Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

This investigation was undertaken to determine whether there is a decrease of granulopoietic activity in subjects of the geriatric age group. Colony-stimulating factor (CSF) is an alpha glycoprotein which causes proliferation of granulocytes in vitro. A study was made of the variation in the level of CSF with age and the state of health in 78 subjects. They were classified into two groups-young (ages 22-60) and old (ages 70-94). The state of health was classified as normal, acute disease, or chronic disease. The results showed that serum CSF does vary with age and health. The CSF levels were higher in the young than in the old. For both age groups, the CSF levels were elevated in acute disease, and subnormal in chronic disease.
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PMID:Effects of aging on granulopoietic activity (colony-stimulating factor). 4 73

Mononuclear cells (MNC), isolated from peripheral blood of healthy donors, were cryoprotected by dimethyl sulfoxide and stored in liquid nitrogen. Colony-stimulating factor (CSF), produced by cryopreserved MNC, was compared with that of nonfrozen controls in a double-layer agar system with human bone marrow as target cells. Our results indicate that cryopreserved MNC retain their ability to stimulate myelopoiesis-committed stem cells after freezing. In addition, evidence was obtained that CSF of feeder layers changes, depending on the duration of preincubation and cell concentration. In a system where either stimulating or target cells are cryopreserved the dynamics of interactions between normal or abnormal cell lines can thus be studied.
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PMID:A modified assay for studies of cultured granulocyte precursors: cryopreservation of stimulating mononuclear cells. 11 52

Colony-stimulating factor, which specifically stimulates mouse bone marrow cells to proliferate in vitro and generate colonies of granulocytes, or macrophages, or both, was purified 3500-fold from mouse lung-conditioned medium. Analysis by discontinuous polyacrylamide gel electrophoresis in the presence and absence of sodium dodecyl sulfate indicated that there was a single protein component. All of the colony-stimulating activity was coincident with the protein band. The molecular weight of colony-stimulating factor estimated by gel filtration was approximately 29,000 and by electrophoresis approximately 23,000. The specific activity of purified colony-stimulating factor from mouse lung-conditioned medium bound to concanavalin A-Sapharose, indicating that it is a glycoprotein. The small percentage of colony-stimulating factor in mouse lung-conditioned medium which did not bind to concanavalin A-Sepharose appeared to represent molecules which lacked the carbohydrate moieties required for binding to this lectin. It was necessary to include low concentrations (less than 0.01%, v/v) of polymers such as gelatin and polyethylene glycol, or nonionic detergents such as Triton X-100, in all of the buffers used throughout the purification scheme, otherwise colony-stimulating factor was lost from solution. At high concentrations (greater than 20 mug/ml) the factor stimulated the formation of granulocytic, macrophage, and mixed colonies from C57BL mouse bone marrow cells. As the concentration of purified colony-stimulating factor was decreased, the frequency of colonies containing granulocytes also decreased. At low concentrations of colony-stimulating factor (less than 70 pg/ml) only macrophage colonies were stimulated.
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PMID:Purification and properties of colony-stimulating factor from mouse lung-conditioned medium. 30 Mar 77

Because Corynebacterium parvum has tumor-inhibitory properties and stimulates granulocyte-macrophage production, it may have clinical value in combination with chemotherapy. The leukopoietic effect of killed suspensions of C. parvum was studied in mice using the technique of in vitro clonal culture of hematopoietic cells. After C. parvum injection, there was a prompt, sustained elevation of serum colony-stimulating factor followed by an increase in granulocyte-macrophage precursor cells in the spleen and increases in blood mononuclear and granulocyte cells. Colony-stimulating factor production is suggested as a major mechanism of stimulation of granulocyte-macrophage proliferation by C. parvum. Since rapidly proliferating hematopoietic cells may have increased sensititity to cytotoxic agents, the details of hematopoietic stimulation by C. parvum may be critical in the sequential timing of combined C. parvum and chemotherapy treatment to obtain maximal tumor inhibition and minimal hematopoietic toxicity.
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PMID:Effect of Corynebacterium parvum on colony-stimulating factor and granulocyte-macrophage colony formation. 30 Jun 51

Erythropoietin or colony-stimulating factor, or both, were added to rat or mouse marrow cell cultures, and the responses to each inducer were measured. Colony-stimulating factor caused the suppression of erythropoietin-stimulated hemoglobin synthesis, and erythropoietin caused the suppression of the granulocyte-macrophage colony formation that is dependent on colony-stimulating factor. The extent of suppression by each inducer was dose-dependent. Marrow cells from plethoric rats were more sensitive to suppression of erythropoietin action by colony-stimulating factor than were normal marrow cells. These findings suggest that either (i) the receptors for erythropoietin and for colony-stimulating factor have overlapping specificities and that the "wrong" inducer may bind without having an inductive effect, or (ii) the target cells for erythropoietin and colony-stimulating factor are very closely related or are the same.
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PMID:Simultaneous effects of erythropoietin and colony-stimulating factor on bone marrow cells. 30 86

Recent studies have demonstrated that systemic Corynebacterium parvum increases serum granulocyte-macrophage colony-stimulating factor and stimulates the proliferation of granulocyte-macrophage progenitor cells. It was hypothesized that more rapid cycling of granulocyte-macrophage progenitor cells would render the cells more sensitive to a cell cycle-specific chemotherapeutic agent. The colony-forming ability of bone marrow granulocyte-macrophage progenitor cells was assayed in vitro with soft agar cultures. C. parvum given before 5-fluorouracil in C57BL/6 mice increased the granulocyte-macrophage progenitor cell toxicity, the lymphopenic effect, and the lethality of 5-fluorouracil. When C. parvum was given after 5-fluorouracil, there was more rapid rebound of granulocyte counts to normal or supranormal levels.
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PMID:Altered toxicity of 5-fluorouracil following treatment with Corynebacterium parvum. 30 62

A method of cultivation of mouse bone marrow cells in semisolid agar is described. Colony-stimulating factor was provided either by a "feeder layer" containing kidney cells (from 8-day-old mice) or by the addition of "lung conditioned medium" or post-endotoxin serum. The effect of various factors and media on the formation of colonies was tested. The best growth of colonies was observed in medium RPMI 1640 or in Eagle's minimal essential medium containing 0.2% bactotryptose supplemented with 20% foetal calf serum. Both the morphology of cells found in the colonies and the proliferative state of the cells that give rise to colonies indicate that CFU-C represent the committed progenitor for myelopoiesis.
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PMID:A contribution to the technique of mouse bone marrow cell culture in semisolid agar. 30 67

Differentiation and proliferation of almost all hemopoietic cell lines can now be studied in vitro. Cloning techniques and suspension cultures allow the study of proliferation of the multipotential hemopoietic progenitor cell and the committed progenitors for granulocytes, macrophages, eosinophils, megakaryocytes, and erythrocytes. The proliferation of each of the committed progenitor cells is controlled by specific glycoproteins and two of these have recently been purified: granulocyte-macrophage colony-stimulating factor (GM-CSF) and erythropoietin. The rate of proliferation of the GM-progenitor cells and their pattern of differentiation depends on the concentration of the hormone. At low concentrations of GM-CSF (10(-11) M) fewer progenitor cells are stimulated and macrophage colonies rather than granulocyte colonies develop. The change in the direction of granulocyte-macrophage differentiation appears to be related to a) the concentration of GM- CSF and b) the different sensitivity of a subpopulation of monocyte colony-forming cells which are responsive to GM-CSF even at low concentrations of the regulator. Analysis of the rate of RNA synthesis by bone marrow cells has shown that GM-CSF stimulates the mature nondividing end cells of differentiation (ie, polymorphs) as well as the progenitor cells. Although GM-CSF and erythropoietin have been radiolabeled, binding studies have been hampered by the loss of biologic activity during the labeling procedure and the heterogeneity of the target cells to which the regulators bind. Surface proteins and receptors for erythrocytes have been well characterized but the relationships between these proteins and the cell surface proteins of nucleated blood cells is not well understood. It appears that some proteins are lost from the cell surface during the development of granulocytes, which are retained on the surface of the B lymphocyte. Other proteins such as chemotactic receptors and complement receptors only appear on the mature cells. External radiolabeling of the granulocyte surface using iodogen yielded a simple profile of 125I-labeled proteins when analyzed by sodium dodecyl sulphate polyacrylamide gel electrophoresis.
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PMID:Regulation of hemopoietic cell differentiation and proliferation. 30 73

Granulocyte-macrophage colony-stimulating factor (GM-CSF) was partially purified from post-endotoxin serum and conditioned media produced by organs from both normal and endotoxin-injected C57BL mice. The organs used to condition medium were heart, thigh muscle, salivary gland, thymus, spleen, kidney, brain, and femur shaft. The charge properties, molecular weights, and concanavalin A binding profiles of these GM-CSFs were analyzed and compared to purified mouse lung GM-CSF. All the GM-CSFs examined were shown to be gycoproteins since a proportion of the activity (80 to 100%) bound to concanavalin A-Sepharose. The organ-conditioned medium GM-CSFs were purified (3- to 13-fold) by absorption to calcium phosphate gel and chromatography on DEAE-Sepharose (further 2- to 10-fold). Analysis of the DEAE-Sepharose elution profiles indicated that there were two major charge species of GM-CSF eluting at conductivities of 10 and 14 mmho. These partially purified GM-CSFs showed considerable differences in their apparent molecular weights on Sephacryl S-200 (37,000 to 200,000). However, these differences could be eliminated by treating the GM-CSFs with neuraminidase and performing molecular sizing experiments under dissociating conditions (Sepharose CL-6B, 6 M guanidine hydrochloride). Although some of the GM-CSFs showed anomalously high molecular weights (40,000) on gel filtration columns, even under dissociating conditions, this appeared to be due to properties of the sialic acid residues. After neuraminidase treatment all of the conditioned medium GM-CSFs eluted from DEAE-Sepharose as a single peak of biological activity at a conductivity of 10 mmho and from gel filtration columns in the presence of 6 M guanidine hydrochloride as a single molecular weight species of approximately 23,000. GM-CSF from post-endotoxin serum (produced in vivo) eluted from the gel filtration column with an apparent molecular weight of 39,000, but analysis using polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that this GM-CSF also had an apparent molecular weight of 23,000.
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PMID:Similar molecular properties of granulocyte-macrophage colony-stimulating factors produced by different mouse organs in vitro and in vivo. 31 99

Colony-stimulating factors (CSFs) stimulate the differentiation of immature precursor cells to mature granulocytes and macrophages. Purified 125I-labeled murine L cell CSF has been used to develop a radioimmunoassay (RIA) that detects a subclass of CSFs that stimulates macrophage production. Murine CSF preparations that contain this subclass of CSF complete for all of the CSF binding sites on anti-L cell CSF antibody. With the exception of mouse serum, which can contain inhibitors of the bioassay, there is complete correspondence between activities determined by RIA and those determined by bioassay. The RIA is slightly more sensitive than the bioassay, detecting approximately 0.3 fmol of purified L cell CSF. It also detect this subclass of CSF in chickens, rats, and humans. In the mouse, the subclass is distinguished from other CSFs by a murine cell bioassay dose-response curve in which 90% of the response occurs over a 10-fold (rather than a 100-fold) increase in concentration, by stimulating the formation of colonies containing a high proportion of mononuclear (rather than granulocytic) cells, and by certain physical characteristics.
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PMID:Colony-stimulating factor (CSF) radioimmunoassay: detection of a CSF subclass stimulating macrophage production. 31 70


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