UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Stimulated human peripheral blood mononuclear cells (MNC) have been shown to express both G-CSF and GM-CSF, Furthermore, G-CSF is expressed by monocytes but not lymphocytes, whereas GM-CSF is expressed largely by T lymphocytes and at low levels in monocytes/macrophages, Here we present the effect of TPA (120-O-tetradecanoyl phorbol-13-acetate) on G-CSF and GM-CSF expression in stimulated human MNCs and T lymphocytes. We observed that TPA (30nM) decreased G-CSF mRNA levels in MNCs, while ionomycin increased G-CSF in a dose-dependent manner. TPA and ionomycin individually increased GM-CSF mRNA levels in T-lymphocytes and MNCs. Further, GM-CSF was induced synergistically by TPA plus ionomycin, whereas this combination markedly decreased G-CSF mRNA levels in MNCs. These data suggest at least two signaling pathway by which G-CSF and GM-CSF and GM-CSF mRNA levels are modulated in a mixed population of monocytes and T lymphocytes, namely protein kinase C (PKC) and calcium. These signals seems to act synergistically in lymphocytes to increase GM-CSF, and not G-CSF mRNA levels specifically. It would also appear these signals act on MNCs in an opposing manner to decrease G-CSF mRNA levels, indicating that activation of PKC and the calcium signaling pathway lead to a cell-type specific modulation of individual cytokines and precise regulation of granulocyte production.
Blood Cells Mol Dis 1995
PMID:Expression of granulocyte colony stimulating factor (G-CSF) and granulocyte/macrophage colony stimulating factor (GM-CSF) mRNA upon stimulation with phorbol ester. 867 71

The three-dimensional structure and backbone dynamics of a truncated and multiply substituted recombinant human interleukin-3 (IL-3) variant (SC-65369) have been determined from multidimensional heteronuclear nuclear magnetic resonance spectroscopic data. Sequential application of distance geometry and restrained molecular dynamics calculations produced a family of 25 convergent structures which satisfy a total of 1812 experimental constraints (1659 proton-proton NOEs, 75 backbone dihedral angle constraints, and 39 pairs of hydrogen bond constraints) with an average root-mean-square deviation from the mean coordinate positions of 0.88(+/- 0.15) angstroms and 1.37(+/- 0.13) angstroms for the backbone and all heavy atoms, respectively, of all residues except 28 to 39. The structure is a left-handed four-helix bundle (comprised of helices A through D) with two long overhand loops (designated as loops AB and CD). Loop AB contains a short fifth helix (helix A') which is closely packed against helix D in an approximately parallel fashion and which has multiple contacts with loop CD. The overall molecular tumbling time (6.5 ns) determined from the 15N relaxation data was consistent with a monomeric protein under the conditions of the experiment (1 mM protein, pH 4.6, 30 degrees C). The 15N relaxation data indicate that the helical regions of SC-65369 are quite rigid, while portions of loop AB, loop CD, and the C terminus undergo significant internal motions. Among the structurally related four-helical bundle cytokines, the structure of SC-65369 is most similar to those of granulocyte-macrophage colony stimulating factor (GM-CSF) and the single structural domain of interleukin-5 (IL-5), all of which share a common receptor subunit required for signal transduction and activation of their hematopoietic target cells. Indeed, the C(alpha) atoms in the four-helix core of these three proteins can be superimposed to 1.71 angstroms (SC-65369 and GM-CSF, 62 C(alpha) atoms) and 1.96 angstroms (SC-65369 and IL-5 single structural domain, 58 C(alpha) atoms), respectively. When the structures of the IL-3 variant, GM-CSF, and IL-5 were aligned, the conserved and conservatively substituted residues were found to be hydrophobic and buried, with the single exception of Glu-22 (IL-3 numbering), which is strictly conserved but nonetheless fully exposed to solvent. The most remarkable differences between the SC-65369 structure and that of GM-CSF occur in loop AB. This loop in GM-CSF crosses over the top of helix D and passes underneath loop CD on its way to helix B. In contrast, loop AB of SC-65369 passes in front of helix D, similar to the first crossover loop in human growth hormone and granulocyte colony-stimulating factor. In addition, helix A', which is interdigitated into the helical bundle in a manner similar to the helices in the CD loop of interferon-beta and interferon-gamma, exists in a region where short stretches of beta-structure are found at analogous positions in GM-CSF and IL-5. These differences suggest that the structural elements within this region may be important for recognition by their cognate receptors.
J Mol Biol 1996 Jun 14
PMID:Three-dimensional solution structure and backbone dynamics of a variant of human interleukin-3. 867 86

GM-CSF is an important mediator of hematopoiesis and its dysregulation may play a role in neoplastic and inflammatory conditions. Previous studies have demonstrated that GM-CSF production depends upon the accumulation of specific mRNA, which occurs by transcriptional and post-transcriptional mechanisms. In order to dissect the cis-acting sequences responsible for its regulation, we performed an extensive mutagenesis study spanning 54 nucleotides 5' of the GM-CSF coding region. Our analysis suggests that the previously-described functional elements of the GM-CSF promoter, kappa B and a repetitive CATTT/A motif, the former co-exists with an overlapping 9 nucleotide site which silences promoter activity, and the CATTT/A complex binds multiple polypeptides which differentially contribute to basal and inducible promoter activity. These two sites interact to provide tissue-appropriate and stimulus-specific promoter function. Using DNA-protein cross-linking and co-transfection studies, we demonstrate that the c-rel-related proteins p65 and p50 bind to the GM-CSF promoter and that p65 binding is primarily responsible for the enhancing effects at this site. In addition, we show that the GM-CSF kappa B decanucleotide is inadequate to provide full binding affinity; mutation of nucleotides flanking this site affect promoter function by altering NF-kappa B binding affinity. Together these results suggest that the transcriptional response of GM-CSF is dependent on a complex interplay of multiple DNA binding proteins.
Mol Immunol
PMID:The regulation of GM-CSF is dependent on a complex interplay of multiple nuclear proteins. 867 97

A central factor in the pathogenesis of inflammatory and fibrotic lung disease (adult respiratory distress syndrome, sarcoidosis, idiopathic pulmonary fibrosis) is the locally elevated number of alveolar macrophages (AM). An elevation in the production rate of AM, chemoattraction and differentiation of monocytes, or a diminution in the death rate might be underlying mechanisms. The aim of the present study was to investigate the modulatory role of endotoxin and cytokines on the death rate of human AM. Lipopolysaccharide (LPS) treatment resulted in a 4-fold increase (7.6 to 30.2%) of AM death. AM death was apoptotic as assessed by in situ DNA end labeling (ISDE), transmission electron microscopy, DNA gel electrophoresis, fluorometry of fragmented DNA, and an ELISA specific for histone-associated DNA fragments. Among the different bacterial cell wall components tested, LPS was the only inducer of apoptosis in human AM. None of the tested cytokines (interleukin-1 beta [IL-1 beta], IL-4, IL-6, IL-10, tumor necrosis factor-alpha [TNF-alpha], transforming growth factor-beta 2 [TGF-beta 2], interferon-gamma [IFN-gamma], macrophage colony-stimulating factor [M-CSF], granulocyte colony-stimulating factor [G-CSF], and granulocyte-macrophage colony-stimulating factor [GM-CSF]) was capable of enhancing the spontaneous rate of apoptosis. However, LPS-induced apoptosis was significantly enhanced by the macrophage-activating cytokine IFN-gamma, and reduced by the macrophage-deactivating cytokines IL-4, IL-10, and TGF-beta.
Am J Respir Cell Mol Biol 1996 Jul
PMID:Apoptosis in human alveolar macrophages is induced by endotoxin and is modulated by cytokines. 867 23

The zinc finger protein NGFI-A (also called EGR1, Krox24, or zif268) is a candidate regulator of myeloid cell differentiation. Evidence supporting this hypothesis is twofold. First, NGFI-A antisense oligonucleotides prevent macrophage differentiation in HL-60 and U937 myeloid leukemia cell lines and in normal bone marrow cells. Second, enforced expression of NGFI-A blocks granulocytic differentiation and promotes macrophage differentiation in HL-60 cells and in the hematopoietic progenitor cell line 32D. We sought to determine the effect of NGFI-A deficiency on macrophage differentiation and function in vivo by examining native bone marrow cells from mice homozygous for a disrupted allele of NGFI-A derived from gene-targeted ES cells. Macrophages were observed in peripheral blood and several tissues, indicating that NGFI-A was not required for the formation of a variety of macrophage compartments. No differences in myeloid cell differentiation were observed between wild-type and NGFI-A-/- bone marrow cells cultured in the presence of macrophage, granulocyte-macrophage, or granulocyte colony-stimulating factor (M-CSF, GM-CSF, or G-CSF). Activation of NGFI-A-/- macrophages was comparable to that of wild-type macrophages as determined by nitric oxide production and increased cell surface expression of class II major histocompatibility complex molecules. Moreover, NGFI-A-/- mice showed no increased mortality or bacteria] burden when challenged with Listeria monocytogenes. Together, these results indicate that NGFI-A is not required for macrophage differentiation or activation.
Mol Cell Biol 1996 Aug
PMID:Unimpaired macrophage differentiation and activation in mice lacking the zinc finger transplantation factor NGFI-A (EGR1). 875 57

Mobilized peripheral blood hematopoietic progenitor cells obtained from cancer patients treated with high-dose cyclophosphamide (7g/m2) followed by G-CSF, GM-CSF, IL-3, PIXY321, or combinations of these cytokines have been successfully used for autologous stem cell transplantation. We investigated the ability of hematopoietic progenitor cells (HPC) derived from mobilized peripheral blood (PB) to undergo ex vivo expansion in short term cultures by enumerating numbers of de novo generated CD34+ cells, assayable progenitor cells, and the frequency of long-term hematopoietic culture-initiating cells (LTHC-IC). These parameters were examined in CD34+ cells generated in culture through the use of cell tracking with the membrane dye PKH2. Fresh isolated mobilized CD34+ cells contained 0.49 +/- 0.36% LTHC-IC. However, due to the high number of total CD34+ cells in mobilized PB, the absolute number of LTHC-IC was higher than that contained in a bone marrow (BM) harvest. Mobilized CD34+ cells were stained with PKH2 and incubated with SCF, IL-3, and IL-6. After 5 to 6 days, numbers of total CD34+ cells and clonogenic progenitors increased 1.4- and 2.2-fold, respectively. Numbers of total progenitors continued to increase such that 10 to 12 days after the initiation of cultures a 6.4-fold increase was demonstrable. However, between days 5 and 7 of culture, the frequency of LTHC-IC in CD34+PKH2bright cells (cells which did not divide) was less than 50% of that determined for fresh cells, while the frequency among CD34+PKH2dim cells (cells that had divided) was very low or undetectable. However, moderately higher frequencies of LTHC-IC were detected following expansion for 48 hours only. In similar assays, both BM and cord blood cells were capable of generating LTHC-IC in CD34+PKH2dim cells but not to expand the overall number of these progenitors. These observations suggest that although mobilized PB CD34+ cells contain large numbers of LTHC-IC, these cells might not be capable of further ex vivo expansion and generation of additional LTHC-IC in vitro. Furthermore, these data indicate that mobilized PB CD34+ cells may have undergone maximal "in vivo expansion" such that additional ex vivo expansion of primitive progenitor cells may not be possible.
Blood Cells Mol Dis 1996
PMID:Long-term hematopoietic culture-initiating cells are more abundant in mobilized peripheral blood grafts than in bone marrow but have a more limited ex vivo expansion potential. 880 87

This report demonstrates that GM-CSF induces the tyrosine phosphorylation of Shc protein which is implicated in Ras activation. Three isoforms of Shc are ubiquitously phosphorylated induced by GM-CSF in TF-1, a cell line of erythroid origin. It is also shown that Shc is associated with the adaptor protein Grb2. The formation of Shc-Grb2 complex may directly link tyrosine phosphorylation events to Ras activation in TF-1 cells.
Biochem Mol Biol Int 1996 Aug
PMID:GM-CSF induces the tyrosine phosphorylation of three isoforms of Shc and its association with Grb2 in TF-1 cell. 886 25

Growth factors are commonly included in protocols for the treatment of acute myeloblastic leukemia (AML). Because the response of blast stem cells in culture to growth factors might influence the contribution of factor to clinical outcome, we studied 42 patients with AML or severe myelodysplasia. Peripheral blood blast cells were cultured in a clonogenic assay at three cell concentrations and with the following combinations of growth factors: no added growth factor (NF), G-CSF, GM-CSF, Kit ligand (KL), G-CSF + KL, GM-CSF + KL, and G-CSF + GM-CSF + KL. The slope of the line relating cell number plated to colony formation was calculated by least squares. The slopes were used to form three equally sized groups of patients. Marked heterogeneity was found in response of the blast populations to factor. A few general conclusions emerged: (1) autonomous blast populations are very rare; (2) although usually a population responds better to one of the growth factors than to others, seldom is the response exclusively to one factor; (3) when more than one factor is included in the cultures, synergism is usually seen. Significant associations were seen between successful remission induction for low slope values in cultures with NF or KL alone. For remission, but not survival, associations were found with intermediate values of slope in cultures with G-CSF + KL and GM-CSF + KL. We conclude that measurements of growth factor response are feasible and yield clinically useful data.
Hematopathol Mol Hematol 1996
PMID:Response of the blast stem cells of acute myeloblastic leukemia to G-CSF, GM-CSF, or the ligand for C-KIT, alone or in combination. 887 30

Breast feeding improves the health of children. The greatest significance is to host defense, prevention of autoimmunity, and development of the digestive system; however, the underlying mechanisms for these effects are not well understood. Based on recent evidence that cytokines might be important in these processes, we have used ELISA to quantitate the cytokines in human colostrum, transitional, and mature milk from mothers delivering preterm or at term. We also used reverse transcription PCR to test breast milk cells for the production of cytokine mRNA. No significant (< 10 pg/ml) GM-CSF, SCF, LIF, MIP-1 alpha, IL-2, IL-4, IL-11, IL-12, IL-13, IL-15, sIL-2R, or IFN-gamma was detected. And, in contrast to earlier studies using bioassays or RIA, no significant IL-1 beta, TNF-alpha, or IL-6 was present; nor was IL-10, which had been tested using less specific antibodies. We did confirm the presence of high levels of M-CSF, which remained high throughout lactation. Human milk contained latent, but not free, TGF-beta 1, and especially TGF-beta 2, both of which may be activated by gastric acid pH. High levels of IL-1RA were detected, and like activated TGF-beta, may protect against autoimmunity. Chemokines, particularly GRO-alpha and MCP-1, but also RANTES and IL-8, were present and could protect against infection. Maternal cells in breast milk expressed mRNA for MCP-1 (20/20), IL-8 (14/20), TGF-beta 1 (14/16), TGF-beta 2 (4/6), M-CSF (9/12), IL-6 (6/12) and IL-1 beta (7/12), and may be a source of these cytokines. mRNA for IL-2, IL-10, IFN-gamma, TNF-alpha was not detected and only weak expression was found for RANTES (1/18). There was considerable variability between individual women, and women delivering preterm had lower levels of several cytokines in colostrum than women delivering at term. Yet, cytokine levels remained high months to years into lactation, providing immunological benefit to the breastfed infant/child.
Res Commun Mol Pathol Pharmacol 1996 Sep
PMID:Cytokines in human milk. 889 39

The normal proto-oncogene c-fms encodes the macrophage growth factor (M-CSF) receptor involved in growth, survival, and differentiation along the monocyte-macrophage lineage of hematopoietic cell development. A major portion of our research concerns unraveling the temporal, molecular, and structural features that determine and regulate these events. Previous results indicated that c-fms can transmit a growth signal as well as a signal for differentiation in the appropriate cells. To investigate the role of the Fms tyrosine autophosphorylation sites in proliferation vs. differentiation signaling, four of these sites were disrupted and the mutant receptors expressed in a clone derived from the myeloid FDC-P1 cell line. These analyses revealed that: (1) none of the four autophosphorylation sites studied (Y697, Y706, Y721, and Y807) are essential for M-CSF-dependent proliferation of the FDC-P1 clone; (2) Y697, Y706, and Y721 sites, located in the kinase insert region of Fms, are not necessary for differentiation but their presence augments this process; and (3) the Y807 site is essential for the Fms differentiation signal: its mutation totally abrogates the differentiation of the FDC-P1 clone and conversely increases the rate of M-CSF-dependent proliferation. This suggests that the Y807 site may control a switch between growth and differentiation. The assignment of Y807 as a critical site for the reciprocal regulation of growth and differentiation may provide a paradigm for Fms involvement in leukemogenesis, and we are currently investigating the downstream signals transmitted by the tyrosine-phosphorylated 807 site. In Fms-expressing FDC-P1 cells, M-CSF stimulation results in the rapid (30 sec) tyrosine phosphorylation of Fms on the five cytoplasmic tyrosine autophosphorylation sites, and subsequent tyrosine phosphorylation of several host cell proteins occurs within 1-2 min. Complexes are formed between Fms and other signal transduction proteins such as Grb2, Shc, Sos1, and p85. In addition, a new signal transduction protein of 150 kDa is detectable in the FDC-P1 cells. The p150 is phosphorylated on tyrosine, and forms a complex with Shc and Grb2. The interaction with Shc occurs via a protein tyrosine binding (PTB) domain at the N-terminus of Shc. The p150 is not detectable in Fms signaling within fibroblasts, yet the PDGF receptor induces the tyrosine phosphorylation of a similarly sized protein. In hematopoietic cells, this protein is involved in signaling by receptors for GM-CSF, IL-3, KL, MPO, and EPO. We have now cloned a cDNA for this protein and found at least one related family member. The related family member is a Fanconia Anemia gene product, and this suggests potential ways the p150 protein may function in Fms signaling.
Mol Reprod Dev 1997 Jan
PMID:Growth and differentiation signals regulated by the M-CSF receptor. 898 70

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