although the signal transduction pathways triggered by GM-CSF receptor (GMR) have been extensively characterized, the roles of GMR signals in differentiation have remained to be elucidated. To examine the relationship between receptor expression and differentiation of hemopoietic cells, we used transgenic mice (Tg-mice) that constitutively express human (h) GMR at almost all stages of hemopoietic cell development. Proliferation and differentiation of hemopoietic progenitors in bone marrow cells from these Tg-mice were analyzed by methylcellulose colony formation assay. High affinity GMR interacts with GM-CSF in a species-specific manner, therefore one can analyze the effects of hGMR signals on differentiation of mouse hemopoietic progenitors using hGM-CSF. Although mouse (m) GM-CSF yielded only GM colonies, hGM-CSF supported various types of colonies including GM, eosinophil, mast cell, erythrocyte, megakaryocyte, blast cell, and mixed hemopoietic colonies. Thus, the effects of hGM-CSF on colony formation more closely resembled mIL-3 than those of mGM-CSF. In addition, hGM-CSF generated a much larger number of blast cell colonies and mixed cell colonies than did mIL-3. hGM-CSF also generated erythrocyte colonies in the absence of erythropoietin. Therefore, GM-CSF apparently has the capacity to promote growth of cells of almost all hemopoietic cell lineages, if functional hGMR is present.
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PMID:A human GM-CSF receptor expressed in transgenic mice stimulates proliferation and differentiation of hemopoietic progenitors to all lineages in response to human GM-CSF. 754 29

A new and quantitative liquid culture system has been developed to measure the production of megakaryocytes from megakaryocyte progenitor cells (colony-forming units-megakaryocyte [CFU-MK]). The system uses as a target population a glycoprotein (Gp) IIb/IIIa+ subpopulation of rat bone marrow cells previously demonstrated to be highly enriched for CFU-MK. GpIIb/IIIa+ cells were cultured at 5 x 10(4) cells/mL (10(4) cells/well) with test samples in 96-well tissue culture plates for 4 days at 37 degrees C. During the final 3 hours of incubation, the cells were pulsed with [14C]5-hydroxytryptamine creatinine sulfate (14C-serotonin). After incubation, the plates were washed and the cell pellets were lysed with Triton-X 100. The cell lysate was infiltrated into a commercially available solid scintillator and dried, and radioactivity was measured. In this assay system, rat interleukin-3 (IL-3) was found to be the most potent among known cytokines tested. Murine granulocyte-macrophage colony-stimulating factor (GM-CSF), human erythropoietin (Epo), human IL-6, and murine stem cell factor (SCF) each alone stimulated megakaryocyte growth but were much less active than rat IL-3. Plasma of rats rendered thrombocytopenic by injection of monoclonal antirat platelet GpIIb/IIIa antibody exhibited significant activity, and the active protein fractions partially purified from the plasma showed much higher activity, but normal rat plasma had no effect. This liquid culture system allows the measurement of a large number of test samples--including a wide variety of cytokines and unknown growth factors, alone or in combinations--and provides a simple method for evaluating the early proliferative events involving CFU-MK in the megakaryocyte differentiation pathway.
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PMID:A simple and quantitative liquid culture system to measure megakaryocyte growth using highly purified CFU-MK. 755 34

Cellular and molecular analysis of megakaryocytopoiesis has been hampered thus far by the lack of pure and abundant megakaryocyte (MK) cell populations. In this study, hematopoietic progenitor cells (HPCs), stringently purified from peripheral blood, were induced to megakaryocytic differentiation/maturation in serum-free liquid suspension culture treated with a growth factor cocktail (interleukin-3 [IL-3], c-kit ligand, and IL-6) and/or recombinant mpl ligand (mpIL). In particular, (1) the growth factor cocktail induced the growth of a 40% MK population, ie, 4 x 10(4) cells at day 0 generated 2 x 10(5) MK at terminal maturation; (2) further addition of mpIL increased the MK purity level to 80% with a final yield of 4 x 10(5) MKs; (3) treatment with mpIL alone resulted in a 97% to 99% MK population, with a mild increase of cell number (to 1.5 x 10(5) cells). In mpIL-supplemented culture, morphological evaluation indicated the presence of putative mononuclear MK precursors and then of mature polynucleated platelet-forming MKs, peaking at days 5 and 12, respectively. Membrane phenotype analysis showed a gradual decrease of CD34+ HPCs, coupled with an inverse increase of MK-specific antigens (eg, CD61/62/42b) starting before mature MK detection by morphology analysis. In situ hybridization showed the expression of MK-specific von Willebrand gene in both MK precursors and mature MKs. Furthermore, MKs synthesize and secrete low but significant amounts of both IL-6 and granulocyte-macrophage colony-stimulating factor. Comparative culture studies were performed on purified bone marrow CD34+/38hi or CD34+/38lo cells stimulated by mpIL alone. Both populations generated a highly enriched MK progeny (62% and 93% MKs at day 12 of culture, respectively) but showed either little or no proliferation. In conclusion, the purified peripheral blood HPC differentiation culture system allows for growth of a relatively large number of highly purified or "pure" megakaryocytic precursors and then mature MKs, thus providing an in vitro experimental tool to dissect the cellular and molecular basis of megakaryocytopoiesis.
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PMID:Unilineage megakaryocytic proliferation and differentiation of purified hematopoietic progenitors in serum-free liquid culture. 757 39

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