Binding of FITC-labelled alpha-thrombin by peritoneal mast cells]

The interaction of bovine alpha-thrombin with peritoneal mast cells was studied using FITC-labeled enzyme. Thrombin was modified with FITC in the presence of heparin and was separated from heparin and free FITC by gel-filtration at HPLC yielding FITC-labeled alpha-thrombin with intact additional recognition binding site for high molecular substrates and cell receptors. Equilibrium studies have shown that the binding of thrombin to peritoneal mast cells is active independent, rapid, specific, saturable and reversible. Equilibrium between bound and free thrombin is attained within I min and Scatchard analysis indicates a population of approximately 54 x 10(3) sites/cell with a dissociation constant of 1.3 x 10(-9) M. FITC-labeled alpha-thrombin binds to peritoneal mast cells in a temperature-dependent manner with optimum at 37 degrees C. These results indicate that FITC-labeled alpha-thrombin binds to peritoneal mast cells with high affinity.     

Stem cell factor has histamine releasing activity in rat connective tissue-type mast cells.

Stem cell factor (SCF) was documented to be involved in the growth of mast cells controlled by fibroblasts. We tested the effect of recombinant rat SCF on degranulation from rat peritoneal mast cells (connective tissue-type mast cells: CTMC). SCF induced histamine release (approximately 20% of total histamine content) in a dose-dependent fashion. The release response was relatively rapid and reached a maximum within 5 min. The release showed total dependence on the presence of extracellular phosphatidylserine (PTS). These results reveal that SCF has histamine releasing activity in CTMC.     

Thymosin alpha(1)--an endogenous modulator of alpha-thrombin recognition site]

Thymosin alpha 1-inhibited fibrinogen clotting activity of alpha-thrombin, but not amidolysis of H-D-Phe-Pip-Arg-pNA. Modulation of thrombin interaction with rat peritoneal mast cells (RPMC) by suppressors of additional recognition binding site (thymosin and heparin) was studied. Thrombin-induced pHi changes of RPMC were controlled with pH-sensitive fluorescent dye, BCECF. Thrombin caused a biphasic changes in pHi: rapid cell acidification (0.02) followed by slow alkalinization (0.06 above baseline for 18 min). Thymosin suppressed thrombin-induced pHi increase above resting level. Similar changes in pHi were observed after modification of additional recognition binding site by heparin. Beta/gamma-thrombin with disrupted additional binding site was shown to induce only a decrease of pHi. It is concluded that thymosin alpha 1 is endogenous modulator of alpha-thrombin activity.     

Activation of Na/H exchange by thrombin in peritoneal mast cells]

Using the fluorescent probe, BCECF, the changes in intracellular pH (pHi) in rat peritoneal mast cells were studied. alpha-Thrombin (0.1 nM) induced biphasic changes in pHi which consisted in a temporary decrease in pH with its subsequent steady increase due to the Na/H exchange activation which was inhibited by EIPA and controlled by extracellular Na+. The biphasic changes in pHi induced by DIP-alpha-thrombin (0.1 pM-1 nM), a catalytically inactive form with an intact recognition site, were similar to those of alpha-thrombin, whereas beta/gamma-thrombin (10-1000 pM), a catalytically active form characterized by structural disturbances in the recognition site, was able to induce only the initial phase of acidification. The thrombin recognition site modulators, alpha 1-thymosin and heparin, blocked the ability of the enzyme to induce the alkalinization of pHi. Nigericin stimulated the Na/H-exchange in mast cells. The rate of the Na/H-exchange activation determined with nigericin, decreased with an increase in the alpha-thrombin dose from 0.1 pM up to 10 nM. Activation of protein kinase C (PKC) in mast cells by PMA used at 1 nM and 10 nM led to the alkalinization of the cytoplasm as a result of the Na/H-exchange activation blocked by EIPA. The PKC inhibitor, H-7, suppressed the pHi increase induced by both PMA and alpha-thrombin. The alpha-thrombin-induced acidification of the cytoplasm was completely blocked by SITS in Ca(2+)-free media, whereas in media with Ca2+ SITS inhibited the pHi decline. Acidification of the cytoplasm by thrombin seems to be due to both Ca2+ influx and activation of Cl- fluxes. It is concluded that the observed activation of the Na/H-exchange by thrombin is induced by a cascade of intracellular reactions involving PKC.     

Immortalization of murine connective tissue-type mast cells at multiple stages of their differentiation by coculture of splenocytes with fibroblasts that produce Kirsten sarcoma virus

Mature connective tissue mast cells (CTMC) have not been previously available as a cell line from any species. Here we describe 15 novel mast cell lines (KiSV-MC) that were derived by coculturing murine splenocytes with fibroblasts that produce a Ki-ras-containing murine sarcoma virus. Some of the KiSV-MC lines are similar to CTMC in that they synthesize predominantly heparin proteoglycans, and contain up to 35 micrograms of histamine and 2.2 units of carboxypeptidase A/10(6) cells in secretory granules which stain red with Safranin. Other cell lines display phenotypic characteristics intermediate to CTMC and mucosal-like mast cells in being predominantly Safranin-, having lower amounts of histamine and carboxypeptidase A, and in synthesizing chondroitin sulfate E proteoglycans in preference to heparin proteoglycans. When the individual KiSV-MC lines were compared, a linear relationship was found between the number of Safranin+ granules, the cellular contents of histamine and carboxypeptidase A, and the biosynthesis of heparin relative to chondroitin sulfate E proteoglycans. Upon sensitization with monoclonal IgE and exposure to hapten-specific antigen, the cells exocytose the contents of their secretory granules. Thus, these immortalized cells provide the first source of CTMC-like lines for chemical and functional analysis and illustrate that murine mast cells can express a continuum of phenotypes.     

Mast cells are involved in the gastric hyperemic response to acid back diffusion via release of histamine

Acid back diffusion into the rat stomach mucosa leads to gastric vasodilation. We hypothesized that histamine, if released from the rat mucosa under such conditions, is mast cell derived and involved in the vasodilator response. Gastric blood flow (GBF) and luminal histamine were measured in an ex vivo chamber. Venous histamine was measured from totally isolated stomachs. Mucosal mast cells (MMC), submucosal connective tissue mast cells (CTMC), and chromogranin A-immunoreactive cells (CgA IR) were assessed morphometrically. After mucosal exposure to 1.5 M NaCl, the mucosa was subjected to saline at pH 5.5 (control) or pH 1.0 (H(+) back diffusion) for 60 min. H(+) back diffusion evoked a marked gastric hyperemia, increase of luminal and venous histamine, and decreased numbers of MMC and CTMC. CgA IR cells were not influenced. Depletion of mast cells with dexamethasone abolished (and stabilization of mast cells with ketotifen attenuated) both hyperemia and histamine release in response to H(+) back diffusion. GBF responses to H(+) back diffusion were attenuated by H(1) and abolished by H(3) but not H(2) receptor blockers. Our data conform to the idea that mast cells are involved in the gastric hyperemic response to acid back diffusion via release of histamine.     

Heparin secretion by mast cells as an index of the status of the anticoagulant system

The status of the mast cell population was studied and compared after administration of trypsin or alpha-thrombin in similar molar concentrations. Morphometry disclosed a substantial shift of the mast cell population towards light, heparin-free cells within one minute after alpha-thrombin administration. The index of mast cell saturation with heparin dropped below 1. The maximal heparin secretion was observed at the 5th minute of experiment. The morphometric criteria of the mast cell population returned to basal level in 120 minutes. These data along with a significant increase in the level of complex heparin compounds and plasma thrombin time indicate heparin release as a result of the effector action of the anticoagulation system. No changes were observed in the activity of complex heparin compounds and in thrombin time after intravenous injection of trypsin. It is suggested that high heparin secretion by mast cells may serve as criterion of the active status of the anticoagulation system.     

Platelet factor 4 fragment induces histamine release from rat peritoneal mast cells

Platelet factor 4 (PF-4) belongs to a superfamily of low-molecular weight proteins known as chemokines. However, its function has not been fully evaluated. In the present study, we investigated the effect of PF-4 on histamine release from rat peritoneal mast cells by employing its biologically-active carboxyl-terminal fragment, PF-4 (58-70). PF-4 (58-70) stimulated histamine release from mast cells in a dose-dependent manner (10(-8) to 10(-5)M). Histamine release induced by PF-4 (58-70) occurred rapidly (<30s) and was inhibited by extracellular Ca(2+). These results suggest that PF-4 might play a crucial role at the site of inflammation and/or immune response.     

Characterization of primate bronchoalveolar mast cells. II. Inhibition of histamine, LTC4, and PGD2 release from primate bronchoalveolar mast cells and a comparison with rat peritoneal mast cells

As described in the preceding companion paper, bronchoalveolar lavage (BAL) of the primate Macaca arctoides infected with the nematode Ascaris suum yields a population of cells containing a high proportion of mast cells (21%). Nedocromil sodium, a new drug undergoing clinical evaluation for the treatment of reversible obstructive airways disease, inhibited the release of histamine, LTC4, and PGD2 from these cells challenged with antigen (with IC30 values of 2.1 X 10(-6) M, 2.3 X 10(-6) M, and 1.9 X 10(-6) M, respectively) and with anti-human IgE (IC30 values of 4.7 X 10(-6) M, 1.3 X 10(-6) M, and 1.3 X 10(-6) M, respectively). Cromolyn sodium was essentially inactive. Histamine release from rat peritoneal mast cells induced by anti-rat IgE was, however, inhibited by both nedocromil sodium and cromolyn sodium with IC30 values of 1.1 X 10(-6) M and 5.5 X 10(-7) M, respectively. Both compounds induce phosphorylation of a 78,000 m.w. protein in the rat peritoneal mast cell in the absence of any stimulus at the same concentrations as those required to inhibit histamine release stimulated by anti-IgE. This event may be part of a feedback mechanism to limit degranulation. Nedocromil sodium and cromolyn sodium were equipotent in their ability to inhibit anti-IgE-induced histamine release from rat peritoneal mast cells, but differed markedly in their ability to inhibit histamine release from macaque BAL cells.     

Generation of leukotriene C4, leukotriene B4, and prostaglandin D2 by immunologically activated rat intestinal mucosa mast cells

Mucosal mast cells (MMC) were isolated from the intestine of Nippostrongylus brasiliensis-infected rats and then activated with Ag or with anti-IgE in order to assess their metabolism of arachidonic acid to leukotriene (LT) C4, LTB4, and prostaglandin D2 (PGD2). After challenge of MMC preparations of 19 +/- 1% purity with five worm equivalents of N. brasiliensis Ag, the net formation of immunoreactive equivalents of LTC4, LTB4, and PGD2 was 58 +/- 8.3, 22 +/- 4.5, and 22 +/- 3.4 ng/10(6) mast cells, respectively (mean +/- SE, n = 7). When MMC preparations of 56 +/- 9% purity were activated by Ag, the net generation of immunoreactive equivalents of LTC4, LTB4, and PGD2/10(6) MMC was 107 +/- 15, 17 +/- 5.4, and 35 +/- 18 ng, respectively. These data indicate that the three eicosanoids originated from the MMC rather than from a contaminating cell. Analysis by reverse phase HPLC of the C-6 sulfidopeptide leukotrienes present in the supernatants of the activated MMC preparations of lower purity revealed LTC4, LTD4, and LTE4. In a higher purity MMC preparation only LTC4 was present, suggesting that other cell types in the mucosa are able to metabolize LTC4 to LTD4 and LTE4. The release of histamine and the generation of eicosanoids from intestinal MMC and from peritoneal cavity-derived connective tissue-type mast cells (CTMC) isolated from the same N. brasiliensis-infected rats were compared. When challenged with anti-IgE, these MMC released 165 +/- 41 ng of histamine/10(6) mast cells, and generated 29 +/- 3.6, 12 +/- 4.2, and 4.7 +/- 1.0 ng (mean +/- SE, n = 3) of immunoreactive equivalents of LTC4, LTB4, and PGD2/10(6) mast cells, respectively. In contrast, CTMC isolated from the same animals and activated with the same dose of anti-IgE released approximately 35 times more histamine (5700 +/- 650 ng/10(6) CTMC), generated 7.5 +/- 2.3 ng of PGD2/10(6) mast cells, and failed to release LTC4 or LTB4. These studies establish, that upon immunologic activation, rat MMC and CTMC differ in their quantitative release of histamine and in their metabolism of arachidonic acid to LTC4 and LTB4.     

Inhibition of IgE-mediated histamine release from rat basophilic leukemia cells and rat mast cells by inhibitors of transmethylation

This study evaluated the effect of inhibitors of transmethylation on histamine release from rat mast cells and rat basophilic leukemia cells. IgE-mediated histamine release from rat basophilic leukemia cells (RBL-2H3 cells) was inhibited by 3-deazaadenosine (DZA) in the presence of L-homocysteine thiolactone (Hcy) or the combination of adenosine, erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA), and Hcy in a dose-dependent fashion. There were no significant changes in the cellular cAMP levels by these inhibitors. Histamine release induced by anti-IgE or dextran from normal rat mast cells was also blocked by DZA plus Hcy in a dose-dependent manner. DZA at 10(-3) M in the presence of 10(-4) M Hcy or the combination of 10(-3) M adenosine, 10(-4) M EHNA, and 10(-3) M Hcy inhibited lipid (perhaps phospholipid) methylation into RBL-2H3 cells without affecting choline incorporation. In the presence of 10(-3) M DZA plus 10(-4) M Hcy there was a 170-fold increase in [35S]AdoHcy with the concomitant appearance of 3-deaza-AdoHcy when the cells were incubated with [35S]methionine, thus indicating that these drugs inhibited methylation reaction(s) through the intracellular accumulation of AdoHcy and 3-deaza-AdoHcy. In contrast, histamine release from rat mast cells induced by the calcium ionophore A23187, compound 48/80, polymyxin B, or ATP was not inhibited by these compounds. These results suggest that IgE- or dextran-mediated histamine release involves methylation reactions(s), whereas the other secretagogues bypass this early step.     

Histochemical heterogeneity of dermal mast cells in athymic and normal rats

Summary Mucosal mast cells (MMC) and connective tissue mast cells (CTMC) of the rat contain different proteoglycans, which can be distinguished using histochemical methods. The chondroitin sulphate proteoglycan of the MMC, unlike the heparin of the CTMC, does not show fluorescent berberine binding, is susceptible to aldehyde fixatives and stains preferentially with Alcian Blue in a staining sequence with Safranin. The majority of the dermal mast cells are typical CTMC and are located in the deep part of the dermis. Subepidermal mast cells are comparatively few in normal rats but numerous in athymic rats and mice. These cells differ from other dermal mast cells in that they stain preferentially with Alcian Blue and they appear to contain little histamine. We examined some of the histochemical properties of the skin mast cells of female PVG-rnu/rnu rats and their heterozygous littermates aged from 5 to 29 weeks. The thiazine dye-binding of the subepidermal mast cells was partially blocked by formaldehyde fixation and only about half of them showed a weakly fluorescent berberine binding. The critical electrolyte concentration of the Alcian Blue staining of the subepidermal mast cells was between that of CTMC and MMC. Deaminative cleavage with nitrous acid abolished the staining of all skin mast cells, while that of the MMC was unaffected. There were no statistically significant differences in the staining patterns of the dermal mast cells between different ages or groups of rat. These results indicate that the subepidermal mast cells contain a heparin proteoglycan which is, however, different from that of the typical CTMC of other sites. They thus appear to represent a second example of a mast cell within a defined anatomical location exhibiting a distinct proteoglycan expression.     

Thrombin and histamine rapidly stimulate the phosphorylation of the myristoylated alanine-rich C-kinase substrate in human umbilical vein endothelial cells: evidence for distinct patterns of protein kinase activation.

Human alpha-thrombin and histamine each stimulates protein phosphorylation in human umbilical vein endothelial cells (HUVEC). We have identified the most prominent of these phosphoproteins by immunoprecipitation as the human homolog of the widely distributed myristoylated alanine-rich C-kinase substrate (MARCKS). Stimulation by 0.1-10 U/ml of alpha-thrombin produces a time-dependent, sustained (plateau 3-5 min) level of MARCKS phosphorylation. MARCKS phosphorylation requires thrombin catalytic activity but not receptor binding and is also seen in response to stimulation by a peptide, TR (42-55), that duplicates a portion of the thrombin receptor tethered ligand created by thrombin proteolytic activity. One micromolar histamine, like alpha-thrombin, produces sustained phosphorylation of MARCKS (plateau 3-5 min). In contrast, 100 microM histamine results in rapid but transient MARCKS phosphorylation (peak 1-3 min). HUVEC treated with 100 microM histamine for 5 min can be restimulated by alpha-thrombin but not fresh histamine, suggesting that the histamine receptor was desensitized. MARCKS phosphorylation can also be induced by several exogenous protein kinase C (PKC) activators and both alpha-thrombin- and histamine-induced MARCKS phosphorylation are inhibited by the PKC antagonist staurosporine. However, while prolonged PMA pretreatment ablates histamine-induced MARCKS phosphorylation, the ability of thrombin to induce MARCKS phosphorylation is retained. These findings provide evidence for agonist-specific pathways of protein kinase activation in response to thrombin and histamine in HUVEC.     

Biochemical analysis of glucocorticoid-induced inhibition of IgE-mediated histamine release from mouse mast cells

Pretreatment of mouse mast cells with 10(-7) to 10(-6) M dexamethasone (DM) during overnight sensitization with mouse IgE antibody resulted in inhibition of antigen-induced histamine release and degranulation. The inhibition of both degranulation and histamine release increased linearly with the duration of the treatment; maximal inhibition was obtained after approximately 16 hr with DM. The addition of DM to sensitized mast cells immediately before antigen challenge did not affect the antigen-induced histamine release. DM interacted directly with mast cells by binding to DM-specific cytoplasmic receptors. The treatment of mast cells with DM did not affect the binding of IgE to mast cells or intracellular cAMP levels. Bridging of cell-bound IgE anti-DNP antibody on mouse mast cells either by multivalent DNP-HSA or by anti-IgE induced phospholipid methylation at the plasma membrane and Ca++ influx into the cells. Pretreatment of mast cells with DM inhibited the antigen-induced phospholipid methylation and Ca++ uptake but failed to affect histamine release by Ca++ ionophore A23187. The results suggest that DM treatment inhibits histamine release by the inhibition of the early stage of biochemical processes leading to opening Ca++ channels but does not affect the process distal to Ca++ influx or the binding of IgE molecules to IgE receptors.     

Fibronectin and fibrinogen degradation products stimulate PMN-leukocyte and mast cell degranulation.

The ability of various peptides cleaved by plasmin from human fibrinogen and fibronectin or fibrinogen- and fibronectin- related synthetic peptides to induce histamine release from mast cells and collagenase and elastase from PMN-leukocytes was examined. Low molecular weight fibrinogen degradation products showed dose dependent secretion of collagenase. These peptides (mol. wt. 1.4 kD) at the concentration of 10(-5) M released about 47% of collagenase and 13% of elastase. Synthetic fibrinopeptides A and B had a similar strong collagenase releasing potency and also released histamine from mast cells. Peptides from plasmin digestion of fibronectin containing cell attachment site with sequence Arg-Gly-Asp-Ser and also synthetic peptide reproducing this amino-acid sequence at the concentration of 1000 micrograms/ml released about 50% of collagenase and 55% of elastase from PMN-leukocytes. Moreover peptides containing cell attachment and gelatin binding site induced histamine release from mast cells. The association of fibrinogen and fibronectin degradation with activation of mast cells may motivate the treatment with antihistaminic drugs of all pathological conditions where the intensive protein degradation takes place.     

Thrombin-induced increase in albumin permeability across the endothelium

We studied the effect of thrombin on albumin permeability across the endothelial monolayer in vitro. Bovine pulmonary artery endothelial cells were grown on micropore membranes. Morphologic analysis confirmed the presence of a confluent monolayer with interendothelial junctions. Albumin permeability was measured by the clearance of 125I-albumin across the endothelial monolayer. The control 125I-albumin clearance was 0.273 +/- 0.02 microliter/min. The native enzyme, alpha-thrombin (10(-6) to 10(-10) M), added to the luminal side of the endothelium produced concentration-dependent increases in albumin clearance (maximum clearance of 0.586 +/- 0.08 microliter/min at 10(-6) M). Gamma (gamma) thrombin (10(-6) M and 10(-8) M), which lacks the fibrinogen recognition site, also produced a concentration-dependent increase in albumin clearance similar to that observed with alpha-thrombin. Moreover, the two proteolytically inactive forms of the native enzyme, i-Pr2 P-alpha-thrombin and D-Phe-Pro-Arg-CH2-alpha-thrombin, increased the 125I-albumin clearance (0.610 +/- 0.09 microliter/min and 0.609 +/- 0.02 microliter/min for i-Pr2 P-alpha-thrombin and D-Phe-Pro-Arg-CH2-alpha-thrombin at 10(-6) M, respectively). Since the modified forms of thrombin lack the fibrinogen recognition and active serine protease sites, the results indicate that neither site is required for increased albumin permeability. The increase in albumin clearance with alpha-thrombin was not secondary to endothelial cell lysis because lactate dehydrogenase concentration in the medium following thrombin was not significantly different from baseline values. There was also no morphological evidence of cell lysis. Moreover, the increase in 125I-albumin clearance induced by alpha-thrombin was reversible by washing thrombin from the endothelium. The basis for the increased albumin permeability following the addition of alpha-thrombin appears to be a reversible change in endothelial cell shape with formation of intercellular gaps.     

Mast cell products stimulate collagenase and prostaglandin E production by cultures of adherent rheumatoid synovial cells

Mast cells were purified from histologically-confirmed dog mastocytomas and extracted for whole mast cell products (MCP). When added to cultures of human adherent rheumatoid synovial cells MCP induced a 50-400 fold increase in prostaglandin E synthesis and a 10-50 fold stimulation of collagenase production. The mast cell stimulatory factor has not been identified and was not due to histamine, heparin or prostaglandin E. These results indicate a novel way in which mast cells might interact with synovial cells to promote the production of inflammatory mediators and proteolytic enzymes which might contribute to connective tissue degradation.     

Immunologic mast cell-mediated responses and histamine release are attenuated by heparin.

Heparin has been shown to act as a competitive inhibitor of inositol 1,4,5-triphosphate (InsP3) receptors in various cell types. Because InsP3 is one of the second messengers involved in stimulus-secretion coupling in mast cells, it is possible that heparin may inhibit mast cell-mediated reactions. Therefore, in allergic sheep, we tested this hypothesis in two mast cell-mediated reactions induced by immunologic and nonimmunologic stimuli: immediate cutaneous reaction (ICR) and acute bronchoconstrictor response (ABR). In 12 sheep allergic to Ascaris suum antigen, the surface area of the skin wheal was determined 20 min after intradermal injection (0.05 ml) of increasing concentrations of specific antigen, compound 48/80, and histamine, without and after pretreatment with heparin (100, 300, or 1,000 U/kg i.v.). Antigen, compound 48/80, and histamine produced concentration-dependent increases in ICR. Heparin "partially" inhibited the ICR to antigen and compound 48/80 in a dose-dependent manner without modifying the ICR to histamine. The heparin preservative benzyl alcohol was ineffective. In 11 additional sheep, specific lung resistance was measured before and after inhalation challenges with antigen, compound 48/80, and histamine without and with aerosol heparin pretreatment (1,000 U/kg). Heparin blocked the antigen- and compound 48/80-induced bronchoconstriction without modifying the airway effects of histamine. In isolated human uterine mast cells, heparin inhibited the anti-immunoglobulin E- but not the calcium ionophore- (A23187) induced histamine release. These data suggest that heparin inhibits the ICR and ABR induced by stimuli that produce immunologic and nonimmunologic mast cell degranulation without attenuating the effects of histamine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Adrenomedullin and proadrenomedullin N-terminal 20 peptide induce histamine release from rat peritoneal mast cell

Adrenomedullin (ADM)-induced histamine release from rat peritoneal mast cells was investigated. We compared the ability of full-length ADM to induce histamine release to the fragments ADM-(1-25) and ADM-(22-52), as well as proadrenomedullin N-terminal 20 peptide (PAMP). ADM (10(-8) to 10(-5) M) and PAMP (10(-8) to 10(-5) M) dose-dependently increased histamine release from peritoneal mast cell preparations. The effect of ADM-(1-25) was similar to ADM, whereas ADM-(22-52) did not show any effects. These data suggest the relative importance of the ADM C-terminal fragment, which contains a six-membered ring structure. Histamine release, induced by ADM, was significantly and dose-dependently inhibited by the addition of ADM-(22-52) (10(-5) M), Ca(2+) (0.5 to 2.0 mM), and benzalkonium chloride (3 to 7 microM), a selective inhibitor of Gi type G proteins. In contrast, PAMP (10(-5) M)-induced histamine release was not inhibited by Ca(2+). These results suggest that ADM induce histamine release via a putative ADM receptor in a manner sensitive to Gi-protein function and extracellular Ca(2+) concentration, and that PAMP might produce its effect by a different mechanism than ADM.     

Activation and inhibition of mast cells degranulation affect their morphometric parameters

Activation of mast cells, the key cells of allergic inflammation, causes typical morphological changes associated with an increase in volume, that is a function of area and perimeter. The purpose of this study was to evaluate the effect of mast cell activation to degranulate, carried out by the secretagogue Compound 48/80, and of inhibition of this activation carried out by Nedocromil sodium, a mast cell stabilizing drug, on mast cell area, perimeter and shape factor by a computerized image analyzer. Mast cells were isolated and purified by peritoneal lavage of rats (purity >98%) and co-cultured with mouse 3T3 fibroblasts to which they adhere. Cultures were incubated for 10 min at 37 degrees C with culture medium alone (Enriched Medium) or Enriched Medium containing either Nedocromil (10(-4) M) or Compound 48/80 (0.3 microg/ml) or Compound 48/80 and Nedocromil (0.3 microg/ml and 10(-4) M respectively). Supernatants were then assessed for histamine release, as a marker of mast cell activation and the cell monolayers were fixed and stained with an alcoholic-acidic toluidine blue solution and examined with a computerized image analyzer connected with a light microscope. Mast cells incubated in Enriched Medium or Nedocromil possessed similar morphometric parameters. Mast cells activated with Compound 48/80 (70% histamine release) had a significant increase in area and perimeter and a decrease in shape factor in comparison to mast cells in Enriched Medium alone. Simultaneous incubation of mast cells with Compound 48/80 and Nedocromil significantly inhibited their histamine release (36% histamine release) and the increase in area and perimeter, but did not affect significantly their shape factor, in comparison with mast cells incubated with Compound 48/80 alone. These data clearly show that there is a relationship between mast cell activation, consequent histamine release and changes in cell area, perimeter and shape factor and that Nedocromil not only inhibits mast cell histamine release but also the activation induced morphometric changes in mast cells.