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

Normal murine peritoneal mast cells were fused to serum-deprived, non-proliferating cells of a cultured subline (41-SB-4) of the P-815 murine mastocytoma. Upon reincubation in medium containing 10% horse serum for 48 h, mono- and binuclear 41-SB-4 cells reentered S phase of the cell cycle, while mast cell X 41-SB-4 heterokaryons as well as mono- and binuclear mast cells remained in proliferative quiescence, indicating dominant expression of the quiescent state of mast cells. The quiescent state of normal mast cells thus resembles that of cold-sensitive (cs) mutant cells (21-F) of the undifferentiated P-815 mastocytoma: at the non-permissive temperature of 33 degrees C, the 21-F cells were found to enter a state of quiescence which is characterized by its dominant expression in heterokaryons and by morphological differentiation with the formation of metachromatically staining granules similar to those of mast cells. This suggests that the cellular control mechanisms involved in entry into proliferative quiescence and in morphological differentiation of cs 21-F cells may be analogous to those of normal mast cells and/or their precursors.
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PMID:Proliferative quiescence of normal mast cells resembles that of cold-sensitive mutant mastocytoma cells. Dominant expression of the quiescent state in heterokaryons. 392 78

In vitro degranulation of rat mast cells was studied at different intervals ranging from 10 to 60 sec after adding the histamine liberator, compound 48/80 (0.4 microg/ml, 17 degrees C). The ultrastructural changes were followed by electron microscopy, and parallel assays were made to determine the histamine released. In addition, the extracellular tracers lanthanum and hemoglobin (demonstrated by its peroxidative activity) were applied to mast cells to follow communication of the extracellular space with the cavities formed during degranulation. After a lag period of 10 sec, degranulation started in the most peripherally located granules. The perigranular membrane fused with the plasma membrane, resulting in a pore bridged by a thin diaphragm. This was followed by rupture of the diaphragm and extrusion of the granule matrix (exocytosis). The process advanced towards the cell interior by fusion and opening of the deeper situated granules to the formerly opened granule cavities. At the end of the process, the cell was filled by a system of complicated cavities containing a number of altered granules. Extracellular tracers have shown that these intracellular cavities were in unbroken communication with the extracellular space from the very beginning of their formation. Both lanthanum and hemoglobin were found to be adsorbed to the limiting membrane of the cavities and bound to altered mast cell granules. In contrast, no tracer substance was present in nondegranulating mast cells. Degranulation of mast cells by compound 48/80 is regarded as a sequential exocytosis, a process similar to that described for some exocrine gland cells. All the "intracellular" cavities, formed by degranulation, were shown to communicate with the extracellular space; consequently, granules lying in these cavities must be considered as biologically extracellular. The present findings support the view that histamine is released from the granule matrix by the extracellular ionic milieu.
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PMID:Electron microscope observations on compounds 48-80-induced degranulation in rat mast cells. Evidence for sequential exocytosis of storage granules. 410 23

The events associated with antigen-induced, IgE-mediated degranulation of human basophils from allergic donors were studied ultrastructurally. Partially purified cells were examined prior to addition of antigen and after incubation with antigen or control buffer for 15 seconds to 60 minutes. Reactions were stopped instantaneously by adding fixative directly to the cell suspension. After fixation the cells were exposed to cationized ferritin as a sensitive probe for demonstrating possible continuities between the cytoplasmic granules and the cell surface. Ficoll-Hypaque-isolated basophils were of three types: Type I, cells containing basophil granules with a full complement of particles; type II, cells containing some full granules but also variable numbers of cytoplasmic vacuolar structures having the size and shape of basophilic granules but having reduced or no particle content (partially fixed or empty granules); and type III, basophils containing only empty granules. Following exposure to specific antigen, basophils of all three types underwent degranulation characterized by the fusion of the membranes bounding single basophilic granules with the plasma membrane and leading to extrusion of content. Cells in the process of degranulation (type IV and V basophils) were characterized by communications between individual granules and the cell exterior. Identification of such communications was facilitated by cationized ferritin which entered granules having open communications with the cell surface. Without this marker, the number of such communications would have been seriously underestimated, either because they were extremely narrow, tortuous, or outside the plane of section. The majority of individual basophilic granules fused singly and separately with the plasma membrane, in contrast to guinea pig basophil and rat mast cell degranulation where intercommunicating clusters of granules fused with the plasma membrane at a single point. The particle and membrane contents of extruded granules frequently remained adherent to the surface of type IV and V basophils and were not immediately solubilized. Morphologic evidence of degranulation progressed with time of exposure to antigen, exhibiting kinetics that paralleled histamine release. Cells in control incubations, and rare basophils that had been exposed to antigen E, failed to degranulate. Fully degranulated (type VI) basophils were viable cells that had a markedly irregular surface and were devoid of basophilic granules but retained the minor population of small perinuclear granules.
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PMID:Antigen-induced IgE-mediated degranulation of human basophils. 615 54

Anaphylactic degranulation of guinea pig basophilic leukocytes, induced in vitro either with Concanavalin A or sheep serum (antigen), was resolved by transmission electron microscopy into two phases: (1) fusion of cytoplasmic granule membranes to form degranulation sacs communicating with the extracellular space by narrow pores and (2) resolution of degranulation sacs with concomitant granule matrix extrusion. Fusion of granule membranes occurred in the absence of obvious alterations of cytoplasmic filaments or microtubules but was preceded by a rapid increase in the number of 50- to 70-nm. cytoplasmic vesicles, a process evident 1 minute after exposure to lectin. By 5 minutes and at later intervals up to 20 minutes, as individual granule membranes fused to form degranulation sacs, vesicle frequency plunged to values one-half or less of control levels. Cytoplasmic vesicles were apparently incorporated into degranulation sacs and may have had a role in joining together the membranes of adjacent granules. Histamine release, detected at 5 minutes and maximal at 20 minutes, occurred at times when communications between degranulations sacs and the extracellular space were so narrow as to retain most recognizable granule matrix material. Resolution of degranulation sacs proceeded over a period of a day in culture and, in Concanavalin A-induced anaphylaxis, was sometimes incomplete even after 36 hours. During this phase, the frequency of cytoplasmic vesicles returned to normal or supernormal values, and the thin cytoplasmic processes forming the walls of degranulation sacs developed prominent, longitudinally disposed cytoplasmic filaments and ultimately retracted into the main cell body, depositing the membrane-free cytoplasmic granule matrix material outside the perimeter of the cell. Guinea pig basophil anaphylactic degranulation thus differs morphologically and kinetically from mast cell and basophil degranulation in other species in which granule membrane fusion and granule matrix extrusion occur nearly stimultaneously and are complete within minutes. The guinea pig basophil provides a useful model for dissociating these two intrinsic components of the degranulation process.
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PMID:Anaphylactic degranulation of guinea pig basophilic leukocytes. I. Fusion of granule membranes and cytoplasmic vesicles formation and resolution of degranulation sacs. 616 57

Regeneration of rat mast cells was studied by TEM from 10 s to 48 h after secretion of histamine induced by compound 48/80. During the first 2 h, small intracellular cavities, formed during compound exocytosis and containing non-membrane-bound remnants of the granules, tended to coalesce, and after 2 h of incubation regeneration started. After 6 h, all the cavities had fused into one large central cavity which contained the remnants of the granules and remained open to the exterior during the entire period. The plasma membrane microfolds which disappeared just after secretion were reformed during regeneration. They were apparently involved in endocytotic-like activity and coated vesicles also appeared beneath the plasmalemma (membrane recycling?). The fate of the granule remnants in the cavity is unknown, as regeneration was not completed after 48 h which is the longest survival time obtained so far in ultrastructural studies of mast cell regeneration in vitro.
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PMID:Electron microscopic study of the regeneration in vitro of rat peritoneal mast cells after histamine secretion. 616 80

The fate of the surplus membrane following exocytosis of mast cell granules was studied by the extracellular tracer Ruthenium red (Ru red). Isolated rat peritoneal mast cells were stimulated with 4 micrograms/ml polylysine, washed and maintained in a culture medium for 80 min. Mast cells were observed both with the light microscope after adding Ru red in physiological solution and with the electron microscope after fixation in Ru red-containing fixatives. Whereas all exocytotic cavities were found to be stained with Ru red immediately after stimulation, a gradual lack of staining was observed in the subsequent period. The exits of the cavities were sealed by membrane fusions which resulted in closed vacuoles containing exocytosed granule remnants. These vacuoles often fused with each other to form a few giant vacuoles. The overwhelming majority of the vacuoles were observed to be closed 30 to 80 min after stimulation. In one experiment a quantitative analysis was performed to assess the degree of membrane recapture by sealing of the exocytotic cavities. A considerable portion of the plasma membrane area was retrieved in this way as early as between 15 and 30 min after stimulation. We conclude that the dominant mechanism of membrane retrieval in the early period following exocytosis is the recapture of large membrane areas by sealing of exocytotic cavities.
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PMID:Early membrane retrieval following exocytosis in rat mast cells. 618 99

Quantitative measurements were made of brain mast cell (MC) degranulation in juvenile albino rats. Neither acute nor chronic intraperitoneal injections of Compound 48/80 (C 48/80) evoked any clear degranulation. Fifteen to thirty minutes after the injection of either C 48/80 or physiological saline into the right anterior thalamus, frank degranulation in the leptomeninges and some degranulation in the parenchyma were evident. The injected sides contained about twice as much degranulated cells as the noninjected sides. In a second experiment, animals were killed 10, 100, 1000, and 10,000 min after a single 10-microliters injection of C 48/80 into the anterior thalamus. Although about 40% of the leptomeningeal and 20% of the parenchymal MCs were degranulated within 10 min, more than 50% of the MCs in both areas were degranulated within 100 min after the injection. More extensive degranulation was evident at both times within the parenchyma of the injected sides. Degranulated MCs were not obvious after this period although nuclei surrounded by sparse granules (in the parenchyma) or by fused, globular metachromatic material (in the leptomeninges or their ventricular processes) were still discernable 7 days later. The implications of brain mast cell degranulation for psychoneuroimmunology are considered.
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PMID:Degranulation of brain mast cells in young albino rats. 620 Jan

We used the mast cell as a model system for studying some of the membrane events which occur during exocytosis. Our observations indicate that the maximum cluster size of IgE molecules necessary for the "on" signal to activate a mast cell is 10 or less and that the "off" signal is not associated with the gross patching or pinocytosis of IgE and its Fc receptors. Furthermore, the use of Con A-Sepharose beads to stimulate mast cells has shown that such signaling is localized to the areas of stimulus, but this localization is not a function of desensitization over the rest of the cell since the subsequent addition of soluble Con A to locally released cells induced generalized degranulation. Ca2+ influx therefore acts in a localized manner to initiate degranulation. Following receptor cross-linking, most of the membrane proteins and the layer of intervening cytoplasm are laterally displaced away from the areas of membrane interaction. This displacement may act as the signal for fusion to occur. The resulting fused bilayers are predominantly lipid, a situation which may be common in all transient membrane fusion. The mechanism of exposing histamine-containing granules to the extracellular space by blebbing is discussed.
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PMID:Rat peritoneal mast cells: a model system for studying membrane fusion. 624 65

Cultured rat embryonic skin fibroblasts phagocytosed rat mast cell granules added to the medium or released from co-cultured mast cells by rabbit anti-rat IgE or Compound 48/80. Electron microscopy of fibroblasts incubated with mast cell granules revealed that granules adjacent to the plasmalemma were engulfed by long, thin cytoplasmic processes. Internalization proceeded to fusion of encircling processes and formation of phagosomes. Microtubules and 60 A microfilaments became closely associated with the phagosomal membrane to which small vesicles and cisternae of endoplasmic reticulum fused. The rate of uptake of mast cell granules by fibroblasts was dependent upon temperature and granule concentration. Cytochalasin B inhibited granule uptake whereas colchicine and nocodazole had little effect. Phagocytosis was not influenced by actinomycin D and cycloheximide, was partially inhibited by fluoride, and was markedly inhibited by cyanide, azide, and 2,4-dinitrophenol. Supernatants from fibroblast cultures incubated with mast cell granules for 24 and 48 hr, during which period phagocytosis occurred, contained elevated levels of collagenase and beta-hexosaminidase, but normal levels of lactate dehydrogenase and superoxide dismutase. These results support the concept that immediate hypersensitivity reactions are in part terminated by phagocytosis of biologically active discharged mast cell granules by resident connective tissue fibroblasts. Further, it is suggested that a consequence of this process is an alteration in fibroblast behavior, providing a unique link between immediate hypersensitivity reactions and connective tissue responses to inflammation.
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PMID:Phagocytosis of mast cell granules by cultured fibroblasts. 684 86

Mature mast cells, isolated from the rat peritoneal cavity, were placed into suspension culture, either as resting or after degranulation by exposure to compound 48/80, and were maintained for up to 63 hr. No mitotic cells were observed, and cell number was conserved. The culture conditions did not cause spontaneous degranulation and cell survival was better than 80%. However, with time in culture, an increasing percentage of cells acquired a vesiculated appearance, characterized by a Golgi area with distended cisternae, the accumulation of lysosomal or autophagic-like vesicles, and enlarged, irregular or fused secretory granules. In the degranulated group, about one-fourth of the cells recovered the morphological appearance of resting cells by 63 hr, indicating that they are capable of 'recycling'. A cell type with a unique morphology, characterized by a large central vacuole containing secretory product, an eccentric nucleus, and mature secretory granules at the cell periphery appeared in the stimulated group after 22 hr of culture. In may be a possible intermediate stage in the mast cell regranulation process, based on its occurrence exclusively in the stimulated group, the correlation between its distribution and the recovery of mast cells to the resting state, and the morphological resemblance of its granule contents to stages in granule maturation in differentiating embryonic mast cells.
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PMID:Recycling of mast cells following degranulation in vitro: an ultrastructural study. 708 60


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