Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P15088 (mast cell)
 14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adenosine potentiates mouse bone marrow-derived mast cell mediator release by a mechanism that appears to involve cell surface adenosine receptors. In an attempt to explore possible interactions between G proteins and adenosine receptors, mast cells were incubated with activated pertussis toxin, an agent that ADP-ribosylates and inactivates some G protein subtypes, prior to challenge with specific antigen or the calcium ionophore A23187. Mast cells preincubated with 10 ng/ml pertussis toxin for at least 2 hr exhibited an inhibition of antigen-induced beta-hexosaminidase and leukotriene C4 release. The ability of adenosine to potentiate beta-hexosaminidase release was attenuated to an even greater degree by pertussis toxin. A23187-stimulated mediator release was not altered by pertussis toxin, although a modest inhibition of the ability of adenosine to enhance A23187-induced beta-hexosaminidase release was observed in pertussis toxin-treated mast cells. Although up to 24-hr exposure to 100 ng/ml pertussis toxin did not alter resting mast cell cyclic AMP levels, the ability of adenosine to elevate cell cyclic AMP concentrations was diminished markedly by doses of the toxin higher than those required to affect mediator release. Neither antigen-stimulated intracellular free calcium level augmentation alone nor the additional potentiation of these levels by adenosine was changed by pertussis toxin treatment. Inositol trisphosphate was generated by mast cells stimulated by IgE-mediated mechanisms, but a preincubation with pertussis toxin did not influence its generation. In summary, adenosine appeared to produce some of its alterations in mast cell biochemical events by a mechanism that was partially inhibited by pertussis toxin. The nature of the G protein linked to the mast cell adenosine receptor is yet to be determined.
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PMID:Alteration of mast cell responsiveness to adenosine by pertussis toxin. 284 50

The guanine nucleotide-binding proteins (G proteins), which transduce hormonal and light signals across the plasma membrane, are heterotrimers composed of alpha, beta, and gamma subunits. Activation of G proteins by guanine nucleotides is accompanied by dissociation of the heterotrimer: G + alpha.beta.gamma in equilibrium alpha G + beta.gamma. Brain contains several G proteins of which the most abundant are alpha 39.beta.gamma and alpha 41.beta.gamma. We have used proteolysis by trypsin to study the functional domains of the alpha subunits. In the presence of guanosine 5'-(3-O-thio)triphosphate, trypsin removes a 2-kDa peptide from the amino terminus of these proteins (Hurley, J. B., Simon, M. I., Teplow, D. B., Robishaw, J. D., and Gilman, A. G. (1984) Science 226, 860-862; Winslow, J. W., Van Amsterdam, J. R., and Neer, E. J. (1986) J. Biol. Chem. 261, 7571-7579). Tryptic cleavage does not affect the GTPase activity of the truncated molecule nor the apparent Km for GTP. However, removal of the 2-kDa amino-terminal peptide prevents association of the alpha subunits with beta.gamma. Since the apparent substrate for pertussis toxin-catalyzed ADP-ribosylation is the alpha.beta.gamma heterotrimer, the trypsin-cleaved alpha subunit is not a substrate for the toxin. Digestion of the carboxyl terminus of alpha 39 with carboxypeptidase A prevents ADP-ribosylation by pertussis toxin but does not interfere with the formation of alpha 39.beta.gamma heterotrimers. We do not yet know whether the amino-terminal region of alpha 39 interacts with beta gamma directly or whether it is necessary to maintain a conformation of alpha 39 which is required for heterotrimer formation. Further studies are needed to define the nature of the contracts between alpha and beta gamma subunits since understanding the structural basis for their reversible interaction is fundamental to understanding their function.
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PMID:The amino terminus of G protein alpha subunits is required for interaction with beta gamma. 313 54

Although the morphological features of angiogenesis are well documented and many promoting factors are known, the pharmacological mechanisms for the development of new vessels are not understood. Compounds found in platelets and/or mast cells--adenosine diphosphate, 5-hydroxytryptamine, histamine and heparin--caused endothelial cell growth stimulation in vitro: tumour angiogenesis factor did not. These same vasoactive compounds, as well as tumour angiogenesis factor, induced neovascularization on the chick chorioallantoic membrane. The increased vascularity produced by tumour angiogenesis factor was associated with considerable numbers of mast cells. These findings, together with an appreciation of the biochemical armoury of the mast cell and how its products could relate to the morphological steps of angiogenesis, and a realization that known anti-angiogenesis factors could all act through inhibition of mast cell products, strongly implicate the mast cell in the inductive mechanisms of neovascularization.
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PMID:Role of mast cells in experimental tumour angiogenesis. 619 56

Mouse bone marrow mast cells sensitized with monoclonal IgE and activated with specific antigen released 2.8 +/- 0.5 ng of platelet-activating factor (1-0-alkyl-2-acetyl-sn-glyceryl-3-phosphorylcholine) (PAF-acether)/ 10(6) cells. The PAF-acether was identified by its ability to aggregate fully aspirin-treated washed rabbit platelets in the presence of an adenosine diphosphate (ADP)-scavenger complex, by its co-chromatography with [3H]-labeled semi-synthetic PAF-acether and synthetic 1-0-octadecyl-2-acetyl-sn-glyceryl-3-phosphorylcholine, and by its inactivation by phospholipases A2, C, and D and not by lipase A1. The antigen-initiated release of PAF-acether, leukotriene C4 (LTC4), and leukotriene B4 (LTB4), and the secretion of the granule marker beta-hexosaminidase were not diminished by washing the cells before challenge, indicating that they were due to the interaction of antigen with the IgE fixed on the cell membrane and not to phagocytosis of immune complexes formed in the fluid phase. The parallel antigen-induced dose-response relationship, along with the superimposable time-course of the extracellular appearance, of beta-hexosaminidase, PAF-acether, and both leukotrienes indicated that the origin of these diverse mediators was from a common cell type with IgE-Fc receptors. Ethanol extraction of antigen-stimulated bone marrow-derived mast cells revealed the early transient appearance of a cell-associated platelet-aggregating activity, the action of which on platelets, like PAF-acether, was independent of ADP and arachidonic acid metabolism. The cell-associated activity contained a novel product that eluted at 13 min during high performance liquid chromatography (HPLC) (solvent hexane:n-propanol:water, 46:46:8), permitting resolution from PAF-acether and lyso-PAF-acether (1-O-alkyl-sn-glyceryl-3-phosphorylcholine), which eluted at 29 min and 30 min, respectively. The cell-associated material, which differs from lyso-PAF-acether, the putative precursor of PAF-acether, in being active in the bioassay on platelets may represent a newly recognized intermediate in the generation of PAF-acether. As the transiently present cell-associated intermediate has not been previously recognized, its detection may depend upon the relatively unique properties of the bone marrow-derived mast cell system in which IgE-dependent activation leading to product generation is complete within 5 min.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Antigen-initiated release of platelet-activating factor (PAF-acether) from mouse bone marrow-derived mast cells sensitized with monoclonal IgE. 631 19

Activation and reactivation of the ATP-sensitive K+ channel (IK.ATP) were studied with the patch-clamp technique in guinea-pig ventricular myocytes. The K+ channel openers, nicorandil and pinacidil, activated IK.ATP in an internal ATP-dependent manner. Both drugs increased the open probability of IK.ATP without changing the channel conductance. They prolonged lifetimes of bursts and shortened interburst intervals without influencing the fast gating within bursts. These effects were the opposite of those of internal ATP. However, the interaction between ATP and either nicorandil or pinacidil appeared not to be simple competition. We found that three carbonyl compounds--3,4-dihydroxybenzaldehyde, 2,3-dihydroxybenzaldehyde, and 2,4-dihydroxyacetophenone--could activate IK.ATP through an intracellular mechanism that was dependent upon the presence of ADP and Mg2+. It has been suggested that these three carbonyl compounds bind covalently to proteins to form a Schiff base, which may be responsible for their effects upon IK.ATP. Internal application of the proteolytic enzyme trypsin prevented both the spontaneous and Ca(2+)-induced rundown of the KK.ATP channel. Tryptic digestion did not change either the channel's sensitivity to inhibition by ATP nor the fast gating kinetics of IK.ATP. Internal application of an exopeptidase, carboxypeptidase A, but not leu-aminopeptidase, prevented the spontaneous and Ca(2+)-induced rundown of the IK/ATP channel, effects similar to those of trypsin treatment. These results suggest that the target site of trypsin digestion may be located on the carboxy (C)-terminal of the channel proteins or associated regulatory units.
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PMID:Activation and reactivation of the ATP-sensitive K+ channel of the heart can be modified by drugs. 825 28

The rat basophilic leukemia (RBL) mast cell line possesses cell surface receptors for adenosine whose ligation markedly potentiates antigen-driven Ca2+ influx and secretion. Here we show that engagement of these receptors and of separate P2 purinergic receptors rapidly activates an outwardly rectifying K+ conductance [GK(OR)] in RBL cells. Activation of GK(OR) by the ligands 5'-(N-ethylcarboxamido)adenosine (NECA), ADP, and ATP was prevented by cytoplasmic guanosine 5'-[beta-thio]diphosphate as well as by pretreatment of the cells with pertussis toxin, implicating mediation by a G protein. Multiple cycles of induction and decay of GK(OR) were produced upon application and removal of ligand. Induction of GK(OR) by either ligand was much faster than the induction caused by guanosine 5'-[gamma-thio]triphosphate (t1/2 < 10 sec vs. 210 sec.). In control cells the maximal whole-cell conductance elicited by ADP (2.25 +/- 0.30 nS) or ATP (2.50 +/- 0.33 nS) was about twice as large as that induced by NECA (1.03 +/- 0.11 nS), and similar to that previously reported for the guanosine 5'-[gamma-thio]triphosphate-elicited GK(OR) in RBL cells (2.58 +/- 1.59 nS). Treatment of RBL cells with dexamethasone upregulated Ca2+ responses to NECA, and it also nearly doubled the maximal conductance elicited by NECA without appreciable effect on responses to ADP or ATP. The failure of water-soluble second messengers to activate GK(OR) and the inability of 11 mM EGTA (< 10 nM Ca2+) to prevent activation by ADP suggest that the relevant pathway is membrane-delimited. Two ion-channel blockers inhibited antigen-stimulated secretion with IC50 values similar to those at which they blocked GK(OR), suggesting that activity of the outwardly rectifying K+ channel may be important for stimulus-response coupling in these cells. Potentiation of the secretory response by NECA may reflect, in part, the activation of GK(OR), which serves to repolarize the membrane more effectively than does the constitutive mechanism, thereby enhancing antigen-driven Ca2+ influx. This channel and its functionally associated receptors may allow neighboring cells of the host to modulate the response of mast cells to exogenous antigen.
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PMID:Activation of mast cell K+ channels through multiple G protein-linked receptors. 835 92

We studied the effects of C. botulinum C2 toxin, which ADP-ribosylates G-actin, on mast cell degranulation. C2 toxin inhibited degranulation of suspended rat peritoneal mast cells induced by compound 48/80 and dinitrophenyl-conjugated bovine serum albumin (DNP-BSA) maximally by about 50 and 90%, respectively. Inhibition by C2 toxin occurred in a time- and concentration-dependent manner. Half-maximal inhibition of DNP-BSA-induced degranulation by C2 toxin occurred at about 0.015 ng/ml, whereas stimulation of mast cells induced by compound 48/80 was half-maximally inhibited at 0.15 ng/ml C2 toxin. C2 toxin also inhibited stimulated [3H]serotonin release from suspended mast cells. Phorbol 12-myristate 13-acetate (PMA)-induced histamine release of suspended mast cells was inhibited by C2 toxin by about 80-90%. C2 toxin had no effect on calcium ionophore A23187-induced histamine release. Toxin treatment of mast cells caused ADP-ribosylation of actin and depolymerisation of F-actin. Attachment of mast cells, which largely increased the diameter of the subcortical actin network, reduced degranulation stimulated by compound 48/80, antigen and calcium ionophore but not by PMA. Opposite to its effect on suspended cells, in adherent mast cells C2 toxin stimulated degranulation by compound 48/80, antigen, and calcium ionophore but not by PMA. The data indicate that mast cell degranulation and responsiveness towards the actin-depolymerising C2 toxin depend largely on mast cell attachment.
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PMID:Effects of Clostridium botulinum C2 toxin-induced depolymerisation of actin on degranulation of suspended and attached mast cells. 908 61

Rat mucosal mast cells express P2 purinoceptors, occupation of which mobilizes cytosolic Ca2+ and activates a potassium conductance. The primary function of this P2 system in mast cell biology remains unknown. Here, we show that extracellular ADP causes morphological changes in rat bone marrow-cultured mast cells (BMMC) typical of those occurring in cells stimulated by chemotaxins, and that the nucleotides ADP, ATP, and UTP are effective chemoattractants for rat BMMC. ADP was also a chemotaxin for murine J774 monocytes. The nucleotide selectivity and pertussis toxin sensitivity of the rat BMMC migratory response suggest the involvement of P2U receptors. Poorly hydrolyzable derivatives of ADP and ATP were effective chemotaxins, obviating a role for adenosine receptors. Buffering of external Ca2+ at 100 nM or reduction of the electrical gradient driving Ca2+ entry (by elevating external K+) blocked ADP-driven chemotaxis, suggesting a role for Ca2+ influx in this process. Anaphylatoxin C5a was a potent chemotaxin (EC50 approximately 0.5 nM) for J774 monocytes, but it was inactive on rat BMMC in the presence or absence of laminin. Ca2+ removal or elevated [K+] had modest effects on C5a-driven chemotaxis of J774 cells, implicating markedly different requirements for Ca2+ signaling in C5a- vs ADP-mediated chemotaxis. This is supported by the observation that depletion of Ca2+ stores with thapsigargin completely blocked migration induced by ADP but not C5a. These findings suggest that adenine nucleotides liberated from parasite-infested tissue could participate in the recruitment of mast cells by intestinal mucosa.
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PMID:Chemotaxis of rat mast cells toward adenine nucleotides. 1039 94

The effect of a thrombin receptor agonist peptide (TRAP-6) on the release of nitric oxide (NO) and platelet activating factor (PAF) from resting and calcium-ionophore (A23187)-activated rat peritoneal mast cells (RPMC) was studied using a platelet aggregation bioassay. RPMC spontaneously released NO, which inhibited TRAP-6-, ADP-, and PAF-stimulated platelet aggregation. This effect of NO was abolished by the addition of an NO binding agent, oxyhemoglobin (oxyHb), to the platelet suspension. The RPMC-induced suppression of platelet aggregation was completely inhibited by the NO-synthase inhibitor L-NAME. TRAP-6 and its high affinity analog haTRAP stimulated the rapid release of NO from RPMC. The effect of TRAP-6 was inhibited by pretreatment of the RPMC with L-NAME or with the inhibitor of the constitutive NO-synthase isoform (cNOS) calmidazolium. TRAP-6 inhibited PAF release from A23187-activated RPMC via an NO-dependent mechanism. Platelet aggregation induced by PAF release from activated RPMC was also confirmed in experiments using the PAF receptor antagonist ginkgolide B. Thus, TRAP-6 is a rapidly acting modulator of mast cell reactivity; it stimulates NO release and inhibits PAF secretion.
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PMID:Modulation of mast cell activity by a peptide agonist of the thrombin receptor: role of nitric oxide. 1039 81

We have examined the specificity of oleate as an activator of phospholipase D2 (PLD2) and whether it can be used to study PLD2 localization and its involvement in cell function. Oleate stimulates PLD activity in intact RBL-2H3 mast cells. Comparing PLD1- with PLD2-overexpressing cells, oleate enhanced PLD activity only in PLD2-overexpressing cells. Membranes were also sensitive to oleate and when membranes prepared from PLD1- and PLD2-overexpressing cells were examined, oleate further increased PLD activity only in membranes from PLD2-overexpressing cells. Overexpressed green fluorescent protein (GFP)-PLD2 fusion protein was localized at the plasma membrane and GFP-PLD1 was found in an intracellular vesicular compartment. Oleate was used to examine whether overexpressed PLD2 co-localized with endogenous PLD2. RBL-2H3 mast cell homogenates were fractionated on a linear sucrose gradient and analysed for both oleate-stimulated activity and ADP ribosylation factor 1-stimulated PLD1 activity. The oleate-stimulated activity co-localized with markers of the plasma membrane including the beta-subunit of the FcepsilonRI and linker for activation of T cells. Fractionation of homogenates from PLD2-overexpressing cells demonstrated that the overexpressed PLD2 fractionated in an identical location to the endogenous oleate-stimulated activity and this activity was greatly enhanced in comparison with control membranes. Examination of membranes prepared from COS-7, Jurkat and HL60 cells indicated a relationship between oleate-stimulated PLD2 activity and PLD2 immunoreactivity. We examined whether oleate could be used to activate secretion and membrane ruffling in adherent RBL-2H3 mast cells. Oleate did not stimulate secretion but did stimulate membrane ruffling, which was short-lived. We conclude that oleic acid is a selective activator of PLD2 and can be used for localization studies, but its use as an activator of PLD2 in intact cells to study function is limited due to toxicity.
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PMID:Endogenous phospholipase D2 localizes to the plasma membrane of RBL-2H3 mast cells and can be distinguished from ADP ribosylation factor-stimulated phospholipase D1 activity by its specific sensitivity to oleic acid. 1237 67


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