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)

Stimulation of the anticoagulation system with the structural analogs of alpha-thrombin, DPP-alpha-thrombin and prothrombin I having no proteolytic activity leads, as is the case with alpha-thrombin, to a decrease in the heparin content in mast cells and to a concurrent rise in the blood level of the complex compounds of heparin and blood proteins. Morphometry disclosed a substantial shift of mast cell population towards the light, heparin-free forms. In the experimental animals, the index of mast cell saturation with heparin dropped below one. Heparin release by mast cells proceeded by the merocrine secretion type, largely at the expense of granulolysis, with the cell integrity being preserved. Degranulation was effected via the strong form. Intravenous injection to the animals of alpha-thrombin in the presence of the anticoagulation system blockade with chlorpromazine produced no similar changes in the mast cell population.
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PMID:[Analysis of the mast cell population in excitation and blockade of the anticoagulant system]. 711 21

1. The effect of purified crotapotin, a non-toxic non-enzymatic chaperon protein normally complexed to a phospholipase A2 (PLA2) in South America rattlesnake venom, was studied in the acute inflammatory response induced by carrageenin (1 mg/paw), compound 48/80 (3 micrograms/paw) and 5-hydroxytryptamine (5-HT) (3 micrograms/paw) in the rat hind-paw. The effects of crotapotin on platelet aggregation, mast cell degranulation and eicosanoid release from guinea-pig isolated lung were also investigated. 2. Subplantar co-injection of crotapotin (1 and 10 micrograms/paw) with carrageenin or injection of crotapotin (10 micrograms/paw) into the contralateral paw significantly inhibited the carrageenin-induced oedema. This inhibition was also observed when crotapotin (10-30 micrograms/paw) was administered either intraperitoneally or orally. Subplantar injection of heated crotapotin (15 min at 60 degrees C) failed to inhibit carrageenin-induced oedema. Subplantar injection of crotapotin (10 micrograms/paw) also significantly inhibited the rat paw oedema induced by compound 48/80, but it did not affect 5-HT-induced oedema. 3. In adrenalectomized animals, subplantar injection of crotapotin markedly inhibited the oedema induced by carrageenin. The inhibitory effect of crotapotin was also observed in rats depleted of histamine and 5-HT stores. 4. Crotapotin (30 micrograms/paw) had no effect on either the histamine release induced by compound 48/80 in vitro or on the platelet aggregation induced by both arachidonic acid (1 nM) and platelet activating factor (1 microM) in human platelet-rich plasma. The platelet aggregation and thromboxane B2 (TXB2) release induced by thrombin (100 mu ml-1) in washed human platelets were also not affected by crotapotin. In addition, crotapotin (10 microg/paw) did not affect the release of 6-oxo-prostaglandin Fla, and TXB2 induced by ovalbumin in sensitized guinea-pig isolated lungs.5. Our results indicate that the anti-inflammatory activity of crotapotin is not due to endogenous corticosteroid release or inhibition of cyclo-oxygenase activity. It is possible that crotapotin may interact with extracellular PLA2 generated during the inflammatory process thereby reducing its hydrolytic activity.
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PMID:Inhibition of carrageenin-induced rat paw oedema by crotapotin, a polypeptide complexed with phospholipase A2. 753 90

Hyperplasia of airway smooth muscle cells is present in the airways of asthmatic patients and may contribute to the development of the bronchial hyperresponsiveness that occurs in these patients. Because tryptase is an abundant component of mast cell granules and has demonstrated growth-stimulatory effects in other mesenchymal cells (J. Clin. Invest. 1991; 88:493-499), the goal of our study was to determine whether tryptase is a mitogen for airway smooth muscle cells. The mitogenic effects of tryptase were tested in passages 1 through 5 of dog tracheal smooth muscle cells, either by counting smooth muscle cells or by monitoring uptake of bromodeoxyuridine (BrdU) into cellular DNA during S-phase. With respect to its efficacy, at a near maximal concentration (4 nM), tryptase increased cell numbers 2.1 +/- 0.2- or 2.8 +/- 0.6-fold above controls after 2 or 4 days, respectively, and these increases were approximately the same as those induced by platelet-derived growth factor (50 ng/ml) or 10% calf serum. With respect to potency, tryptase caused concentration-dependent increases in BrdU uptake, as detected in an enzyme-linked immunosorbent assay or by counting BrdU-labeled nuclei, with an EC50 of 2 nM. Pretreatment of tryptase with diisopropylfluorophosphate, to reduce markedly its catalytic as a activity as a proteinase, attenuated its growth-stimulated effects by 58 +/- 16%. Tryptase-induced mitogenesis was not a nonspecific effect of all serine proteinases, because thrombin, another proteinase with mitogenicity for fibroblasts, stimulated neither increases in cell counts nor BrdU uptake in our cells. We conclude that tryptase is a potent mitogen for airway smooth muscle cells in culture.
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PMID:Tryptase, the dominant secretory granular protein in human mast cells, is a potent mitogen for cultured dog tracheal smooth muscle cells. 762 90

During atherogenesis, lipid droplets appear in the extracellular space of the arterial intima. We previously observed generation of lipid droplets on the surface of exocytosed mast cell granules when granule neutral proteases degraded the granule-bound LDL particles and the particles became unstable and fused [Kovanen, P.T., & Kokkonen, J.O. (1991) J. Biol. Chem. 266, 4430-4436]. We have now extended our studies to the fluid phase and examined the effects of several proteases (trypsin, alpha-chymotrypsin, Pronase, plasmin, kallikrein, and thrombin) all known for their ability to cleave the apolipoprotein B-100 component (apoB-100) of LDL. The fused LDL particles were separated from unfused particles by gel filtration or by density gradient ultracentrifugation. Proteolytic degradation of LDL with trypsin, alpha-chymotrypsin, or Pronase led to fragmentation of apoB-100 and release of the fragments from the LDL particles and triggered particle fusion. In contrast, proteolytic degradation of LDL with plasmin, kallikrein, or thrombin, which also led to fragmentation of apoB-100 but not to release of fragments, did not trigger particle fusion. With advancing degradation of apoB-100, particles having progressively lower densities and larger sizes were generated. Thus, after incubation for 24 h with alpha-chymotrypsin (apoB-100:alpha-chymotrypsin mass ratio 10:1) 40% of the apoB-100 was degraded and about 30% of the LDL particles had fused and reached diameters of up to 70 nm and densities ranging from 1.020 to < 1.005 g/mL. When the proteolyzed LDL particles, both unfused and fused, were incubated with macrophages, only those particles that had undergone fusion were ingested and converted into intracellular cholesteryl ester droplets. Thus proteolysis of LDL with release of apoB-100 fragments renders the particles sufficiently unstable to fuse and thus to become liable to ingestion by macrophages. Since the fused LDL particles resemble the extracellular lipid droplets in the atherosclerotic arterial intima and generate foam cells in vitro, these findings support the idea that proteolytic fusion of LDL is an atherogenic process.
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PMID:Fusion of proteolyzed low-density lipoprotein in the fluid phase: a novel mechanism generating atherogenic lipoprotein particles. 764 Feb 66

The comparative study of intratracheal and intravenous administration of heparin on blood coagulation and mast cell population was carried out in experiments in rats. Unlike the intravenous injection of heparin which induces fast short-time inactivation of all clotting factors, single intratracheal injection of heparin inactivated the intrinsic pathway of thrombin generation. Long-term hypocoagulability after intratracheal administration of heparin was related to the accumulation of heparin in mast cell.
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PMID:Investigation of long-term hypocoagulability in rats after intratracheal administration of unfractionated heparin. 768 32

Heparin is a sulfated glycosaminoglycan, synthesized by connective tissue-type mast cells. Rat mast cell protease 1 (RMCP-1), a chymotrypsin-like serine protease expressed specifically by connective tissue-type mast cells, is recovered in a macromolecular complex with heparin proteoglycan. The heparin.RMCP-1 complexes are stored in the secretory granules of the cells and are released following mast cell activation. We showed previously that dissociation of RMCP-1 from heparin resulted in loss of protease activity, as measured by its ability to inactivate thrombin. In the present report the binding of heparin to RMCP-1 was characterized. Affinity chromatography on heparin-Sepharose showed that RMCP-1 displayed high affinity for heparin, with approximately 1.2 M NaCl being required for elution of RMCP-1 from the affinity matrix. The structural requirements for the binding of heparin to RMCP-1 were investigated. Heparan sulfate, chondroitin sulfate, and dermatan sulfate, three glycosaminoglycans structurally related to heparin, were > or = 80-fold less effective in binding to RMCP-1 than heparin. The 2-O-sulfate, 6-O-sulfate, and N-sulfate groups in heparin were all shown to contribute in the binding. The minimal heparin sequence required for binding to RMCP-1 was found in a 14-saccharide fraction. 14-Saccharide species, obtained after separation by anion exchange chromatography, showed continuously increased binding with increasing anionic charge densities. The 16-18-saccharides were the smallest heparin oligosaccharides capable of accelerating the inactivation of thrombin by RMCP-1.
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PMID:Interaction of heparin with rat mast cell protease 1. 818 50

Release of inflammatory mediators by mast cells can be modulated by certain cytokines and by nitric oxide. An in vitro platelet aggregation bioassay was used to assess the effects of interleukin-1 beta (IL-1 beta) on the release of platelet-activating factor and nitric oxide from resting or ionophore-activated peritoneal mast cells (PMC) from rat. PMC spontaneously released a substance that inhibits thrombin-stimulated platelet aggregation. The activity of this substance is abolished by addition of hemoglobin to the platelet suspension and augmented by preincubation of the PMC with L-arginine, suggesting that it is nitric oxide. Within minutes, IL-1 beta concentration-dependently (1 pg/ml-100 ng/ml) enhanced the release from activated PMC of nitric oxide, as measured by its ability to inhibit thrombin-induced platelet aggregation, and as confirmed with a biochemical assay for nitrite. This action of IL-1 beta was inhibited by pretreatment of PMC with a calmodulin antagonist (calmidazolium), an IL-1 receptor antagonist, or either of two nitric oxide synthase inhibitors (L-NAME and LY-83583). IL-1 beta also inhibited the release of platelet-activating factor from PMC through a nitric-oxide-dependent mechanism. These results demonstrate that IL-1 beta is a potent and rapid-acting modulator of mast cell reactivity, stimulating nitric oxide release while inhibiting the production of platelet-activating factor.
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PMID:Modulation of rat mast cell reactivity by IL-1 beta. Divergent effects on nitric oxide and platelet-activating factor release. 839 60

A rat model of inflammation was used to investigate the biological effects of thrombin. The thrombin-specific inhibitor Hirulog markedly attentuated the carrageenin-induced edema of the paw of the rat. Injection of thrombin into the paw also produced edema. The effect of thrombin was due to activation of its receptor; a thrombin receptor activating peptide (TRAP) reproduced the effects of thrombin in causing edema. TRAP also increased vascular permeability as demonstrated by extravasation of Evans blue and 125I-labeled serum albumin. The release of bioactive amines played an important role in mediating the TRAP-induced edema; the serotonin/histamine antagonist cryproheptadine and the histamine H2 receptor antagonist cimetidine reduced significantly the edema caused by TRAP. Treatment of rats with the mast cell degranulator 48/80 to deplete these cells of their stores of histamine and serotonin abolished completely the ability of TRAP to produce edema. Histochemical examination confirmed that TRAP treatment led to mast cell degranulation. Thus, it has been possible to demonstrate that thrombin acts as an inflammatory mediator in vivo by activating its receptor, which in turn leads to release of vasoactive amines from mast cells.
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PMID:Thrombin functions as an inflammatory mediator through activation of its receptor. 864 86

It has been suggested that mast cells contain receptors for thrombin because binding of thrombin to peritoneal mast cells (PMCs) results in heparin release. Peritoneal mast cell responsiveness to different thrombin forms was examined by measuring ion conductance, intracellular pH, the concentration of cyclic guanosine monophosphate (cGMP), and release of histamine. Several types of receptors for thrombin are suggested by the results, which demonstrate that: (1) PMCs responded to alpha-thrombin and diisopryopyl-phosphoryl-alpha-thrombin (DIP-alpha-thrombin), but not to gamma-thrombin, by activation of Na/H exchange in reactions involving protein kinase C and by a simultaneous elevation in cell conductance and capacitance; (2) the initial 1-nmol/L alpha-thrombin-induced acidification of PMC cytoplasm was absent in Ca-free medium, and higher doses of alpha-thrombin induced a biphasic reaction (acidification preceeded alkalinization); and (3) PMC stimulation by alpha-thrombin at low concentrations (< 1 nmol/L) resulted in increase of cGMP and simultaneous decrease of histamine release, whereas thrombin concentrations > 1 mumol/L induced the acceleration of histamine release.
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PMID:Thrombin-mediated events implicated in mast cell activation. 880 11

Thrombin-activatable fibrinolysis inhibitor (TAFI) is the precursor of an exopeptidase that is identical to plasma procarboxypeptidase B. Upon activation by thrombin, activated TAFI (TAFIa) attenuates fibrinolysis, presumably by catalyzing the removal of C-terminal lysines from partially degraded fibrin. Activated protein C (APC) proteolytically inactivates the essential cofactor in prothrombinase, factor Va, and limits both the formation of thrombin and subsequent activation of TAFI, thereby appearing profibrinolytic. TAFI is able to reconstitute an APC-dependent shortening of lysis time in a purified system; however, it remained to be determined the extent to which TAFI is involved in the profibrinolytic effect of APC in a plasma-based system. To aid in addressing this question, two monoclonal antibodies (MoAbTAFI#16 and #13) and a polyclonal antibody were produced against purified TAFI. MoAbTAFI#16 was shown to inhibit TAFI activation and thereby appears to stimulate fibrinolysis. Furthermore, an enzyme-linked immunosorbent assay was developed using MoAbTAFI#13 and the polyclonal antibody. Through its use, the plasma concentration of TAFI was determined to be 73 nmol/L. In addition, a turbidity assay was used to determine the effect of APC on tissue plasminogen activator-induced fibrinolysis of clots produced from normal human plasma (NHP), plasma immunodepleted of TAFI (TdP), and TdP reconstituted with purified TAFI. APC shortened lysis time of clots produced from NHP in a saturable and concentration-dependent manner. However, APC had no effect on lysis time of clots formed from either TdP or NHP in the presence of 80 nmol/L MoAbTAFI#16. The APC effect could be reconstituted in TdP by the addition of purified TAFI. The lysis time in TdP was increased from 50 to 180 minutes in a TAFI concentration-dependent manner. The EC50 was 15 nmol/L and saturation was approached at physiologically relevant concentrations (60 nmol/L). The profibrinolytic effect of APC was also compared with that of MoAbTAFI#16 and two competitive inhibitors, an inhibitor of the carboxypeptidase A and B family purified from potato tubers and 2-Guanidinoethylmercaptosuccinic acid (GEMSA). All were able to reduce lysis time of clots formed from normal human plasma by 90 minutes, yielding respective EC50 values of 5 nmol/L, 15 nmol/L, 50 nmol/L, and 90 mumol/L. Therefore, the majority of the profibrinolytic effect of APC, in an in vitro plasma system, is dependent on TAFI. Because TAFIa dramatically influences lysis time, inhibitors of TAFIa or TAFI activation may prove to be important adjuvants for thrombolytic therapy.
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PMID:The profibrinolytic effect of activated protein C in clots formed from plasma is TAFI-dependent. 882 28

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