UNIPROT:P15088 - FACTA Search

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Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin 3 (IL-3) is a regulatory glycoprotein required for the proliferation and differentiation of cells from many if not all hemopoietic lineages. With the emergence of the competence-progression model of cell proliferation, which predicts that growth factors function at specific stages of the cell cycle, we examined the possibility that IL-3 functions at a specific stage of the cell cycle. C-63 cells were developed as a cell line from normal murine bone marrow. They have a mast cell phenotype and require pokeweed-stimulated spleen cell-conditioned medium (CM), a rich source of IL-3, for their continued growth. Exponentially growing cells were transferred from growth medium, which contains CM, to medium lacking CM or IL-3. After 24 hours, cell viability had decreased 40-50%. The remaining viable cells did not incorporate 3H-thymidine, and displayed a single peak at G1 in a DNA histogram. Restimulation of these cells with CM or IL-3 resulted in a dramatic rise in 3H-thymidine uptake 20-24 hours after restimulation. DNA histograms of restimulated cultures indicated that the cells were progressing in a wave-like fashion throughout the remainder of the cell cycle. The length of time necessary for cells to be in contact with CM or IL-3 before they could progress into the remainder of the cell cycle was also examined. Cells incubated with CM or IL-3 for less than 16 hours could not progress into S phase, whereas cells incubated for 16 hours or longer could progress into S phase and through the remainder of the cell cycle. These data suggest that IL-3 exerts its function at a specific stage of the cell cycle.
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PMID:Interleukin 3 and cell cycle progression. 308 27

C5a is an 11,000-Da complement-derived inflammatory glycoprotein that has been shown to mediate inflammatory reactions in vitro as well as in vivo in human skin. The C5a degradation product, C5a des Arg, is rapidly formed after exposure of C5a to serum carboxypeptidase N and may represent the relevant C5-derived inflammatory peptide in vivo. To examine the biologic activity of human C5a des Arg in vivo and to compare it with that seen with human C5a, we purified and characterized homogeneous preparations of human C5a and C5a des Arg and injected them intradermally into seven normal volunteers. C5a des Arg exhibited biochemical and biologic properties in vitro that were different from those of C5a. When injected into human skin, C5a des Arg was less potent than C5a, in respect to both minimal dose eliciting wheal and flare reactions and maximal wheal and flare elicited at a given dose, but C5a des Arg still elicited cutaneous wheal and flare reactions at physiologically relevant concentrations. Histologically, C5a des Arg skin test sites showed dense polymorphonuclear neutrophil-rich infiltrates associated with leukocytoclasis, dermal mast cell degranulation, and endothelial cell swelling. These were virtually indistinguishable from reactions elicited by C5a and occurred with concentrations attainable in vivo. Cutaneous wheal and flare reactions elicited by either C5a or C5a des Arg were partially inhibited by H1 antihistamines but were unaffected by selected nonsteroidal anti-inflammatory agents.
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PMID:A direct in vivo comparison of the inflammatory properties of human C5a and C5a des Arg in human skin. 335 4

The relationship of mast cells (MCs) to other blood leucocytes, and to basophils in particular, is unclear. The relative distribution and abundance of cell surface glycoproteins of normal and neoplastic blood cells has been established as providing a "fingerprint" allowing assignment to a particular hemopoietic cell lineage. We have examined the major labeled glycoproteins of mast cells, basophils, HL-60 cells (granulocytic), and U937 cells (monocytic), after cell surface tritiation by the periodate-borohydride technique. Mast cells have a characteristic glycoprotein profile, different from that of basophils and other leukocytes; a major feature is the lack of the gp105-115 molecular weight band common to all other white blood cells. The data suggest that the tissue mast cell is more distantly related to other hemopoietic cells than has been previously recognized.
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PMID:Cell membrane glycoproteins of human mast cells: a biochemical comparison with basophils. 346 11

Haematopoiesis is a dynamic process in which differentiated blood cells are regularly replaced by the proliferation and differentiation of stem cells. Two types of haematopoietic stem cells (HSC) can be distinguished: totiopotent HSC capable of giving rise to cells of all haematopoietic lineages, and pluripotent HSC capable of giving rise only to the myeloid lineages. HSC are characterized by their capacity for self-renewal and differentiation in committed stem cells determined towards one of the haematopoietic lineages. These committed stem cells, also named progenitor cells or colony-forming units (CFU), have the capacity to give rise, in semi-solid medium, to colonies composed of differentiated cells. It has recently been shown that mast cells originate from a pluripotent HSC and that CFU Baso/Masto can be detected from murine and human bone marrow and blood cells. The in vivo regulation of the proliferation and differentiation of HSC is not well known. Several studies have emphasized the role of the haematopoietic microenvironment and of long- and short-range factors in such regulation. The in vitro growth of HSC is strictly dependent on growth factors, also named CSF (colony-stimulating factors) and interleukin (IL), in particular IL3. IL3 is a glycoprotein which induces the proliferation and differentiation of pluripotent and committed HSC and which seems to have a preferential role in mast cell regulation.
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PMID:Organization of haematopoietic stem cells and their relationship to mastocytopoiesis. 354 65

Human nasal turbinates were cultured in the presence of 3H-glucosamine, which is incorporated into nasal mucous glycoproteins. Nasal mucous glycoprotein was then characterized biochemically, and the effects of various neurohormones and immunologic stimulation on mucous glycoprotein release were analyzed. Fractionation of nasal mucous glycoprotein by gel filtration chromatography revealed a molecular size range of 2 to 200 X 10(5) (as judged by protein markers) but displayed a single, acidic charge, as reflected both in a narrow elution pattern from DEAE-cellulose and a sharp isoelectric focusing point of 2.6. Highly enriched nasal mucous glycoprotein preparations consisted of 80 per cent carbohydrate and 20 per cent protein (by weight) and included enzymatically cleavable carbohydrate side chains with molecular weights of 1,600 to 1,800. Thus, nasal mucous glycoproteins are a family of molecules that express uniform acidic charge characteristics and a wide range of molecular sizes. Cholinergic stimulation of atropine-inhibitable muscarinic receptors increased nasal mucous glycoprotein release in a dose-related manner, as did alpha-adrenergic stimulation. However, beta-adrenergic stimulation did not affect mucous glycoprotein release. Immunologic stimulation of nasal mast cells by either reversed anaphylaxis or antigen challenge after passive sensitization caused both histamine release and increased mucous glycoprotein release. Thus, nasal turbinates provide an accessible source of tissue for the analysis of nasal mucus secretion and mast cell degranulation and may provide a model for the study of pharmacologic approaches to the universally experienced discomfort of rhinorrhea.
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PMID:Analysis of human nasal mucous glycoproteins. 620 99

Several biological phenotypes of growth factor-dependent cell lines have been described in recent years, including those with T lymphocyte, neutrophil granulocyte, basophil/mast cell, B lymphocyte, and multipotential stem cell properties. The growth factors for each cell lineage are a subject of intense study. Continuous mouse bone marrow cultures infected with RNA type C viruses (retroviruses) produce nonadherent hematopoietic cells over a longer duration than control cultures. Marrow cultures derived from strains with spontaneously induced ecotropic endogenous retrovirus demonstrate a greater longevity than those from strains with no replicating virus. Cultures infected with murine leukemia virus also generate a greater number, compared with controls, of cloned permanent suspension cell lines dependent for growth on a 41,000-dalton glycoprotein (interleukin 3 [IL 3]). Some are multipotential with capacity for differentiation to erythroid, neutrophil, eosinophil, and basophil/mast cell types. Other cloned IL 3-dependent cell lines are committed to a single pathway. Studies with Friend spleen focus-forming virus indicate that the first effect in the marrow culture is mediated through a subset of adherent hematopoietic stem cells. Bone marrow culture-derived IL 3-dependent cell lines provide a model with which to study the role of viral genes in the control of differentiation and self-renewal capacity of hematopoietic stem cells.
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PMID:Interleukin 3-dependent hematopoietic progenitor cell lines. 630 32

Six patients exhibiting severe pancytopenia or overt leukemia associated with myelofibrosis after chemotherapy for malignant disease have been investigated by immunologic techniques and ultrastructural cytochemistry. Initially, five patients displayed severe thrombocytopenia contrasting with mild neutropenia and anemia. Bone marrow biopsies showed a clear megakaryocytic proliferation and an excess of immature mononuclear cells. The demonstration of peroxidase activities at the ultrastructural level and immunofluorescence labeling with a panel of monoclonal antibodies, including an antiplatelet glycoprotein Ib and an antiglycoprotein IIb-IIIa complex, on blood or marrow cells, permitted identification of otherwise unidentifiable promegakaryoblastic proliferation. In two patients, the use of an immunoperoxidase technique with an antifactor VIII-R-Ag antibody has allowed direct confirmation of this diagnosis on bone marrow sections. This megakaryoblastic proliferation was not pure and was variably associated with blasts of other cell lines (erythroblasts or myeloblasts). Changes in the population of blasts were observed during evolution in two patients. The sixth patient had a mild thrombocytopenia associated with severe neutropenia and anemia. Bone marrow biopsy displayed a myelofibrosis and immature cells, without megakaryocytic proliferation. Ultrastructural study revealed a pure basophil-mast cell proliferation. In conclusion, in five of six patients with secondary acute leukemia associated with myelofibrosis, a proliferation of promegakaryoblasts was demonstrated using both immunofluorescent and ultrastructural cytochemical techniques.
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PMID:Therapy-related leukemia associated with myelofibrosis. Blast cell characterization in six cases. 638 Jul 2

The amino-terminal and the carboxy-terminal amino acids of the hemagglutinin-neuraminidase glycoprotein of the Ulster strain of Newcastle disease virus have been analyzed before and after proteolytic activation of the precursor HNo (Mr approximately 82K). The amino termini of HNo and of the large cleavage fragment HN (approximately 74K) obtained by in vivo and in vitro proteolysis could not be sequenced by Edman degradation. This indicates that in both instances the amino termini are blocked. The carboxy termini of HNo and HN are different as demonstrated by end-point digestion with carboxypeptidase A. Furthermore, a small cleavage fragment (approximately 9K) of HNo that was removed from the virion after trypsin treatment could be purified by HPLC. In contrast to HN, this fragment displays a free amino terminus susceptible to Edman degradation. These data indicate that conversion of HNo involves removal of a 9K glycopeptide from the carboxy-terminal end. Thus, it has to be concluded that, unlike most other viral glycoproteins, the hemagglutinin-neuraminidase is inserted in the envelope with its carboxy terminus exposed at the surface of the virus particle.
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PMID:The carboxyterminus of the hemagglutinin-neuraminidase of Newcastle disease virus is exposed at the surface of the viral envelope. 653 31

The anaphylactic function of IgE has been intensively investigated. The Fc epsilon receptor on mast cells or basophils combines with the last two constant domains of the epsilon heavy chain. The Fc epsilon receptor is apparently a glycoprotein, monovalent and free in the plasma membrane. The interaction between the antigen (allergen) and the corresponding IgE antibody combined with the Fc epsilon receptor results in the aggregation of the receptors. Receptor dimerization suffices to trigger the cell. Compartments can be described in mast cells or basophils, the activity of which depends upon the number of formed receptor dimers on the corresponding membrane area. Beyond a threshold number of dimerized receptors, the cell compartment is triggered, which in the presence of Ca++ leads to the discharge of mast cell mediators, an increasing function of the dimer number. Excess receptor aggregation or the absence of aggregation (i.e. IgE-Ag2 complexes) deactivates the cell, which occurs more often in the absence of Ca++. Thus, IgE molecules play a passive role only in allowing the aggregation of the receptors which delivers the activating signal. But through the composition of IgE-antigen complexes bound to the receptors, IgE also modulates the cell function according two antagonistic reactions in permanent balance, i.e. activation or deactivation. IgE molecules are also involved in immediate type reactions in inducing the release of lysosomal enzymes from mononuclear phagocytes. But IgE antibody can also, when complexed with the antigen, trigger macrophage cytotoxicity for the corresponding target, which indicates a new function of IgE in the effector mechanisms of immunity of particular importance in immunity to schistosomes. A receptor for aggregated IgE has been characterized on the membrane of macrophages. The binding of IgE to its macrophage receptor triggers the cell, as shown by the resulting increase in cyclic GMP, calcium uptake and accelerated turn-over of lysosomal enzymes. A receptor for IgE has also been described on lymphoid cells, B cells, null cells and recently T cells, and the appearance of the receptor is modulated by IgE molecules themselves, suggesting a homeostatic role of IgE molecules. IgE appears thus to play various functions, the most dramatic being the triggering of anaphylactic reactions. But the role of IgE in activating mononuclear phagocytes or lymphoid cells might also prove to be of importance in immunity.
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PMID:[Cellular interactions of IgE: towards a new function for IgE]. 700 8

We studied binding of serotonin to protein(s) derived from rat basophil leukemia (RBL) cells and mast cells. We found two types of serotonin binding protein in RBL cells. These proteins differed from one another in molecular weight and eluted in separate peaks from sephadex G-200 columns. Peak I protein (KD = 1.9 X 10(-6) M) was a glycoprotein that bound to concanavalin A (Con A); Peak II protein (KD1 = 4.5 X 10(-8) M; KD2 = 3.9 X 10(-6) M) did not bind to Con A. Moreover, binding of [3H]serotonin to protein of peak I was sensitive to inhibition by reserpine, while binding of [3H]serotonin to protein of peak II resisted inhibition by that drug. Other differences between the two types of binding protein were found, the most significant of which was the far more vigorous conditions of homogenization required to extract peak I than peak II protein. Neither peak I nor peak II protein resembled the serotonin binding protein (SBP) that is found in serotonergic neurons of the brain and gut. Electron microscope radioautographic analysis of the intracellular distribution of [3H]serotonin taken up in vitro by RBL cells or in vivo by murine mast cells indicated that essentially all of the labeled amine was located in cytoplasmic granules. No evidence for a pool in the cytosol was found and all granules were capable of becoming labeled. The presence of two types of intracellular serotonin binding proteins in these cells may indicate that there are two intracellular storage compartments for the amine. Both may be intragranular, but peak I protein may be associated with the granular membrane while peak II protein may be more free within the granular core. Different storage proteins may help to explain the differential release of amines from mast cell granules.
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PMID:Serotonin storage pools in basophil leukemia and mast cells: characterization of two types of serotonin binding protein and radioautographic analysis of the intracellular distribution of [3H]serotonin. 711 96

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