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)

We report on a 67-year-old man with Felty's syndrome (FS) complicated by recurrent pneumonia and an infected wound, which was not healing in spite of maximal antibiotic and local therapy. Encouraged by previous experience, we treated him with granulocyte-macrophage colony-stimulating factor (GM-CSF). His total leukocyte count rose, but the patient's pneumonia deteriorated. In addition, a previously known chronic obstructive lung disease (COLD) was exacerbated acutely. These complications finally led to his death. Postmortem examination revealed widespread pneumonia with invasive aspergillosis and a peripheral adenocarcinoma in his left lung.
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PMID:Treatment of neutropenia in Felty's syndrome with granulocyte-macrophage colony-stimulating factor--hematological response accompanied by pulmonary complications with lethal outcome. 145 82

A 12-month-old boy with Kostmann's syndrome was admitted with cavitary pulmonary disease. He had also had bacterial conjunctivitis, periorbital cellulitis, pneumonitis, and otitis media since the age of 10 days. His umbilical cord had not fallen off until he was 3 weeks old. Neutropenia was diagnosed at 4 weeks of age. Antineutrophil antibody studies were negative. A bone marrow aspirate showed granulocytic hypoplasia and a maturation arrest at the promyelocyte stage. Hematopoietic cell culture showed normal numbers of colony-forming units-granulocyte macrophage. Serum granulocyte-macrophage colony-stimulating factor level, was 0.24 ng/mL (normal, greater than 0.05 ng/mL). Serum granulocyte colony-stimulating factor levels, measured by enzyme immunoassay, were undetectable. The patient was successfully treated with filgrastim (granulocyte colony-stimulating factor), with an increase in the absolute neutrophil count to 10.0 x 10(9)/L. Thus, our case of Kostmann's syndrome appears to represent a defect in regulation or production of granulocyte colony-stimulating factor.
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PMID:Measurement of serum granulocyte colony-stimulating factor in a patient with congenital agranulocytosis (Kostmann's syndrome). 171 5

A cDNA coding for murine interleukin-5 (IL-5) was isolated from the EL4.ExC5 cell line. With the exception of a single amino acid substitution at position 79 (Arg----His), it is identical to a published sequence. The coding sequence for human IL-5 was synthesized chemically, allowing the introduction of strategically located restriction enzyme cleavage sites. Both cDNAs were expressed in various eukaryotic systems. Deletion of the 3' untranslated region of the murine IL-5 gene led to a 5- to 10-fold increase in expression in Xenopus laevis oocytes and in NIH-3T3 cells. The highest production, however, was obtained in Sf9 cells using a baculovirus vector. Human IL-5 was obtained from transformed Saccharomyces cerevisiae as a secreted, mature form using an in-frame fusion to the leader sequence of alpha-mating type factor, and was purified to homogeneity. In all cases mentioned, IL-5 was found to be glycosylated, and its biological activity was dependent on a 40- to 50-kD homodimer configuration, linked together by disulfide bridges. Deglycosylation did not affect the biological activity. Recombinant human IL-5 is biologically active on some human B-CLL cells (proliferation in the presence of IL-2) and on murine BCl1 cells (proliferation) at a low specific activity (about 1-2 x 10(3) U/mg) and on human eosinophils (eosinophil peroxidase assay) at a high specific activity (at least 5 x 10(6) U/mg). Recombinant murine IL-5 from Sf9 cells has a specific activity of 1-2 x 10(7) U/mg in the BCl1 proliferation assay. An additive effect is seen in the presence of murine granulocyte-macrophage colony-stimulating factor (GM-CSF) and a synergistic effect in the presence of murine IL-4.
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PMID:Expression of human and murine interleukin-5 in eukaryotic systems. 267 Apr 97

Both interleukin 3 (IL-3) and granulocyte-macrophage colony-stimulating factor (GM-CSF) induce increased histamine production by murine hemopoietic cells. Histidine-free culture conditions or addition of alpha-fluoromethylhistidine, an irreversible inhibitor of histidine decarboxylase, completely abrogate this phenomenon, indicating that increased histamine levels result from an augmentation of the rate of its synthesis. L-Histidine decarboxylase (HDC) (EC 4.1.1.22) activity is detected in normal bone marrow cell lysates. It is markedly increased following incubation of the cells with IL-3 or GM-CSF. The cells responding by the most important enhancement of HDC activity are located in the less dense layers of a discontinuous Ficoll gradient containing the majority of the hemopoietic progenitor cell types, such as colony-forming units (spleen), granulocyte-macrophage colony-forming cells, and mast cell precursors. In comparison with other HDC-containing cell populations tested, the enzymatic activity contained in these cells is particularly high after IL-3 or GM-CSF treatment and similar to the HDC levels observed in murine fetal liver. The time course of IL-3 and GM-CSF-induced HDC activation at comparable concentrations is slightly different. In response to GM-CSF, HDC activation is more rapid, with a significant enhancement after 4 hr of incubation, as compared with IL-3-induced HDC activation. Moreover, in the latter case the activation increases more progressively up to 48 hr of incubation, whereas GM-CSF-induced increase of HDC activity reaches a plateau more rapidly. In addition, maximal increase in histamine production in response to IL-3 is always higher than in response to GM-CSF. Moreover, the simultaneous presence of both factors at optimal concentration induces only a partially cumulative effect. These results suggest that IL-3 and GM-CSF induce HDC activation in two distinct ways, possibly reflecting the involvement of distinct target cells. However, both mediators act by inducing the transcription of the HDC gene and de novo synthesis of this enzyme since actinomycin D or cycloheximide abolish GM-CSF-or IL-3-induced histamine-producing cell-stimulating activity. This synthesis is independent from cell proliferation as demonstrated by the lack of effect of bone marrow cell irradiation. Finally, the observation that cholera toxin, prostaglandin E2, and N6,2'-O-dibutyryl adenosine 3',5'-cyclic monophosphate mimic the effects of IL-3 and GM-CSF on bone marrow cell HDC suggests an involvement of cyclic adenosine monophosphate in factor-induced histamine-producing cell-stimulating activity.
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PMID:Histamine-producing cell-stimulating activity. Interleukin 3 and granulocyte-macrophage colony-stimulating factor induce de novo synthesis of histidine decarboxylase in hemopoietic progenitor cells. 282 13

A male neonate with Down's syndrome and congenital myeloproliferative disorder was studied. His blood picture showed the unique coexistence of leukocytosis with matured cells and a large number of blast cells. The in vitro proliferation and differentiation of blast cells into various lineages in the presence of phytohemagglutinin-stimulated leukocyte conditioned medium (PHA-LCM) was examined by using a liquid culture and a methylcellulose culture system. The differentiation of blast cells into myeloid cells was confirmed by specific cytochemical stainings, electron microscopy, and an immunologic study. No specific factors in the plasma of the patient promoted the proliferation or differentiation of blast cells. The cellular composition of colonies grown in methylcellulose culture from single blast cells was studied by a micromanipulation technique. High plating efficiency was observed. Of 136 cultures, 78 showed colony growth. Half of the blast cells were colony-forming cells that could proliferate and differentiate into basophils, neutrophils, eosinophils, macrophages, and erythrocytes in the presence of PHA-LCM. Using the blast cells with a high differentiation capacity to the basophil pathway, we studied the effect of recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF). Recombinant GM-CSF support neutrophils, eosinophils, and macrophages but not typical basophils. These findings of the cell differentiation of blast cells into various kinds of cells in vitro were in agreement with the finding of neutrophilia, eosinophilia, basophilia, and thrombocythemia in this patient.
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PMID:Differentiation of blast cells from a Down's syndrome patient with transient myeloproliferative disorder. 294 80

The ability of granulocyte-macrophage colony-stimulating factor (CSF-H) to modulate human neutrophil functions was studied by using an in vitro system in which this cell type interacted with intracellular (amastigote [AMA]) forms of Trypanosoma cruzi. The presence of CSF-H during the 30-min period of neutrophil incubation with the AMA markedly enhanced parasite internalization. This effect was evidenced by significant increases in both the percentage of neutrophils incorporating AMA and the average number of AMA per 100 neutrophils with respect to mock-treated neutrophils. Pretreatment of the neutrophils with CSF-H reproduced the enhancement effect, whereas pretreatment of the AMA had no detectable consequence. The minimal neutrophil CSF-H pretreatment period required to significantly increase the number of AMA per 100 neutrophils was 20 min--suggesting that CSF-H induced time-dependent events ultimately leading to the manifestation of the noted effect--but neutrophil treatment with CSF-H for longer periods of time (up to 60 min) caused a much greater enhancement. Consistent with the notion of a regulatory action of CSF-H on neutrophils was the fact that the enhancing effect subsided gradually after removal of the factor and was no longer detectable after 16 hr. When 3H-labeled AMA were used, CSF-H-treated neutrophils released greater amounts of radiolabeled substances than mock-treated cells, indicating a stimulatory effect of CSF-H on the killing capacity of neutrophils. This was confirmed by the fact that untreated neutrophils that had internalized 3H-AMA killed the parasites at a faster rate when subsequently incubated with CSF-H. Catalase, but not superoxide dismutase, mannitol, benzoate, or histidine, inhibited neutrophil killing of the 3H-AMA whether the granulocytes had been exposed to CSF-H or not. This indicated that the cytotoxic mechanism involved the production of hydrogen peroxide in both cases, but possibly at a higher rate in the CSF-H-treated neutrophils. These results point to a regulatory effect of CSF-H on neutrophils that promotes cellular activities that might be relevant to the mechanisms of clearance of T. cruzi in vivo.
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PMID:Effects of human colony-stimulating factor on the uptake and destruction of a pathogenic parasite (Trypanosoma cruzi) by human neutrophils. 352 88

High-affinity receptors for granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin 3, and interleukin 5 consist of ligand-specific alpha chains (low-affinity subunits) and a common beta chain (beta c) that converts each complex to a high-affinity form. Although beta c alone has no detectable cytokine-binding activity, amino acid substitutions for Glu-21 of human GM-CSF significantly reduce high-affinity but not low-affinity binding, implying that beta c interacts directly with GM-CSF during formation of the high-affinity receptor but only in the presence of the alpha chain. A potential GM-CSF-binding determinant was identified in the second hemopoietin domain of beta c, and the role of individual residues within this region was investigated by determining the ability of mutated beta c chains to confer high-affinity binding when coexpressed with the alpha subunit of the GM-CSF receptor in COS cells. Substitutions involving Met-363, Arg-364, Tyr-365, and Glu-366 did not affect high-affinity binding. However, substitution of His-367 by lysine or glutamine abolished high-affinity binding, suggesting that this residue may form an important part of the high-affinity GM-CSF-binding determinant. Consistent with the loss of high-affinity binding, higher concentrations of human GM-CSF were required to stimulate proliferation of CTLL-2 cell lines transfected with cDNAs for GM-CSF receptor alpha chain and His-367 beta c mutant than those expressing GM-CSF receptor alpha subunit and beta c wild type.
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PMID:Histidine-367 of the human common beta chain of the receptor is critical for high-affinity binding of human granulocyte-macrophage colony-stimulating factor. 827 75

The expression of galectin-3 (formerly known as IgE-binding protein or Mac-2) in rat bone marrow (BM) was investigated by FACS, immunocytochemical and immunoblot analysis. The functional significance of rat recombinant galectin-3 on mouse recombinant granulocyte-macrophage colony-stimulating factor (GM-CSF)-driven proliferation of macrophage progenitors and gene transcription was further examined. Immunocytochemical analysis of in situ BM sections demonstrated galectin-3 in myelopoietic cells and surrounding stroma, whereas erythropoietic and lymphopoietic environments essentially lacked galectin-3 expression. FACS analysis demonstrated that incubation of freshly isolated BMC with lactose, a competing ligand for galectin-3 binding to glycoconjugates, decreased binding of antigalectin antibodies to cells primarily expressing the myeloid antigen recognized by mAb His-54. Similarly, lectin-mediated binding of exogenous galectin-3 to myeloid lineage cells was also demonstrated. Immunoblot analysis of BM eluates demonstrated galectin-3 both in the extracellular matrix and in a lactose elutable form, bound to the surface of BMC. [3H]Thymidine incorporation studies on BMC cultured in the presence of galectin-3 demonstrated suppression of GM-CSF-induced proliferation by galectin-3. In addition, differential display analysis of immediate early gene expression in BMC cultured in the presence of galectin-3 revealed a 76.2% inhibition of GM-CSF-induced gene transcription by galectin-3 assessed by the number of PCR-fragments generated. Our data suggest a role for galectin-3 in the organization of myelopoietic compartments in rat BM and regulation of the action of growth factors on myelopoietic precursor cells.
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PMID:Galectin-3 inhibits granulocyte-macrophage colony-stimulating factor (GM-CSF)-driven rat bone marrow cell proliferation and GM-CSF-induced gene transcription. 924 34

An analogue of the human granulocyte-macrophage colony-stimulating factor (hGM-CSF), hGM-CSF(13-27)-Gly-(75-87) was synthesized by solid phase methodology. This analogue was designed to comprise helices A and C of the native growth factor, linked by a glycine bridge. Helices A and C form half of a four-helix bundle motif in the crystal structure of the native factor and are involved in the interaction with alpha- and beta-chains of the heterodimeric receptor. A conformational analysis of the synthetic analogue by CD, two-dimensional nmr spectroscopy, and molecular dynamics calculations is reported. The analogue is in a random structure in water and assumes a partially alpha-helical conformation in a 1 : 1 trifluoroethanol/water mixture. The helix content in this medium is approximately 70%. By 2D-nmr spectroscopy, two helical segments were identified in the sequences corresponding to helices A and C. In addition to medium- and short-range NOESY connectivities, a long-range cross peak was found between the Cbeta proton of Val(16) and NH proton of His(87) (using the numbering of the native protein). Experimentally derived interproton distances were used as restraints in molecular dynamics calculations, utilizing the x-ray coordinates as the initial structure. The final structure is characterized by two helical segments in close spatial proximity, connected by a loop region. This structure is similar to that of the corresponding domain in the x-ray structure of the native growth factor in which helices A and C are oriented in an antiparallel fashion. The N-terminal residues Gly-Pro of helix C are involved in an irregular turn connecting the two helical segments. As a consequence, helix C is appreciably shifted and slightly rotated with respect to helix A compared to the x-ray structure of the native growth factor. These small differences in the topology of the two helices could explain the lower biological activity of this analogue with respect to that of the native growth factor.
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PMID:Design, synthesis, and conformational studies of the hGM-CSF derived peptide (13-27)-Gly-(75-87). 1047 37

Granulocyte-macrophage colony-stimulating factor (GM-CSF) controls growth and differentiation of hematopoietic cells. Previous reports have indicated that the mitogenic activity of GM-CSF may be modulated by the glycosidic moiety of proteoglycans associated with the membrane of stromal cells. In this work, we have performed in vitro studies of the interaction between GM-CSF and glycosaminoglycans. The addition of heparin promoted a marked blue shift in the fluorescence emission spectrum of GM-CSF as well as a 30-fold increase in the intensity of light scattering, which indicates formation of large molecular weight complexes between the two molecules. Interestingly, heparin-induced changes in the spectral properties of GM-CSF were only observed at acidic pH. The dependence on acidic pH, together with a strict dependence on glycosaminoglycan sulfation and the fact that high ionic strength destabilized the interaction, indicates that the association between GM-CSF and glycosaminoglycans is mediated by electrostatic interactions. These interactions probably involve sulfate groups in the glycosaminoglycans and positively charged histidine residues in GM-CSF. We propose that negatively charged glycolipids present on the plasma membrane of the hematopoietic and/or the stromal cell could promote an acidic microenvironment capable of triggering interaction between GM-CSF and membrane-bound proteoglycans in vivo.
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PMID:Acidic pH modulates the interaction between human granulocyte-macrophage colony-stimulating factor and glycosaminoglycans. 1053 49


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