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)

Adherence of cells to the extracellular matrix via focal adhesions is known to modulate many cellular functions. However, the role of focal adhesions in the regulation of secretion is unclear. To examine this we have used the RBL-2H3 rat mast cell line, in which we and others have observed cytoskeletal rearrangements and increased cell spreading during secretion. All activators of secretion examined, whether acting specifically through or bypassing the IgE-receptor, induced the assembly of focal adhesions, as defined by the localization of vinculin and talin. The extent of focal adhesion formation correlated with the extent of secretion and the time course of secretion also correlated with that of the assembly of focal adhesions. To examine the mechanism by which focal adhesion formation occurred, the protein kinase C inhibitor bisindolylmaleimide was used. Bisindolylmaleimide caused complete inhibition of both secretion and focal adhesion formation induced by antigen or the calcium ionophore A23187. Although PMA did not induce secretion, it induced focal adhesion assembly which was inhibited by bisindolylmaleimide. The inhibitor had no effect on secretion or focal adhesion formation induced by the ATP analogue, ATP gamma S in permeabilized cells, indicating ATP gamma S acts after the activation of protein kinase C in the secretory pathway. These data provide novel evidence that the formation of focal adhesions may have a role in the process of secretion from mast cells.
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PMID:Focal adhesion formation is associated with secretion of allergic mediators. 758 91

A rapid and continuous proteolysis of tryptophan hydroxylase was demonstrated with two mast cell lines derived from rat basophilic leukemia cells (RBL2H3) and mouse mastocytoma (FMA3). Under conditions in which protein biosynthesis was arrested by administration of cycloheximide, the decay profile of tryptophan hydroxylase protein was traced by Western blot analysis. Incorporation of [35S]methionine and the chase experiment performed without interfering with the metabolic stage also showed that tryptophan hydroxylase had been cleaved rapidly. The half life of the enzyme was 11-15 min in RBL2H3 cells and 40-60 min in FMA3 cells, and the process was demonstrated to be dependent on intracellular ATP.
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PMID:Rapid turnover of tryptophan hydroxylase in serotonin producing cells: demonstration of ATP-dependent proteolytic degradation. 761 72

Nitric oxide (NO.) plays a central role in the Physioliology of the gastrointestinal tract and its response to critical illness. Potential sources of NO. in the gut include: intrinsic intestinal tissue (mast cells, epithelium, smooth muscle, neural plexus), resident and/or infiltrating leukocytes (neutrophils, monocytes), reduction of luminal gastric nitrate, and denitrification by commensal anaerobes. The brain and endothelial isoforms of nitric oxide synthase are expressed under resting conditions, whereas inflammatory stimuli are required for the induction of the inducible type. Under resting conditions, mucosal perfusion is regulated by NO. derived from the vascular endothelium of the mesenteric bed. During inflammation, excessive NO. production from the inducible synthase may contribute to mucosal hyperemia. Coordination of peristalsis and sphincteric action is mediated by the release of NO., which acts as the principal neurotransmitter of the nonadrenergic, noncholinergic enteric nervous system. Alterations in bowel motility, such as ileus, result from excessive concentrations of NO. generated during endotoxicosis and inflammatory bowel disease. The role of NO. in the regulation of salt and water secretion is poorly understood. Endotoxin-induced inhibition of gastric acid secretion appears to be mediated by the action of NO. on parietal cells. NO. may protect the gastrointestinal mucosa from a variety of stimuli (caustic ingestion, ischemia, ischemia/reperfusion injury, early endotoxic shock) by maintaining mucosal perfusion, inhibiting neutrophil adhesion to mesenteric endothelium, blocking platelet adhesion, and preventing mast cell activation. Excessive NO., however, may directly injure the mucosa. Barrier function of the intestinal mucosa is protected by NO. in the early stages of injury, when neutrophil adhesion, ischemia, and mast cell activation are relevant. Inhibition of NO. synthesis ameliorates barrier dysfunction during more advanced stages of inflammation, when activation of inducible NOS yields toxic concentrations of NO.. At high concentrations, NO. disrupts the actin cytoskeleton, inhibits ATP formation, dilates cellular tight junctions, and produces a hyperpermeable state. Selective inhibition of the inducible isoform of NOS and maintenance of the constitutive types may be therapeutic.
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PMID:Nitric oxide in the gut. 770 93

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

Patients suffering from the inflammatory condition of interstitial cystitis frequently exhibit an increased number of mast cells in the bladder. To determine whether mast cell mediators have the potential to influence the neurogenic contraction of the bladder smooth muscle and thereby possibly contribute to the symptoms of interstitial cystitis, we examined the effects of histamine, a major inflammatory mediator of mast cell origin, on nerve- and agonist-induced contractions of in vitro strips of guinea pig urinary bladder. Histamine (10 microM.) potentiated by more than 50% the nerve-induced contraction of bladder strips evoked by field stimulation with 0.5 msec. pulses at 4 Hz. Because the neurogenic contraction of the bladder is mediated by at least two neurotransmitters, acetylcholine (ACh) and ATP, we examined the effects of histamine on each of these transmitters. Histamine potentiated responses to the purinergic component of the neurogenic response (that part of the neurogenic response that remains after treatment with atropine) and potentiated responses to exogenously applied ATP. Histamine did not potentiate the response to the cholinergic component of the neurogenic response (that part of the neurogenic response that remains after desensitization of purinoceptors with alpha, beta-methylene ATP) nor responses to carbachol, a cholinergic agonist. These results indicate that histamine potentiates the neurogenic response of the bladder by influencing the purinergic component, apparently at postjunctional sites.
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PMID:Potentiation of purinergic neurotransmission in guinea pig urinary bladder by histamine. 830 7

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

A detailed characterization of the inositol 1,4,5-trisphosphate (IP3) receptor in rat basophilic leukemia (RBL) cells, a neoplastic mast cell line, has been possible through the growth of solid RBL cell tumors which provide a rich source of IP3 receptor. Equilibrium binding studies show a 1.6 +/- 0.1 pmol/mg of protein maximal binding capacity for [3H]IP3 at optimal Ca2+ (10 microM). The specificity of the RBL cell IP3 receptor towards phosphoinositides, ATP and heparin parallels those previously described with excitable and nonexcitable tissues. [3H]IP3 binding is slightly enhanced from < 1 nM to 10 microM Ca2+ and inhibited by > 10 microM Ca2+. Kinetic and equilibrium studies provide evidence for at least two classes or conformational states of binding sites with pico- and nanomolar affinities. At nM concentrations of IP3, neither binding to the IP3 receptor nor IP3-induced Ca2+ efflux from permeabilized cells demonstrates cooperativity. In contrast, at pM concentrations, IP3 binding kinetics deviate from simple mass action suggesting a complex interaction among binding sites for IP3 on the receptor-channel oligomer. The mechanisms that regulate [3H]IP3 binding in RBL cells are unique when compared to what has been reported in other cells.
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PMID:Regulation of inositol 1,4,5-trisphosphate receptors in rat basophilic leukemia cells. I. Multiple conformational states of the receptor in a microsomal preparation. 838 92

In this study, the extracellular ATP (ATPo)-induced biochemical events were elucidated by comparing them with either the Fc epsilon RI- or Fc gamma R-induced events in the mouse mast cell line MC9. The omission of extracellular Ca2+ almost completely abolished the elevation of intracellular Ca2+ ([Ca2+]i) in the ATPo-stimulated cells, but only suppressed the second phase of the increase of [Ca2+]i in FcR-stimulated cells, thus suggesting that the ATPo-induced elevation of [Ca2+]i is totally dependent on the entry of extracellular Ca2+. Pretreatment with genistein, which inhibits protein kinases, especially protein tyrosine kinase, inhibited the FcR-triggered increase of [Ca2+]i, but not the ATPo-triggered one; however, such pretreatment did suppress both ATPo- and FcR-mediated beta-hexosaminidase release. An immunoblot analysis revealed that both ATPo and the cross-linking of FcRs led to tyrosine phosphorylation of 44- and 110-kDa proteins, which thus suggested that these tyrosine-phosphorylated proteins are involved in a modulation of the degranulation process following an elevation of [Ca2+]i. Pretreatment with PMA inhibited the FcR-induced [Ca2+]i increase, while not inhibiting the ATPo-induced one, thus suggesting that ATPo can mobilize [Ca2+]i even when protein kinase C (PKC) has already been activated. Pretreatment of calphostin C, a specific PKC inhibitor, had little effect on the ATPo-mediated beta-hexosaminidase secretion, thus indicating that the ATPo-induced degranulation is not mediated by PKC. Taken together, these results demonstrate that ATPo activates MC9 mast cells by a mechanism that is different from the activation induced by the cross-linking of FcRs.
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PMID:Extracellular ATP activates mast cells via a mechanism that is different from the activation induced by the cross-linking of Fc receptors. 862 38

The complete amino acid sequence (1961 amino acids) of a vertebrate cellular myosin heavy chain-A was deduced from cDNA clones of a secretory rat mast cell line, the RBL-2H3 cell. The rat, human and chicken cellular myosin heavy chain-A exhibited high similarity in domains that allow binding of ATP and actin. The amino acid sequence of non-muscle myosin heavy chain-A from rat was 96% identical to that in human and 92% identical to that in chicken. Northern blot analysis of mRNA indicated the presence of single message of 7.4 kilobases. Northern blot, reverse-transcriptase polymerase chain reaction, and Western blot with isoform-specific antibodies indicated that RBL-2H3 cells expressed exclusively myosin heavy chain-A. Unlike rat PC12 cells, as well as a wide variety of other cultured cells and tissues, myosin heavy chain-B mRNA and protein were not detectable in RBL-2H3 cells. Because RBL-2H3 cells can be stimulated to release secretory granules as well as newly generated arachidonic acid and cytokines but lack myosin heavy chain-B, this cell line may provide a unique model to study the role of myosin heavy chain-A in cellular responses to antigen and other stimulants.
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PMID:Cloning of the cDNA encoding rat myosin heavy chain-A and evidence for the absence of myosin heavy chain-B in cultured rat mast (RBL-2H3) cells. 874 Apr 33

The possible involvement of potassium (K) channels in allergic airway responses was examined in ovalbumin (OA)-sensitized guinea pigs. An ATP-sensitive K channel opener (BRL-38227) inhibited OA inhalation-induced bronchoconstriction and airway plasma leakage. BRL-38227 also had an inhibitory effect on exogenous histamine- and leukotriene-induced responses. In contrast, BRL-38227 did not affect OA-induced histamine release from minced lung tissues. Therefore, the ATP-sensitive K channel opener inhibits allergic bronchoconstriction and plasma leakage as a result of its effect on airway smooth muscle and postcapillary venules. Apamin, a small conductance Ca2+ -activated K channel (PK,Ca) blocker, significantly inhibited both OA-induced tracheal contraction and histamine release from lung tissues, suggesting that this compound reduces allergic airway responses via a mast cell stabilizing effect. We conclude that ATP-sensitive K channel opening and small conductance PK,Ca closure may be beneficial for preventing allergic airway responses.
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PMID:Allergic airway response and potassium channels: histamine release and airway inflammation. 875 Jul 93

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